CN111449011B

CN111449011B - Injection structure for fish pond culture injection feeding device

Info

Publication number: CN111449011B
Application number: CN202010480161.0A
Authority: CN
Inventors: 请求不公布姓名
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-05-30
Filing date: 2020-05-30
Publication date: 2023-08-04
Anticipated expiration: 2040-05-30
Also published as: CN111449011A

Abstract

The invention discloses an injection structure for a fish pond culture injection feeding device, which realizes quantitative feed conveying through a spiral conveying structure, wherein the feed is uniformly injected, and a connecting pipe is prevented from being blocked through a dredging plate.

Description

Injection structure for fish pond culture injection feeding device

Technical Field

The invention discloses an injection structure for a fish pond culture injection feeding device, relates to an injection structure used on the fish pond culture injection feeding device, and belongs to the field of aquaculture. In particular to a spraying structure which realizes quantitative feed conveying through a spiral conveying structure, ensures uniform feed spraying and avoids blocking of a connecting pipe through a dredging plate.

Background

The aquaculture industry is the waters that the human utilization can supply to breed, according to the ecological habit of breed object and the requirement to waters environmental condition, application aquaculture technique and facility, at present, engage in aquatic economy, an industry of plant cultivation, when feeding the operation to large-scale aquaculture farm, traditionally carry out manual feeding through artifical rowing, because the plant area is big, holistic throwing food inefficiency, slow, intensity of labour is big, daily feeding operation needs consume a large amount of time, and current bulletin number CN109042430A discloses a feeding device for aquaculture, including the hull, the upside of hull is provided with the mounting panel, be provided with the motor in the middle of the upside of mounting panel, the output of motor is provided with the rotary rod, the upper end of rotary rod is provided with the rotor plate, the downside bilateral symmetry of rotor plate is provided with the support, install the universal wheel on the support, the lower extreme of universal wheel is provided with the upside of rotor plate and contradicts, the upside periphery of rotor plate is provided with the feed bin, the outside of feed bin is provided with the lower extreme, and the feed bin is provided with the feed bin, and the top of rotor plate is provided with the feed bin, and the feed bin is cut apart to install at the side of feed bin, and the side of feed bin, the side of feed bin is provided with the feed bin, and the feed bin is provided with the feed spacer plate, and the feeding device is cut apart into the distance through the setting up, and is long-distance, and can's the feeding device is realized, and the feeding device is not can't set up the feeding the spacer plate.

The application is for solving the pond and breeds injection and throw edible device of above-mentioned problem design, including the injection head, throw the hopper, the rotating turret, the mount, the storage tank, the hull, the booster pump, air pump isotructure, but its throwing hopper department is because relying on fodder self weight to carry out free whereabouts to spray through the high-pressure air current in the injection head, it can't carry out ration when carrying the fodder, simultaneously when throwing the hopper and throw the fodder, throw hopper and throw the connecting pipe department between the head and produce the phenomenon of jam easily, thereby influence normal fodder and throw the action.

Disclosure of Invention

In order to improve the situation, the injection structure for the fish pond culture injection feeding device provided by the invention is used for realizing quantitative feed conveying through a spiral conveying structure, and is uniform in feed injection and capable of avoiding blocking of a connecting pipe through a dredging plate.

The invention discloses an injection structure for a fish pond culture injection feeding device, which is realized by the following steps: the invention relates to an injection structure for a fish pond culture injection feeding device, which consists of an injection head, a feeding hopper, a driving motor, a connecting pipe, a guide plate, a conveying pipe, a spiral blade, a guide frame, a limiting cap, a bearing, a top ball block, a dredging plate and a slide bar, wherein one end of the conveying pipe is connected with the injection head and communicated with the injection head, the other end of the conveying pipe firstly extends obliquely upwards to form an inclined pipe, then is horizontally bent and extends for a certain distance to form a straight pipe, one end of the conveying pipe is connected with and communicated with the conveying pipe, the connecting pipe is close to the other end of the conveying pipe, the feeding hopper is arranged at the other end of the connecting pipe, a baffle is arranged in the conveying pipe close to the other end, the driving motor is arranged in the conveying pipe and between the baffle and the other end of the conveying pipe, a motor shaft of the driving motor firstly passes through the baffle through the bearing and then extends to a bending position of the conveying pipe along the central line of the conveying pipe, the spiral blade is arranged on the motor shaft, the guide frame is arranged in the feeding hopper, one end of the slide bar is arranged on the guide frame, the other end of the conveying pipe is downwards passes through the limiting cap and extends into the conveying pipe, one end of the conveying pipe, the other end of the conveying pipe is connected with the baffle, the baffle is arranged on the top ball block, and the other end of the guide plate is close to the conveying pipe extends towards the inclined plate, and the guide plate extends downwards, and is arranged on the inner wall, and extends towards the guide plate, and has a plurality of guide plates, and extends downwards position on the conveying plate;

