CN210352722U - A feeder for feeding cray fodder - Google Patents

Abstract

The utility model relates to the technical field of crayfish breeding devices, more specifically relate to a feeder for feeding crayfish fodder, including center post, edge post, circulating rope and fodder preparation mechanism, fodder preparation mechanism includes cutting unit, oxygenation unit and floating plate, and the cutting unit includes cutting knife and cutting chamber, and the cutting chamber is equipped with the cylinder mould, and the oxygenation unit includes controller, leather cup and outlet duct, and the controller is connected with the leather cup through the output pivot, and the leather cup includes air inlet and gas outlet, and air inlet and gas outlet all are equipped with the check valve; moving the feed preparation mechanism between the central column and the edge column through the circulating rope to deliver the feed to the feeding area; the utility model discloses save physical power, the protection is bred river system ecological environment, increases aquatic dissolved oxygen, is fit for using widely in crayfish breeds.

Description

A feeder for feeding cray fodder

Technical Field

The utility model relates to a crayfish breeding device technical field, more specifically say so and relate to a feeder for feeding crayfish fodder.

Background

With the improvement of living standard and the change of living style, more and more crayfishes are held on dining tables of restaurants and night market consumption stalls, farmers grasp the consumer opportunities of the crayfishes, and more farmers put into the crayfish breeding industry. In the crayfish breeding process, the minced dried fish can be used for feeding, the existing feeding mode is generally direct splashing, not only is physical strength consumed, but also feed distribution is uneven, and in addition, if the crayfish does not eat the feed in time, the feed can be soaked for a long time to deteriorate or even rot, so that the ecological environment of a breeding water system is influenced.

SUMMERY OF THE UTILITY MODEL

To the weak point of above-mentioned prior art, the utility model provides a feeder for feeding crayfish fodder for solve how to provide a feeder for feeding crayfish fodder that saves physical power, protects aquaculture river system ecological environment and increase aquatic dissolved oxygen.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes:

the utility model provides a feeder for feeding crayfish fodder, includes center post, edge post, circulation rope and fodder preparation mechanism, the circulation rope passes through the semicircle ring and is connected with center post, edge post, fodder preparation mechanism and circulation rope fixed connection, the fodder is prepared the mechanism and is included cutting unit, oxygenation unit and showy board, cutting unit includes cutting knife and cutting chamber, cutting knife and cutting chamber sliding connection, the cutting chamber is equipped with the cylinder mould, the oxygenation unit includes controller, leather cup and outlet duct, the controller is connected with the leather cup through the output pivot, the leather cup includes air inlet and gas outlet, air inlet and gas outlet all are equipped with the check valve, gas outlet and outlet duct fixed connection, the outlet duct is equipped with the venthole.

Preferably, the controller includes a solar cell panel, a storage battery and a motor, the solar cell panel is connected with the storage battery through a converter, and the storage battery is electrically connected with the motor.

Preferably, the cutting cavity comprises a fixed baffle, side baffles and turning plates, the number of the side baffles is 2, the side baffles are connected with the fixed baffle in a sliding manner, and the turning plates are connected with the fixed baffle through a turning handle.

Preferably, the side baffles are provided with clamping grooves, and the height of each clamping groove is greater than the thickness of the turnover plate.

Preferably, the upset handle includes handle main part and location handle, the quantity of location handle is 2, location handle all with handle main part sliding connection, the location handle passes through the locating hole and is connected with fixed stop.

Preferably, the cylinder mould includes main cavity room, open-close plate and limiting plate, open-close plate rotates with the main cavity room to be connected, limiting plate and main cavity room sliding connection.

