CN214339448U

CN214339448U - Efficient bait casting device for fish culture

Info

Publication number: CN214339448U
Application number: CN202120346512.9U
Authority: CN
Inventors: 项银根
Original assignee: Mojiang Yufeng Agricultural Development Co ltd
Current assignee: Mojiang Yufeng Agricultural Development Co ltd
Priority date: 2021-02-04
Filing date: 2021-02-04
Publication date: 2021-10-08
Anticipated expiration: 2031-02-04

Abstract

The application discloses fish are bred with high-efficient device of feeding, through setting up the spud at the bank, and serve to set up at the extension of spud and connect the soft pole, the extension end of connecting the soft pole is connected with floating the board, and set up motor and screw on floating the board, thereby realize floating the board and use the spud to be the dot, connect the soft pole for the radius in the fan-shaped region swing of breed aquatic, after floating the board and remove to formulating the regional back of feeding, will connect the fixed end of soft pole and fix and set up in the bank, thereby realize the fixed point of bait and throw and feed, this device of throwing can effectively deal with great wind-force in the river course, avoid floating the board following current under the wind-force effect to float away, realize effective fixed point and throw and feed.

Description

Efficient bait casting device for fish culture

Technical Field

The application relates to a fish culture is with high-efficient device of feeding belongs to fish culture technical field.

Background

In the fish culture process, the bait feeding with fixed quality, fixed time, fixed quantity and fixed position is required to be carried out so as to improve the meat protein content of the artificially cultured fish. Bait feeding is carried out according to the principle, the feeding regularity of the fishes can be improved, overfeeding infection is avoided, and the health of the fishes is reduced.

The existing bait feeding device is mainly carried by manpower, then baits are thrown and scattered on a water area for feeding, the feeding efficiency is influenced, meanwhile, manual operation wastes time and labor, and the existing bait feeding device is restricted by the responsibility of operators and cannot well reach the principle.

Meanwhile, in the existing mode of pneumatically conveying baits, the spray head is arranged on the floating ball so that the nozzle floats on the water surface, but in the bait spraying process, the floating ball support moves with strong randomness under the action of a reaction force, so that the principle cannot be well realized, the fish feeding cost is increased, and meanwhile, the economic value is reduced. Especially, when artificial breeding is carried out after the fence in the river channel, the floating feeder is influenced by wind power in river valley areas and is easy to be influenced by the wind power to flow downstream, so that the feeder cannot realize fixed-point feeding.

SUMMERY OF THE UTILITY MODEL

The application provides a fish culture is with high-efficient device of feeding for solving above-mentioned technical problem.

The application provides a fish culture is with high-efficient device of feeding includes: the pneumatic conveying assembly and the fixed piles are arranged on the river bank; the first end of the connecting soft rod is rotatably connected with the fixed pile, and the second end of the connecting soft rod is fixedly connected with the floating raft; the floating raft is arranged on the water area in a floating manner; the spray pipe assembly is arranged on the top surface of the floating raft;

the pneumatic conveying set comprises: the air outlet end of the blower is communicated with the air supply box through an air inlet pipe; a discharge pipe is arranged on the side wall of the air supply box, and the extension end of the discharge pipe is communicated with a first end pipeline of the conveying hose; the conveying hose is arranged close to the connecting soft rod, and the extending end of the conveying hose is communicated with the spray pipe assembly;

the positioning rod of the fixing pile is inserted into a river bank; the top of the positioning rod of the fixing pile is exposed out of the ground; the top surface of the positioning rod is provided with a limiting block; the lantern ring is sleeved at the upper part of the positioning rod and accommodated between the ground and the limiting block, the lantern ring is rotatably arranged around the positioning rod, and the first end of the connecting hose is fixedly connected with the lantern ring;

the floating raft comprising: the propeller assemblies are arranged on one surface of the floating raft, which faces the river bank; the propeller assembly is arranged on at least one side of the other two opposite sides of the floating raft.

Preferably, the method comprises the following steps: the positioning buckle is sleeved on the first end of the connecting hose and inserted on the river bank.

Preferably, the positioning buckle comprises: the positioning pins are arranged in pairs, and the sleeve is sleeved on the first end of the connecting hose;

the positioning pins are symmetrically arranged on the bottom surface of the sleeve in pairs; the locating pin is inserted and is located the river bank limit.