the invention also relates to a fish pond culture injection feeding device, which is characterized in that: comprises a spray head, a charging hopper, a rotating frame, a fixed frame, a hose, a placing groove, a rotary table, a base, a booster pump, a tee joint and an air pump,

the rotary table is rotatably arranged on the base, the fixed frame is arranged on the rotary table, the rotary frame is hinged on the fixed frame, the middle part of the rotary frame is downwards sunken to form a placing groove,

the injection head is arranged in the placing groove, the feeding hopper is arranged on the injection head and is communicated with the injection head, one end of the hose is connected with the injection head,

the air pump is positioned at one side of the base, the booster pump is positioned at one side of the base, the air inlet end of the booster pump is connected with the air pump, the tee joint is connected with the air outlet end of the booster pump, the other end of the hose is connected with the tee joint and communicated with the tee joint, the tee joint is replaced by a four-way joint and a five-way joint, the anti-slip pad is arranged in the placing groove, the fixing frame is of a telescopic structure, an included angle is arranged between the feeding hopper and the injection head, and a sealing ring is arranged between the hose and the injection head;

furthermore, two sides of the fixing frame are provided with operation handrails which can be held by a person to turn in the horizontal direction.

Has the beneficial effects of.

1. The quantitative feed conveying is realized through the spiral conveying structure, and the effect of uniformly spraying the feed is further improved.

2. The dredging structure is added at the feeding hopper, so that the pipeline blockage of the feeding hopper caused by the viscosity of feed or excessive accumulation can be effectively avoided.

3. The guide plate design can avoid high-pressure air flow from flowing backwards into the feeding hopper channel and prevent feed from being sprayed backwards.

Drawings

FIG. 1 is a schematic diagram of a fish pond culture jet feeding device;

FIG. 2 is a perspective structure diagram of the fish pond culture injection feeding device;

FIG. 3 is a top view of a fish pond culture jet feeding device of the invention;

FIG. 4 is a schematic diagram of the structure of an embodiment 2 of the device for injecting and feeding fish pond culture of the invention;

FIG. 5 is a schematic diagram of the structure of an injection structure for an injection feeding device for fish pond culture;

FIG. 6 is a schematic structural view of a connection pipe of an injection structure for an injection feeding device for fish pond culture.

In the accompanying drawings

Wherein the method comprises the following steps: the novel material conveying device comprises an injection head (1), a material feeding hopper (2), a rotating frame (3), a fixing frame (4), a material storage tank (5), a ship body (6), a hose (7), a placing groove (8), a rotary table (9), a base (10), a booster pump (11), a tee joint (12), an air pump (13), an operation handrail (14), a driving motor (15), a connecting pipe (16), a guide plate (17), a conveying pipe (18), a spiral blade (19), a guide frame (20), a limiting cap (21), a bearing (22), a jacking ball block (23), a dredging plate (24) and a sliding rod (25).

The specific embodiment is as follows:

the invention discloses an injection structure for a fish pond culture injection feeding device, which is realized by the following steps: the invention relates to an injection structure for a fish pond culture injection feeding device, which consists of an injection head (1), a feeding hopper (2), a driving motor (15), a connecting pipe (16), a guide plate (17), a conveying pipe (18), a spiral blade (19), a guide frame (20), a limiting cap (21), a bearing (22), a top ball block (23), a dredging plate (24) and a sliding rod (25), wherein one end of the conveying pipe (18) is connected with the injection head (1) and communicated with the injection head, the other end of the conveying pipe (18) is obliquely upwards extended to form an inclined pipe, then horizontally bent and extended for a certain distance to form a straight pipe, one end of the connecting pipe (16) is connected with the conveying pipe (18) and communicated with the connecting pipe, the connecting pipe (16) is close to the other end of the conveying pipe (18), the feeding hopper (2) is arranged at the other end of the connecting pipe (16), the conveying pipe (18) is close to the other end of the conveying pipe (18) and is internally provided with a baffle, the driving motor (15) is arranged in the conveying pipe (18) and between the baffle and the other end of the conveying pipe (18), a motor shaft of the driving motor (15) is firstly passed through the bearing (22) and penetrates through the bearing (18) to extend to the guide pipe (19) to the position of the straight pipe (20), one end of a sliding rod (25) is arranged on the guide frame (20), a limit cap (21) is arranged at one end of the sliding rod (25), the other end of the sliding rod (25) downwards penetrates through the connecting pipe (16) to extend into the conveying pipe (18), a top ball block (23) is arranged at the other end of the sliding rod (25), the top ball block (23) is attached to the spiral blade (19), a plurality of dredging plates (24) are arranged on the sliding rod (25), the dredging plates (24) obliquely downwards extend, a plurality of guide plates (17) are arranged on the inner wall of the inclined pipe of the conveying pipe (18), and the guide plates (17) extend towards one end of the conveying pipe (18);