The utility model has the advantages that:

1) the feed preparation mechanism can be moved between the central column and the edge column through the moving circulation rope, feeds such as dried crayfish are delivered to the feeding area, crayfish farmers do not need to shed the feeds, physical strength is saved, the farmers can deliver the feeds to the central area of the aquaculture water system without using ships and other equipment, and the ships and other equipment are prevented from influencing the ecological environment of the aquaculture water system;

2) the oxygenation unit increases dissolved oxygen of the aquaculture water system, the solar cell panel and the storage battery are used as a power supply system of the motor, the motor drives the output rotating shaft to rotate so as to push and pull the leather cup, air is pressed into water, and the dissolved oxygen in the water is increased;

3) the dried small fish newly cut is added through the cutting unit, the limiting plate slides upwards, the opening plate rotates upwards, the residual feed in the main cavity is convenient to clean in time, and the crayfish is prevented from eating the deteriorated and rotten feed.

To sum up, the utility model provides a feeder for feeding crayfish fodder saves physical power, protects aquaculture river system ecological environment, increases the aquatic dissolved oxygen.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments protected by the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a schematic view of the feed preparation mechanism;

FIG. 3 is a plan view of the inverting handle in embodiment 2;

in the drawings, the reference numerals denote the following components:

1-central column, 2-edge column, 3-circulating rope, 4-cutting unit, 5-oxygenation unit, 6-floating plate, 31-semicircular ring, 41-cutting knife, 42-net cage, 43-fixed baffle, 44-side baffle, 45-turning plate, 46-turning handle, 51-leather cup, 52-air outlet pipe, 53-output rotating shaft, 54-solar panel, 55-storage battery, 56-motor, 421-main chamber, 422-open plate, 423-limiting plate, 441-clamping groove, 461-handle body and 462-positioning handle.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1-3, a feeder for feeding crayfish fodder, including center post 1, edge post 2, circulation rope 3 and fodder preparation mechanism, circulation rope 3 passes through semicircle ring 31 and center post 1, edge post 2 is connected, fodder preparation mechanism and circulation rope 3 fixed connection, the fodder preparation mechanism includes cutting unit 4, oxygenation unit 5 and floating plate 6, cutting unit 4 includes cutting knife 41 and cutting chamber, cutting knife 41 and cutting chamber sliding connection, the cutting chamber is equipped with cylinder mould 42, oxygenation unit 5 includes the controller, leather cup 51 and outlet duct 52, the controller is connected with leather cup 51 through output pivot 53, leather cup 51 includes air inlet and gas outlet, air inlet and gas outlet all are equipped with the check valve, gas outlet and outlet duct 52 fixed connection, outlet duct 52 is equipped with the venthole. The central column 1 is positioned at the center of the crayfish breeding pond, the edge column 2 is positioned at the bank of the pond, the feed preparation mechanism can be moved between the central column 1 and the edge column 2 by moving the circulating rope 3, and the circulating rope 3 is fixed on the edge column 2 after the feed preparation mechanism reaches a feeding area; the cutting unit 4 is used for cutting fed dried small fish, the cutting knife 41 is provided with a plurality of blades, the distance between every two adjacent blades is 2.5-3cm, the cut dried small fish falls into the mesh cage 42, and the mesh cage 42 is shaken to enable the dried small fish to be uniformly dispersed; the oxygenation unit 5 increases dissolved oxygen in the aquaculture water system, and the controller provides a power supply system and pushes air into the water by pushing and pulling the leather cup 51.

The controller comprises a solar cell panel 54, a storage battery 55 and a motor 56, wherein the solar cell panel 54 is connected with the storage battery 55 through a converter, and the storage battery 55 is electrically connected with the motor 56. The solar cell panel 54 and the storage battery 55 are used as a power supply system of the motor 56, and the motor 56 drives the output rotating shaft 53 to rotate so as to push and pull the leather cup 51.

Wherein, the cutting chamber includes fixed stop 43, side shield 44 and turns over board 45, and the quantity of side shield 44 is 2, and side shield 44 all is connected with fixed stop 43 sliding connection, turns over board 45 and is connected with fixed stop 43 through turning over handle 46. The downward sliding cutter 41 cuts the dried small fish, the upward sliding cutter 41 slides 2 side baffles 44 in the direction away from the turning plate 45, the turning handle 46 is rotated, the turning plate 45 synchronously turns, and the dried small fish on the turning plate 45 falls into the net cage 42.