Preferably, the floating raft comprises: light raft body, first screw subassembly, second screw subassembly, third screw subassembly, the light raft body includes: the first propeller assembly and the second propeller assembly are symmetrically arranged in pairs on the first side edge;

the third propeller assembly is arranged on a third side edge;

the third side is respectively vertical to the first side and the second side wall and faces the river bank.

Preferably, the propeller assembly includes: a fixed rod, an engine and a propeller;

one end of the fixed rod is connected with the bottom surface of the light valve body, and the other end of the fixed rod is perpendicular to the light raft body and extends underwater; the propeller is arranged at the extending end of the fixed rod;

the engine is arranged on the top surface of the light raft body and is in driving connection with the propeller.

Preferably, the nozzle assembly includes: the spray head support is erected on the top surface of the floating raft; a plurality of inclined rods are arranged around the spray head bracket;

the first end of the inclined rod is connected with the top surface of the floating raft, and the second end of the inclined rod is connected with the middle part of the spray head support; the inclined rod supports the spray head bracket obliquely;

the storage bin is arranged on the top surface of the spray head support; a plurality of spray pipes are arranged on the top surface of the storage bin, one end of each spray pipe is communicated with the storage bin, and the other end of each spray pipe is obliquely arranged outside the storage bin;

the conveying hose is communicated with the storage bin.

Preferably, the pneumatic conveying assembly comprises: and the discharging hopper is arranged on the top surface of the pneumatic conveying box and is communicated with the pneumatic conveying box.

Preferably, the intake pipe includes: the valve is arranged on the air inlet pipe.

Preferably, the air inlet pipe is arranged at the lower part of the first side wall of the air supply box;

the discharge pipe is arranged on the upper portion of the second side wall of the air supply box.

The beneficial effects that this application can produce include:

1) the application provides a fish culture uses high-efficient device of feeding, through set up the spud at the bank, and serve to set up at the extension of spud and connect the soft pole, the extension end of connecting the soft pole is connected with floating the board, and set up motor and screw on floating the board, thereby realize floating the board and use the spud as the dot, connect the soft pole for the radius in the fan-shaped region swing of breed aquatic, after floating the board and remove to formulating the regional back of feeding, will connect the fixed end of soft pole and fix and set up in the bank, thereby realize the fixed point of bait and throw and feed, this device of throwing can effectively deal with great wind-force in the river course, avoid floating the board following current under the wind-force effect to float away, realize effective fixed point and throw and feed.

Drawings

FIG. 1 is a schematic structural view of the installation state of the high-efficiency feeding device for fish culture according to the present application;

illustration of the drawings:

10. a blower; 11. a valve; 12. feeding a hopper; 13. an air conveying box; 14. a discharge pipe; 141. a delivery hose; 15. river banks; 20. a water area; 22. fixing the pile; 221. a collar; 222. positioning a buckle; 223. connecting a soft rod; 31. floating rafts; 311. a first propeller assembly; 312. a second propeller assembly; 313. fixing the rod; 32. an engine; 332. a spray head holder; 331. a diagonal bar; 334. a nozzle; 333. a storage bin.

Detailed Description

The present application will be described in detail with reference to examples, but the present application is not limited to these examples.

Referring to fig. 1, the present application provides a high-efficiency feeding device for fish culture, including: the pneumatic conveying assembly, the fixed piles 22, the connecting soft rod 223, the lantern ring 221, the floating raft 31 and the spray pipe 334 are arranged on the river bank 15; the first end of the connecting soft rod 223 is rotatably connected with the fixed pile 22, and the second end of the connecting soft rod 223 is fixedly connected with the floating raft 31; the floating raft 31 is arranged on the water area 20 in a floating manner; the spray pipe 334 assembly is arranged on the top surface of the floating raft 31;

the pneumatic conveying set comprises: the air outlet end of the blower 10 is communicated with the air supply box 13 through an air inlet pipe; a discharge pipe 14 is arranged on the side wall of the air supply box 13, and the extension end of the discharge pipe 14 is communicated with a first end pipeline of the conveying hose 141; the conveying hose 141 is tightly attached to the connecting soft rod 223, and the extending end of the conveying hose 141 is communicated with the spray pipe 334 component;