when the feeding hopper (2) is used, fish food is added into the feeding hopper (2), the fish food leaks into the conveying pipe (18), the driving motor (15) is started, the motor shaft of the driving motor (15) rotates to drive the spiral blade (19) on the motor shaft to rotate, the spiral blade (19) rotates to carry out spiral conveying on the fish food leaked into the conveying pipe (18), the spiral blade (19) rotates to push the top ball block (23), the top ball block (23) moves up and down in a reciprocating manner, the top ball block (23) moves to drive the sliding rod (25) to move, the sliding rod (25) moves to drive the dredging plate (24) on the sliding rod to dredge the connecting pipe (16), and the blocking of the connecting pipe (16) is avoided; the fish food is conveyed in the conveying pipe (18) towards one end in a spiral manner, when the fish food is conveyed to the inclined pipe, the fish food slides downwards along the inclined pipe, quantitative feed conveying is realized, quantitative feed projection and uniformity of spray coverage are realized, the guide plate (17) is designed to prevent high-pressure air flow from flowing backwards into a channel of the feeding hopper (2) and prevent feed from being sprayed backwards, and the top ball block (23) can roll;

the other end of the conveying pipe (18) is obliquely upwards extended to form an inclined pipe, then is horizontally bent and extended for a certain distance to form a straight pipe, and can be freely dropped into the injection head (1) after the fish food is quantitatively conveyed in a spiral manner, so that the injection is uniform;

the design that a limit cap (21) is arranged at one end of the slide bar (25) prevents the slide bar (25) from falling off the guide frame (20) to influence the dredging effect;

the design that the dredging plate (24) extends downwards in an inclined way enables the shaken-off feed to be downwards guided, and ensures that fish food leaks downwards;

the design that the guide plate (17) extends towards one end of the conveying pipe (18) enables the feed conveyed to the inclined pipe to be downwards guided, ensures that fish food is leaked downwards, and can prevent high-pressure air flow from flowing backwards into a channel of the feeding hopper (2) and prevent the feed from being sprayed backwards;

the design that the top ball block (23) can roll reduces the friction force between the top ball block (23) and the spiral blade (19), and avoids the influence of the deviation of the top ball block (23) on the conveying effect;

the design of the matching of the slide bar (25) and the dredging plate (24) can dredge the connecting pipe (16), and effectively avoid the pipeline blockage of the feeding hopper (2) caused by the viscosity of feed or excessive accumulation;

the spiral blades (19) and the motor are matched, so that quantitative feed conveying can be realized, and the effect of uniformly spraying the feed is further improved;

the spiral blades (19) rotate to carry out spiral conveying on fish food leaked into the conveying pipe (18), and the feed is quantitatively conveyed along the design of sliding down the inclined pipe, so that the feed is quantitatively conveyed, and the feed is quantitatively projected and the uniformity of spraying coverage is realized;

the spiral blade (19) rotates to push the top ball block (23), so that the slide bar (25) moves and drives the dredging plate (24) on the slide bar to move, and the connecting pipe (16) can be dredged, and the blocking of the connecting pipe (16) is avoided;

the purpose of realizing quantitative feed conveying through a spiral conveying structure, realizing uniform feed injection and avoiding blocking of the connecting pipe (16) through the dredging plate (24) is achieved.

The invention also relates to a fish pond culture injection feeding device, which is characterized in that: comprises an injection head (1), a feeding hopper (2), a rotating frame (3), a fixed frame (4), a hose (7), a placing groove (8), a rotary table (9), a base (10), a booster pump (11), a tee joint (12) and an air pump (13),