The side baffles 44 are provided with clamping grooves 441, and the height of each clamping groove 441 is greater than the thickness of the turning plate 45. The turning plate 45 is in a horizontal state, 2 side baffles 44 slide towards the direction close to the turning plate 45, and the left end and the right end of the turning plate 45 are clamped in the clamping grooves 441, so that the turning plate 45 in the horizontal state is fixed.

The turning handle 46 includes a handle main body 461 and positioning handles 462, the number of the positioning handles 462 is 2, the positioning handles 462 are all connected with the handle main body 461 in a sliding manner, and the positioning handles 462 are connected with the fixing baffle 43 through positioning holes. The handle main body 461 is rotated to the horizontal state, and the positioning handle 462 is slid toward the positioning hole and inserted into the positioning hole, thereby fixing the turning plate 45 in the horizontal state.

Wherein, the cylinder mould 42 includes main cavity 421, open-close plate 422 and limiting plate 423, and open-close plate 422 rotates with main cavity 421 to be connected, limiting plate 423 and main cavity 421 sliding connection. The limiting plate 423 is slid upwards to be separated from the opening plate 422, and the opening plate 422 is rotated upwards, so that the main chamber 421 can be cleaned conveniently.

The following are 2 specific embodiments of the present invention:

example 1

A feeding machine for feeding crayfish feed comprises a center column 1, an edge column 2, a circulating rope 3 and a feed preparation mechanism, wherein the circulating rope 3 is connected with the center column 1 and the edge column 2 through a semicircular ring 31, the feed preparation mechanism is fixedly connected with the circulating rope 3 and comprises a cutting unit 4, an oxygen increasing unit 5 and a floating plate 6, the cutting unit 4 comprises a cutting knife 41 and a cutting cavity, the cutting knife 41 is in sliding connection with the cutting cavity, the cutting cavity is provided with a net cage 42, a fixed baffle 43, side baffles 44 and turning plates 45, the number of the side baffles 44 is 2, the side baffles 44 are all in sliding connection with the fixed baffle 43, the turning plates 45 are connected with the fixed baffle 43 through turning handles 46, the oxygen increasing unit 5 comprises a controller, a leather cup 51 and an air outlet pipe 52, the controller is connected with the leather cup 51 through an output rotating shaft 53, the controller comprises a solar cell panel 54, a storage battery 55 and a motor 56, solar cell panel 54 passes through the converter and is connected with battery 55, battery 55 and 56 electric connection of motor, and leather cup 51 includes air inlet and gas outlet, and air inlet and gas outlet all are equipped with the check valve, gas outlet and outlet duct 52 fixed connection, and outlet duct 52 is equipped with the venthole.

The binding between the circulating rope 3 and the edge column 2 is removed, the circulating rope 3 is moved, the feed preparation mechanism is moved to the bank, dried small fish is added into a turning plate 45 from the upper direction of a cutting cavity, a cutting knife 41 slides downwards, after the cutting is completed, the cutting knife 41 slides upwards, 2 side baffles 44 slide towards the direction far away from the turning plate 45, a turning handle 46 is rotated, the turning plate 45 synchronously turns over, the dried small fish on the turning plate 45 falls into a net cage 42, the net cage 42 is shaken to enable the dried small fish to be uniformly dispersed, the circulating rope 3 is moved, the feed preparation mechanism is moved to a feeding area, and the circulating rope 3 and the edge column 2 are bound.

