CN213306929U - Integrated aquatic product feeding equipment - Google Patents

Abstract

The utility model aims at providing an integrated form aquaculture equipment of make full use of factory building high space. An integrated aquaculture device, which comprises an aquaculture box with an opening at the top, and an oxygen supply machine, wherein the oxygen supply machine supplies oxygen to water in the aquaculture box, and the aquaculture box is provided with a door capable of sealing the opening; including the shelf, the shelf has at least two-layerly and aquaculture case has at least two correspondingly, and each aquaculture case is placed on the different layers of shelf. Two aquaculture boxes are arranged on different layers of the frame, and the height space of a factory building is fully utilized. Under the normal state, the opening of the aquatic product raising box is closed, so that the water vapor in the aquatic product raising box on the lower layer of the shelf cannot overflow and scatter to be attached to the bottom of the aquatic product raising box on the upper layer of the shelf through the opening of the aquatic product raising box, and the bottom of the aquatic product raising box on the upper layer of the shelf is prevented from being wetted and growing moss.

Description

Integrated aquatic product feeding equipment

Technical Field

The utility model relates to an aquatic product feeding equipment.

Background

The aquatic product raising box in the prior art is generally arranged on the ground in a factory building, the floor height of the factory building is generally more than 6 meters, and the height of the aquatic product raising box is generally less than 1.5 meters, so that the height space of the factory building is not fully utilized. However, the aquaculture tank is generally an open tank, and no object is generally arranged above the opening of the tank, so that the situation that the moss grows due to the fact that water vapor overflowing from the aquaculture tank adheres to the object is avoided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an integrated form aquaculture equipment of make full use of factory building high space.

An integrated aquaculture device, which comprises an aquaculture box with an opening at the top, and an oxygen supply machine, wherein the oxygen supply machine supplies oxygen to water in the aquaculture box, and the aquaculture box is provided with a door capable of sealing the opening; including the shelf, the shelf has at least two-layerly and aquaculture case has at least two correspondingly, and each aquaculture case is placed on the different layers of shelf.

Furthermore, the shelf is provided with a placing seat on which the aquatic product raising box is placed; the aquatic product feeding box is in a horizontal annular shape, the placing seat correspondingly upwards extends to form a protruding part, and the protruding part is sleeved by the annular aquatic product feeding box.

Further, an oxygen supply machine supplies oxygen to at least two aquaculture tanks.

Furthermore, the aquaculture tank is provided with a micro-filter which pumps water in the aquaculture tank for filtration and then sends the filtered water back to the aquaculture tank.

Furthermore, an exhaust pipe transversely extends out of the aquaculture box.

Further, the aquaculture tank is in the form of a horizontally disposed ring, which is correspondingly provided with a ring track along which a sludge suction device for sucking sludge in the aquaculture tank moves.

Furthermore, a mud discharging pipe transversely extends out of the aquaculture box, so that a mud sucking device for sucking mud in the aquaculture box discharges the sucked mud out of the aquaculture box.

Furthermore, an observation window is arranged at the side part of the aquaculture box.

Further, the inner bottom of the aquaculture box is concave at the projection of the annular track.

Has the advantages that: two aquaculture boxes are arranged on different layers of the frame, and the height space of a factory building is fully utilized. Under the normal state, the opening of the aquatic product raising box is closed, so that the water vapor in the aquatic product raising box on the lower layer of the shelf cannot overflow and scatter to be attached to the bottom of the aquatic product raising box on the upper layer of the shelf through the opening of the aquatic product raising box, and the bottom of the aquatic product raising box on the upper layer of the shelf is prevented from being wetted and growing moss.

Drawings

FIG. 1 is a front elevation view of an integrated aquaculture apparatus;

FIG. 2 is a perspective view of a single aquaculture cage resting on a resting base;

FIG. 3 is a perspective view of a single aquaculture cage (with the cage hidden) on a mounting;

FIG. 4 is a schematic cross-sectional view of an annular track (including follower slides, follower tubes, conductive elements);

FIG. 5 is a perspective view of the driven tube and the conductive member mounted on the driven slider;

FIG. 6 is a front view of the mud suction device;

FIG. 7 is a schematic view of the pushing mechanism not mounted to the bin;

FIG. 8 is an axial section through a tapping pipe;

FIG. 9 is a perspective view of the elastomeric tube;

FIG. 10 is a side sectional view of the feeding device (the water guard, the elastic tube in the discharge tube are not shown);

in the figure: 1. an aquaculture tank; 2. an oxygen supply machine; 3. a shelf; 12. an exhaust pipe; 13. a placing seat; 131. a boss portion; 14. a door; 15. an annular track; 150. a sludge discharge pipe; 151. a slot cavity; 152. a power transmission tank; 153. a notch; 154. bending the part; 16. a driven slider; 160. a driven tube; 1601. a head end; 161. a conductive member; 162. an electrical contact; 17. splicing; 18. an observation window; 19. the inner ring side; 20. the outer ring side; 21. a micro-filter; 30. a mud suction robot; 31. a mud outlet pipe; 32. a feeding device; 321. a material pushing device; 322. a discharge pipe; 3220. a front port; 324. a storage bin; 326. a pushing arm; 33. a mud suction part; 331. a water retaining sheet; 332. an elastic tube; 3321. folding; 334. a rear port; 335. pushing a material port; 34. an impeller.