the rotary table (9) is rotatably arranged on the base (10), the fixing frame (4) is arranged on the rotary table (9), the rotary frame (3) is hinged on the fixing frame (4), the middle part of the rotary frame (3) is downwards sunken to form a placing groove (8), the injection head (1) is arranged in the placing groove (8), the feeding hopper (2) is arranged on the injection head (1) and is communicated with the injection head (1), one end of the hose (7) is connected with the injection head (1), the air pump (13) is arranged at one side of the base (10), the booster pump (11) is arranged at one side of the base (10), the air inlet end of the booster pump (11) is connected with the air pump (13), the tee joint (12) is connected with the air outlet end of the booster pump (11), the other end of the hose (7) is connected with the tee joint (12) and is communicated with the tee joint, the tee joint (12) is replaced by a four-way joint, a five-way joint is arranged in the placing groove (8), the fixing frame (4) is of a telescopic structure, an included angle is formed between the feeding hopper (2) and the injection head (1) and the injection head (7) is arranged between the hose and the injection head (1;

when the fish food storage device is used, two fixing frames (4) are arranged on a ship body (6), two injection heads (1) are respectively connected with a tee joint (12) through hoses (7), the two injection heads (1) face to two sides of the ship body (6), two storage tanks (5) are arranged on the ship body (6), the two storage tanks (5) are respectively located beside the fixing frames (4), and the Chu Liaocao (5) are filled with fish food; when feeding operation is required to be carried out on a large-scale aquaculture farm, the ship body (6) is driven to move in the fish pond, the air pump (13) is started, meanwhile, two people convey fish food in the storage tank (5) into the feeding hopper (2), the fish food enters the injection head (1) through feeding, meanwhile, the air pump (13) is pressurized through the booster pump (11), pressurized air flow enters the injection head (1) through the hose (7) and is sprayed out of the injection head (1) after being mixed with the fish food, the coverage area and uniformity of feeding and projection are improved through high-pressure air flow spraying, the personnel rotate the rotary table (9), the horizontal angle of the injection head (1) is adjusted, the rotary frame (3) adjusts the vertical angle of the injection head (1), feeding and spraying of different radius areas are realized at the same position, the frequency of the position movement of the ship body (6) is reduced, the integral feeding speed is high, the efficiency is high, and the labor intensity of the personnel is low;

furthermore, two sides of the fixing frame (4) are provided with operation armrests (14); when the steering device is used, a person can hold the operation handrail (14) to steer horizontally, so that the steering operation of the person is facilitated;

the middle part of the rotating frame (3) is downwards sunken to form a placement groove (8), so that the spray head (1) is placed conveniently and stably;

the tee joint (12) is replaced by a four-way and five-way design, and can be connected with three or four injection heads (1), so that the injection range is larger, the operation and the use of multiple people are facilitated, and time and labor are saved;

the anti-skid pad is arranged in the placing groove (8), so that the friction force between the injection head (1) and the placing groove (8) is increased, and the placing of the injection head (1) is stable;

the fixing frame (4) is of a telescopic structure, the length of the fixing frame (4) can be adjusted, the fixing frame is suitable for people with different heights, and the fixing frame is convenient to use and operate;

the design of an included angle is arranged between the feeding hopper (2) and the injection head (1), so that the inlet of the feeding hopper (2) faces upwards when the injection head (1) performs inclined injection, and fish food can be conveniently added by personnel;

the sealing ring is arranged between the hose (7) and the injection head (1), so that the hose (7) and the injection head (1) are kept sealed, and the high-pressure air flow conveying effect is good;

the rotary table (9) and the rotary frame (3) are matched, the angle can be freely turned and adjusted, feeding and spraying in areas with different radiuses can be performed at the same position, and time and labor are saved;

the design of the matching of the air pump (13) and the injection head (1) improves the coverage area and uniformity of feeding projection and reduces the frequency of the position movement of the ship body (6) by high-pressure air to spray the feed in an overhead mode;

the rotary table (9) is rotated to adjust the horizontal angle of the injection head (1), the rotary frame (3) is rotated to adjust the vertical angle of the injection head (1), and feeding and spraying of areas with different radiuses are realized at the same position, so that time and labor are saved;

the air pump (13) is pressurized through the booster pump (11), the pressurized air flow enters the injection head (1) through the hose (7) and is mixed with fish food and then injected out of the injection head (1), and the high-pressure air flow is used for spraying, so that the coverage area and uniformity of feeding projection are improved, and the frequency of position movement of the ship body (6) is reduced;

the high-pressure gas is used for spraying feed at high temperature, the angle can be freely turned and adjusted, the moving frequency of the ship body (6) is reduced, and the speed is high.

The above embodiments are preferred embodiments of the present invention, and are not intended to limit the scope of the present invention. It is intended that all modifications within the scope of the invention, i.e., all equivalents thereof, be embraced by the invention as they come within their scope without departing from the invention.

It should be further noted that, when the foregoing specific embodiments are described, only the differences from other embodiments are described for simplicity and clarity, but those skilled in the art will appreciate that the foregoing specific embodiments are also independent solutions.