the positioning rod of the fixing pile 22 is inserted into the river bank 15; the top of the positioning rod of the fixing pile 22 is exposed out of the ground; the top surface of the positioning rod is provided with a limiting block; the lantern ring 221 is sleeved on the upper portion of the positioning rod and accommodated between the ground and the limiting block, the lantern ring 221 is rotatably arranged around the positioning rod, and the first end of the connecting hose is fixedly connected with the lantern ring 221;

the buoyant raft 31 includes: the propeller assemblies are arranged on one surface, facing the river bank 15, of the floating raft 31; the propeller assembly is arranged on at least one of the other two opposite sides of the buoyant raft 31.

The device can keep away from the motion of river bank 15 to connecting soft pole 223 and straightening the back under the inference effect of screw subassembly, starts to set up in another screw subassembly of floating raft 31 both sides, and the drive floats raft 31 and uses spud pile 22 as the centre of a circle to connect soft pole 223 and carry out fan-shaped motion on 20 faces in river course waters as the radius, thereby realize effectively fixing spray tube 334 subassembly position according to the needs of feeding the fish. When the feeding device moves to a feeding point and meets the weather of strong wind, the wind power can be offset through the propeller assembly. Meanwhile, the floating raft 31 can be recycled by recycling the connecting soft rod 223, so that the fixed-point feeding requirement in the feeding process is improved.

The other two opposite sides here refer to two sides both perpendicular to the side facing the river bank 15, the two sides being parallel to each other.

During the use, start bolt assembly and move floating raft 31 in advance and remove 20 central zone in waters after, start the screw subassembly of opposite side, drive floating raft 31 and remove 20 central zone in waters, restart the forced draught blower, blow the interior fodder granule of pneumatic conveying case 13 to conveying hose 141 in, carry the fodder granule to the spray tube 334 subassembly through this conveying hose 141, realize the throwing and feeding of fodder through the spray tube 334 subassembly.

The device can realize fast that the raft 31 floats the location in waters 20, need not artifical propelling movement and float raft 31, and the back that targets in place need not artifical on duty simultaneously to float raft 31, can avoid floating raft 31 to be carried out bait by wind-force propelling movement to 20 certain angles in waters and throw something and feed in this region for a long time, can effectively improve the utilization ratio of bait to improve the protein content of artificial aquaculture fish, improve economic profit.

The propeller assembly used in the present application is arranged according to the propellers and their assemblies commonly used in the prior art, and will not be described herein.

Preferably, the method comprises the following steps: the positioning buckle 222 is sleeved on the first end of the connection hose, and is inserted into the river bank 15. By arranging the positioning buckle 222 on the river bank 15 close to the outside of the fixing pile 22, the connecting hose and the river bank 15 can be fixed at an angle according to feeding requirements, and the position of the connecting hose is fixed.

Preferably, the positioning catch 222 includes: the sleeve is sleeved on the first end of the connecting hose; the positioning pins are symmetrically arranged on the bottom surface of the sleeve in pairs; the positioning pin is inserted at the edge of the river bank 15. By providing the positioning fastener 222 with this structure, the connection hose can be fixed, and in a specific embodiment, the sleeve includes: one end of the semicircular cylinder is hinged, the other end of the semicircular cylinder is buckled, a fixing screw installing through hole is arranged at the buckling end, the fixing screw is arranged at the buckling end of the semicircular cylinder to fix the sleeve, the soft connecting rod 223 can be conveniently detached according to the arrangement, and the soft connecting rod 223 can be freely moved.

Preferably, the buoyant raft 31 comprises: light raft body, first screw propeller subassembly 311, second screw propeller subassembly 312, third screw propeller subassembly, light raft body includes: the first propeller component 311 and the second propeller component 312 are symmetrically arranged in pairs on the first side edge; the third propeller assembly is arranged on the third side edge; the third side is perpendicular to the first side and the second side respectively and faces the river bank 15.

According to this setting can improve the stability of light raft body when waters 20 remove, can realize the effective propelling movement to the light raft body through third screw subassembly simultaneously. Obviously in order to maintain the steady of light raft body, can set up the balancing weight according to the screw that sets up on its corresponding position, realize the whole steady to light raft body.