Detailed Description

As shown in figure 1, the integrated aquaculture apparatus comprises a rack 3 and six aquaculture tanks 1, the rack 3 having three levels, two aquaculture tanks 1 being disposed in each level. Two oxygen supply machines 2 are provided to supply oxygen to the six aquaculture tanks 1. Referring to fig. 2, the shelf 3 is correspondingly provided with six placing seats 13 each of which is extended upward and has a protruding portion 131, and the six aquaculture tanks 1 are all in a horizontal ring shape and are respectively placed on the corresponding placing seats 13 in a manner of covering the corresponding protruding portions 131. In the present embodiment, only one of the aquaculture tanks 1 will be described in detail below, and the remaining five aquaculture tanks 1 are the same as the illustrated aquaculture tank 1.

The aquaculture box 1 has a transversely extending exhaust pipe 12, a side opening with a viewing window 18, and a top opening with a door 14 to close the box. The aquaculture tank 1 is provided with a micro-filter 21 for pumping out the water in the aquaculture tank 1, filtering the water and returning the filtered water to the aquaculture tank 1. As shown in figure 3, a horizontal annular track 15 and a mud sucking robot 30 capable of walking in water are arranged in the aquaculture tank 1, a mud conveying groove is arranged along the annular track 15, and a mud discharging pipe 150 extending out of the aquaculture tank 1 transversely extends out of the mud conveying groove. The mud suction robot 30 as a mud suction means sucks mud in the aquaculture tank 1, and the mud sucked by the mud suction robot 30 includes excrement of fish and food residues. The mud sucking robot 30 moves the sucked mud out into the circular track 15 through the mud discharging pipe 31, and the mud moves to the mud discharging pipe 150 as a mud discharging port along the circular track 15 and is discharged out of the aquaculture tank 1. The inner bottom of the aquaculture tank 1 is concave at the projection of the annular track 15, so that sludge in the aquaculture tank 1 is gathered on the moving path of the sludge suction robot 30, and the sludge suction robot 30 can suck sludge conveniently.

As shown in fig. 4, the notch 153 of the mud trough extends upwardly from the trough cavity 151 and then turns to form a bend 154, and then extends out toward the inner circumferential side 19 of the circular track 15 (i.e., the notch 153 opens beside the circular track 15). As shown in fig. 5, the follower slider 16 is provided with a driven tube 160, which is fixed to the follower slider 16. Referring to fig. 3, the circular track 15 and the mud conveying trough as the strip members are spliced end to end, and the driven pipe 160 is loaded into the mud conveying trough from the splicing part 17 so that the driven slide block 16 is movably mounted on the track. The tail end of the driven pipe 160 is positioned in the mud conveying groove and is clamped at the bent part 154 in a non-detachable mode, the head end 1601 of the driven pipe 160 extends out towards the inner annular side 19 through the notch 153 and then turns to extend to the outer annular side 20 of the annular track 15 through the lower part of the annular track 15 to be connected with the top port of the mud discharging pipe 31, and therefore the mud discharging pipe 31 is communicated with the mud conveying groove. The mud suction robot 30 sucks mud in the aquaculture tank 1 through the mud suction part 33 (see fig. 6), and the sucked mud is moved out to the mud conveying groove through the mud discharging pipe 31 and the driven pipe 160, then moved to the mud discharging pipe 150 along the mud conveying groove, and discharged by the mud pump (shielded in the drawing) arranged in the mud discharging pipe 150. Along the circular track 15, a power transmission groove 152 is formed, which is formed by splicing and winding the circular track 15 and the mud conveying groove end to end. The follower slider 16 is provided with a conductive member 161, the conductive member 161 is fixedly mounted on the follower slider 16 to move along the track following the follower slider and thus move along the mud conveying trough, and the conductive member 161 is loaded into the power transmission trough 152 from the splice 17 in a non-detachable manner. The power supply is provided on the circular track 15, the wall of the power transmission tank 152 is powered from the power supply to supply the conductive member 161, and the electrical contact 162 of the conductive member 161 is connected with the mud suction robot 30 by an electric wire so that the conductive member 161 supplies power to the mud suction robot 30.