Claims

1. The utility model provides a pond is bred and sprays to throw and eat injection structure for device which characterized by: the device consists of an injection head, a feeding hopper, a driving motor, a connecting pipe, a guide plate, a conveying pipe, a spiral blade, a guide frame, a limiting cap, a bearing, a top ball block, a dredging plate and a sliding rod, wherein one end of the conveying pipe is connected with the injection head and communicated with the injection head, one end of the connecting pipe is connected with the conveying pipe and communicated with the conveying pipe, the connecting pipe is close to the other end of the conveying pipe, the feeding hopper is arranged at the other end of the connecting pipe, a baffle is arranged in the conveying pipe close to the other end of the conveying pipe, the driving motor is arranged in the conveying pipe and between the baffle and the other end of the conveying pipe, a motor shaft of the driving motor firstly passes through the baffle through the bearing and then extends to a bending position of the conveying pipe along the central line of the straight pipe of the conveying pipe, the spiral blade is arranged on the motor shaft, the guide frame is arranged in the feeding hopper, one end of the sliding rod is arranged on the guide frame, the limiting cap is arranged at one end of the sliding rod, the other end of the slide bar downwards passes through the connecting pipe to extend into the conveying pipe, the top ball block is arranged at the other end of the slide bar, the top ball block is attached to the spiral blade, a plurality of dredging plates are arranged on the slide bar, when the slide bar is used, fish food is added into the feeding hopper, the driving motor is started simultaneously, the spiral blade rotates to carry out spiral conveying on the fish food which leaks into the conveying pipe, the dredging plates dredge the connecting pipe, the blocking of the connecting pipe is avoided, the fish food is spirally conveyed towards one end in the conveying pipe, when the fish food is conveyed to the inclined pipe, the fish food slides downwards along the inclined pipe, the quantitative and the covering uniformity of the projected feed are realized, the guide plate is designed to avoid the backflow of high-pressure air flow into the feeding hopper channel, the reverse spraying of the feed is avoided, the dredging plates extend downwards in an inclined manner, the shaken-out feed can be guided downwards, the downward leakage of the fish food is ensured, the spiral blade rotates to push the top ball block, the design that the slide bar moves and drives the dredging plate on the slide bar to move can dredge the connecting pipe, and the connecting pipe is prevented from being blocked.

2. The spraying structure for a fish pond culture spraying and feeding device according to claim 1, wherein the other end of the conveying pipe extends obliquely upwards to form an inclined pipe, and then is bent horizontally and extends for a certain distance to form a straight pipe.

3. The spraying structure for the fish pond culture spraying feeding device according to claim 2, wherein a plurality of guide plates are arranged on the inner wall of the inclined pipe of the conveying pipe.

4. A spraying structure for a fish pond culture spraying feeding device according to claim 3, wherein the guide plate extends towards one end of the conveying pipe, so that the feed conveyed to the inclined pipe can be guided downwards, the fish food is ensured to leak downwards, high-pressure air flow can be prevented from flowing backwards into the feeding hopper channel, and the feed is prevented from being sprayed backwards.

5. The spray structure for a fish pond culture spray feeding device according to claim 1, wherein the top ball block is capable of rolling.

6. The injection structure for the fish pond culture injection feeding device according to any one of claims 1-5, wherein the fish pond culture injection feeding device comprises an injection head, a feeding hopper, a rotating frame, a fixing frame, a hose, a placing groove, a rotating table, a base, a booster pump, a tee joint and an air pump, the rotating table is rotatably arranged on the base, the fixing frame is arranged on the rotating table, the rotating frame is hinged on the fixing frame, the middle part of the rotating frame is downwards sunken to form the placing groove, the injection head is arranged in the placing groove, the feeding hopper is arranged on the injection head and is communicated with the injection head, one end of the hose is connected with the injection head, the air pump is arranged on one side of the base, the booster pump is arranged on one side of the base, the air inlet end of the booster pump is connected with the air pump, the tee joint is connected with the air outlet end of the booster pump, and the other end of the hose is connected with the tee joint and is communicated with the tee joint.

7. The spraying structure for a fish pond culture spraying and feeding device according to claim 6, wherein the two sides of the fixing frame are provided with operation handrails capable of holding the operation handrails to turn horizontally.

8. The injection structure for the fish pond culture injection feeding device according to claim 6, wherein the tee joint is replaced by a four-way joint and a five-way joint, the anti-slip pad is arranged in the placing groove, the fixing frame is of a telescopic structure, an included angle is arranged between the feeding hopper and the injection head, and a sealing ring is arranged between the hose and the injection head.