Specifically in an embodiment, can also set up two sets of other propeller assemblies of mutual symmetry on the second side in pairs, realize the accurate displacement control to the light raft body, improve positioning accuracy.

Preferably, the propeller assembly includes: a fixing lever 313, an engine 32, a propeller; one end of a fixed rod 313 is connected with the bottom surface of the light valve body, and the other end of the fixed rod 313 extends underwater vertical to the light raft body; the propeller is arranged at the extending end of the fixed rod 313; the engine 32 is arranged on the top surface of the light raft body and is in driving connection with the propeller. According to the arrangement, the water pushing quantity of the propeller component can be improved, and the advancing speed is improved.

In the embodiment, the specific arrangement of the engine 32 and the connection of the engine 32 to the propeller are all the same as those commonly used in the prior art, and will not be described herein,

preferably, the nozzle 334 assembly comprises: the floating raft comprises a storage bin 333, a spray head bracket 332, a plurality of inclined rods 331 and a plurality of spray pipes 334, wherein the spray head bracket 332 is erected on the top surface of the floating raft 31; a plurality of diagonal rods 331 are disposed around the showerhead holder 332; a first end of the diagonal bar 331 is connected to the top surface of the floating raft 31, and a second end of the diagonal bar 331 is connected to the middle of the nozzle holder 332; the inclined rod 331 is arranged to obliquely support the nozzle holder 332; the storage bin 333 is arranged on the top surface of the spray head bracket 332; a plurality of spray pipes 334 are arranged on the top surface of the storage bin 333, one end of each spray pipe 334 is communicated with the storage bin 333, and the other end of each spray pipe 334 is obliquely arranged outside the storage bin 333; the conveying hose 141 is communicated with the stock bin 333; the extended ends of the nozzles 334 are spaced apart from each other.

According to the arrangement, the feed can be conveyed to the storage bin 333 through the conveying hose 141, and under the action of pneumatic conveying, the feed can be sprayed out of the spray pipe 334 to a large area, so that the feeding uniformity is improved.

Preferably, the pneumatic conveying assembly comprises: and the lower hopper 12 is arranged on the top surface of the air supply box 13, and is communicated with the air supply box 13. The material is discharged to the air box 13 through the discharging hopper 12 and then conveyed.

Preferably, the intake duct includes: and the valve 11 is arranged on the air inlet pipe. The air inflow and the air inflow requirement can be effectively controlled by arranging the valve 11.

Preferably, the air inlet pipe is arranged at the lower part of the first side wall of the air supply box 13; the discharge pipe 14 is arranged on the upper part of the second side wall of the air supply box 13.

According to the arrangement, the moving path length of the airflow in the air conveying box 13 can be increased, so that the conveying amount of the airflow to the granulated feed is effectively increased, and the amount of the granulated feed carried by the airflow is increased.

Preferably, the buoyant raft 31 comprises: the light valve body can be made of a plate with two surfaces provided with hard plastic plates and the middle part provided with a foam plate. The rigid plastic panel can provide a reliable support surface for the fixation of the propeller assembly and the foam panel can increase the floating capacity of the floating raft 31.

Reference throughout this specification to "one embodiment," "another embodiment," "an embodiment," "a preferred embodiment," or the like, means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment described generally in this application. The appearances of the same phrase in various places in the specification are not necessarily all referring to the same embodiment. Further, when a particular feature, structure, or characteristic is described in connection with any embodiment, it is submitted that it is within the scope of the disclosure to effect such feature, structure, or characteristic in connection with other embodiments.

Although the present application has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this disclosure. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure and claims of this application. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims

1. The utility model provides a fish culture is with high-efficient device of feeding which characterized in that includes: the device comprises a pneumatic conveying assembly, a fixed pile (22), a connecting soft rod (223), a lantern ring (221), a floating raft (31) and a spray pipe (334) assembly, wherein the pneumatic conveying assembly and the fixed pile (22) are arranged on a river bank (15); the first end of the connecting soft rod (223) is rotatably connected with the fixed pile (22), and the second end of the connecting soft rod (223) is fixedly connected with the floating raft (31); the floating raft (31) is arranged on the water area (20) in a floating manner; the spray pipe (334) assembly is arranged on the top surface of the floating raft (31);

the pneumatic conveying set comprises: the air outlet end of the blower (10) is communicated with the air supply box (13) through an air inlet pipe; a discharge pipe (14) is arranged on the side wall of the air supply box (13), and the extension end of the discharge pipe (14) is communicated with a first end pipeline of the conveying hose (141); the conveying hose (141) is arranged close to the connecting soft rod (223), and the extending end of the conveying hose (141) is communicated with the spray pipe (334) component;

the positioning rod of the fixed pile (22) is inserted into the river bank (15); the top of the positioning rod of the fixed pile (22) is exposed out of the ground; the top surface of the positioning rod is provided with a limiting block; the lantern ring (221) is sleeved on the upper portion of the positioning rod and accommodated between the ground and the limiting block, the lantern ring (221) is rotatably arranged around the positioning rod, and the first end of the connecting hose is fixedly connected with the lantern ring (221);

the buoyant raft (31) comprising: the propeller assemblies are arranged on one surface, facing the river bank (15), of the floating raft (31); the propeller assembly is arranged on at least one of the other two opposite sides of the floating raft (31).

2. The efficient feeding device for fish farming according to claim 1, comprising: the positioning buckle (222), the positioning buckle (222) is sleeved on the first end of the connecting hose and is inserted on the river bank (15).

3. The efficient feeding device for fish farming of claim 2, wherein the positioning catch (222) comprises: the positioning pins are arranged in pairs, and the sleeve is sleeved on the first end of the connecting hose;

the positioning pins are symmetrically arranged on the bottom surface of the sleeve in pairs; the positioning pin is inserted at the edge of the river bank (15).

4. The efficient feeding device for fish farming according to claim 1, wherein the buoyant raft (31) comprises: light raft body, first screw propeller subassembly (311), second screw propeller subassembly (312), third screw propeller subassembly, the light raft body includes: the propeller mechanism comprises a first side edge, a second side edge, a third side edge and a fourth side edge, wherein the first propeller component (311) and the second propeller component (312) are symmetrically arranged in pairs on the first side edge;

the third propeller assembly is arranged on a third side edge;

the third side is respectively vertical to the first side and the second side wall and faces to a river bank (15).

5. The efficient bait casting device for fish farming of claim 4, wherein the propeller assembly includes: a fixed lever (313), an engine (32), and a propeller;

one end of the fixed rod (313) is connected with the bottom surface of the light valve body, and the other end of the fixed rod (313) is vertical to the light raft body and extends underwater; the propeller is arranged at the extending end of the fixed rod (313);

the engine (32) is arranged on the top surface of the light raft body and is in driving connection with the propeller.

6. The efficient bait casting device for fish farming of claim 1, wherein the lance (334) assembly comprises: the floating raft comprises a spray head support (332), a plurality of inclined rods (331), a plurality of spray pipes (334) and a storage bin (333), wherein the spray head support (332) is erected on the top surface of the floating raft (31); a plurality of diagonal rods (331) are arranged around the spray head holder (332);

the first end of the inclined rod (331) is connected with the top surface of the floating raft (31), and the second end of the inclined rod (331) is connected with the middle part of the spray head bracket (332); the inclined rod (331) is arranged for obliquely supporting the spray head bracket (332);

the storage bin (333) is arranged on the top surface of the spray head bracket (332); a plurality of spray pipes (334) are arranged on the top surface of the storage bin (333), one end of each spray pipe (334) is communicated with the storage bin (333), and the other end of each spray pipe (334) is obliquely arranged outside the storage bin (333);

the conveying hose (141) is communicated with the storage bin (333).

7. The efficient feeding device for fish farming of claim 1, wherein the pneumatic transport unit comprises: and the discharging hopper (12) is arranged on the top surface of the air conveying box (13) and communicated with the air conveying box (13).

8. The efficient feeding device for fish farming of claim 1, wherein the air intake duct comprises: the valve (11), valve (11) set up on the intake pipe.

9. The efficient feeding device for fish farming according to claim 1, wherein the air intake duct is provided at a lower portion of the first sidewall of the air box (13);

the discharge pipe (14) is arranged on the upper portion of the second side wall of the air supply box (13).