As shown in fig. 6, the mud suction robot 30 is provided with an impeller 34 as a walking power device, and the electric device 161 supplies power to the impeller 314 so that the mud suction robot can walk in various directions in water. The mud suction robot 30 travels along the endless track 15 right under the endless track 15 to suck mud, in the process, the driven slider 16 is drawn by the mud conveying pipe 31 to move along the endless track 15, and the conductive member 161 moves along the power transmission groove 152 and the driven pipe 160 moves along the notch 153. The driven pipe 160 is rubbed by the annular rail 15 when moving, so that the contact part of the outer wall of the driven pipe 160 and the annular rail 15 is made of wear-resistant material. The mud discharging pipe 31 is made of soft material, when the mud sucking robot 30 slightly deviates from the circular track 15 in the transverse direction during walking, the mud discharging pipe 31 is elongated and deformed by the mud sucking robot 30, so that the mud sucking robot 30 cannot be pulled back to the position right below the circular track 15 by the mud discharging pipe 31. When the mud sucking robot 30 is deviated far from the circular track 15 transversely, so that the mud discharging pipe 31 is elongated and deformed to the limit, the mud sucking robot 30 is dragged by the mud discharging pipe 31 so as not to be deviated further out of the circular track 15 transversely.

The mud sucking robot 30 is provided with a feeding device 32 and is also used as an intelligent underwater feeding robot. As shown in fig. 7, the feeding device 32 includes a storage bin 324, a plurality of discharge pipes 322 extending forward from the storage bin 324 into the water, and a plurality of pushing devices 321, each pushing device 321 having a pushing arm 326 as a pushing mechanism. Referring to fig. 10, a plurality of material pushing ports 335 are disposed on a rear wall of the storage bin 324, a plurality of material pushing devices 321 are mounted on the rear wall of the storage bin 324, and each material pushing arm 326 extends into the corresponding material pushing port 335. A plurality of discharging pipes 322 are arranged on the front wall of the storage bin 324 in parallel in a one-to-one corresponding mode of the material pushing devices 321, and a rear port 334 of each discharging pipe 322 is communicated with the inner cavity of the storage bin 324. The pushing device 321 pushes foodstuff in the bin 324 forward out through the front port 3220 of the discharging pipe 322 by driving the pushing arm 326 forward. One of the discharging pipes 322 is shown in fig. 8 and 9, a plurality of water retaining pieces 331 made of elastic material radially extend out of the inner wall of the discharging pipe 322, and the plurality of water retaining pieces 331 are arranged side by side along the circumference of the inner wall of the discharging pipe 322 and tightly attached to each other so as to jointly seal the cross section of the discharging pipe 322 to prevent water from reversely flowing into the storage bin 324 to interfere discharging. The discharge pipe 322 is provided with a radially deformable elastic pipe 332 in front of the water blocking sheet 331, and the elastic pipe 332 is folded from back to front to form a folded part 3321 to prevent the garbage with large volume in water from reversely passing through. The pushing device 321 drives the pushing arm 326 to move forward, and during the process that the pushing arm 326 pushes foodstuff in the bin 324 forward to discharge, the pushing arm 331 pushes the water blocking piece 331 forward so that the foodstuff passes through the water blocking piece 331, and then extends into the elastic tube 332 to radially expand the furled part 3321 so that the foodstuff passes through. Next, the pushing device 321 drives the pushing arm 326 to retract, the elastic tube 332 is radially contracted and restored by the radially expanded portion, and the water blocking piece 331 is rebounded and restored backwards.

Claims (9)

1. Integrated form aquaculture equipment including the open-ended aquaculture case is seted up at the top, including supplying oxygen machine, supplies oxygen machine to the water oxygen suppliment of aquaculture incasement, its characterized in that: the aquaculture tank is provided with a door capable of closing the opening; including the shelf, the shelf has at least two-layerly and aquaculture case has at least two correspondingly, and each aquaculture case is placed on the different layers of shelf.

2. An integrated aquaculture apparatus according to claim 1 wherein: the shelf is provided with a placing seat on which the aquatic product feeding box is placed; the aquatic product feeding box is in a horizontal annular shape, the placing seat correspondingly upwards extends to form a protruding part, and the protruding part is sleeved by the annular aquatic product feeding box.

3. An integrated aquaculture apparatus according to claim 1 wherein: an oxygen supply machine respectively supplies oxygen to at least two aquaculture boxes.

4. An integrated aquaculture apparatus according to claim 1 wherein: the aquaculture tank is provided with a micro-filter which pumps water in the aquaculture tank for filtering and then sends the filtered water back to the aquaculture tank.

5. An integrated aquaculture apparatus according to claim 1 wherein: an exhaust pipe transversely extends out of the aquatic product raising box.

6. An integrated aquaculture apparatus according to claim 1 wherein: the aquaculture tank is in the shape of a horizontal ring and is correspondingly provided with an annular track along which a mud suction device for sucking mud in the aquaculture tank moves.

7. An integrated aquaculture apparatus according to claim 1 or 6 wherein: the aquaculture box transversely stretches out and has the mud pipe to the mud device that inhales mud will inhale in the aquaculture box and discharge outside the aquaculture box.

8. An integrated aquaculture apparatus according to claim 1 wherein: the side part of the aquatic product breeding box is provided with an observation window.

9. An integrated aquaculture apparatus according to claim 6 wherein: the inner bottom of the aquaculture box is concave at the projection of the annular track.

Images