Example 2

A feeding machine for feeding crayfish feed comprises a central column 1, an edge column 2, a circulating rope 3 and a feed preparation mechanism, wherein the circulating rope 3 is connected with the central column 1 and the edge column 2 through a semicircular ring 31, the feed preparation mechanism is fixedly connected with the circulating rope 3, the feed preparation mechanism comprises a cutting unit 4, the cutting unit 4 comprises a cutting knife 41 and a cutting cavity, the cutting knife 41 is in sliding connection with the cutting cavity, the cutting cavity is provided with a mesh cage 42, a fixed baffle 43, side baffles 44 and turning plates 45, the number of the side baffles 44 is 2, the side baffles 44 are in sliding connection with the fixed baffle 43, the turning plates 45 are connected with the fixed baffle 43 through turning handles 46, each turning handle 46 comprises a handle body 461 and positioning handles 462, the number of the positioning handles 462 is 2, the positioning handles 462 are in sliding connection with the handle body 461, and the positioning handles 462 are connected with the fixed baffle 43 through positioning holes; the oxygenation unit 5 comprises a controller, a leather cup 51 and an air outlet pipe 52, the controller is connected with the leather cup 51 through an output rotating shaft 53, the leather cup 51 comprises an air inlet and an air outlet, the air inlet and the air outlet are both provided with one-way valves, the air outlet is fixedly connected with the air outlet pipe 52, and the air outlet pipe 52 is provided with an air outlet hole.

After the dried small fish is cut, the cutting knife 41 is slid upwards, the 2 side baffles 44 are slid towards the direction far away from the turning plate 45, the positioning handle 462 is slid to be withdrawn from the positioning hole, the handle body 461 is rotated, the turning plate 45 is synchronously turned over, and the dried small fish on the turning plate 45 falls into the mesh cage 42.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not exhaustive and do not limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. The utility model provides a feeder for feeding crayfish fodder which characterized in that: the feed preparation device comprises a central column (1), an edge column (2), a circulating rope (3) and a feed preparation mechanism, wherein the circulating rope (3) is connected with the central column (1) and the edge column (2) through a semicircular ring (31), the feed preparation mechanism is fixedly connected with the circulating rope (3), the feed preparation mechanism comprises a cutting unit (4), an oxygenation unit (5) and a floating plate (6), the cutting unit (4) comprises a cutting knife (41) and a cutting cavity, the cutting knife (41) is in sliding connection with the cutting cavity, the cutting cavity is provided with a mesh cage (42), the oxygenation unit (5) comprises a controller, a leather cup (51) and an air outlet pipe (52), the controller is connected with the leather cup (51) through an output rotating shaft (53), the leather cup (51) comprises an air inlet and an air outlet, the air inlet and the air outlet are both provided with a one-way valve, and the air outlet is fixedly connected with the air outlet pipe (52, the air outlet pipe (52) is provided with an air outlet hole.

2. A feeder for feeding crayfish feed as claimed in claim 1, characterised in that: the controller comprises a solar cell panel (54), a storage battery (55) and a motor (56), wherein the solar cell panel (54) is connected with the storage battery (55) through a converter, and the storage battery (55) is electrically connected with the motor (56).

3. A feeder for feeding crayfish feed as claimed in claim 1, characterised in that: the cutting cavity comprises a fixed baffle (43), side baffles (44) and turning plates (45), the number of the side baffles (44) is 2, the side baffles (44) are in sliding connection with the fixed baffle (43), and the turning plates (45) are connected with the fixed baffle (43) through turning handles (46).

4. A feeder for feeding crayfish feed as claimed in claim 3, characterized in that: the side baffles (44) are provided with clamping grooves (441), and the height of each clamping groove (441) is larger than the thickness of the turning plate (45).

5. A feeder for feeding crayfish feed as claimed in claim 3, characterized in that: the turnover handle (46) comprises a handle main body (461) and positioning handles (462), the number of the positioning handles (462) is 2, the positioning handles (462) are connected with the handle main body (461) in a sliding mode, and the positioning handles (462) are connected with the fixed baffle (43) through positioning holes.

6. A feeder for feeding crayfish feed as claimed in claim 1, characterised in that: the cylinder mould (42) includes main cavity room (421), open-close plate (422) and limiting plate (423), open-close plate (422) rotate with main cavity room (421) and are connected, limiting plate (423) and main cavity room (421) sliding connection.

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