CN215912959U - Automatic feeding device for industrial automatic fishpond - Google Patents

Abstract

The utility model discloses an automatic feeding device for an industrial automatic fishpond, relates to a culture feeding device and solves the technical problems that a traditional feeding device is inconvenient to stir and easily causes blockage of a discharge port. The automatic feeding device comprises a shell, wherein a feeding hole is formed in the shell, a discharging hole is formed below the shell, a stirring mechanism extending into the shell is installed on the shell, a baffle is arranged in the shell below the stirring mechanism, an opening and closing channel is formed in the baffle, a weighing mechanism is arranged below the opening and closing channel, and a discharging end communicated with the discharging hole is formed in the weighing mechanism; and a power generation mechanism is arranged above the shell. The utility model has reasonable structure, is practical and reliable, and can effectively prevent the feed from blocking the discharge hole of the baffle and reduce the discharge efficiency.

Description

Automatic feeding device for industrial automatic fishpond

Technical Field

The utility model relates to a culture feeding device, in particular to an automatic feeding device for an industrial automatic fishpond.

Background

With the continuous improvement of the economic level, the fish culture technology is also continuously improved, the fish is indispensable meat food in the current society, the meat quality of the fish is tender and delicious, the nutrition is rich, the function of nourishing and invigorating the stomach, inducing diuresis for removing edema, clearing heat and removing toxicity and the like can be realized by eating more fish, and the fish needs to be fed in the process of culturing the fish. Traditional automatic feeding device in industrial automation fishpond is not convenient for stir during the use, causes the jam of discharge gate easily to a certain extent, has reduced the device's automatic efficiency of throwing something and feeding.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the prior art is not enough, provides an automatic feeding device for an industrial automatic fishpond, and solves the problems that the traditional feeding device is inconvenient to stir and easily causes the blockage of a discharge hole.

The utility model relates to an automatic feeding device for an industrial automatic fishpond, which comprises a shell, wherein a feeding hole is formed in the shell, a discharging hole is formed below the shell, a stirring mechanism extending into the shell is installed on the shell, a baffle is arranged in the shell below the stirring mechanism, an opening and closing channel is formed in the baffle, a weighing mechanism is arranged below the opening and closing channel, and a discharging end communicated with the discharging hole is formed in the weighing mechanism; and a power generation mechanism is arranged above the shell.

The stirring mechanism comprises a rotating shaft and a servo motor; the servo motor is installed above the shell, the rotating shaft is installed at the driving end of the servo motor, and the stirring blades are evenly installed on the two sides of the rotating shaft.

Furthermore, the tail ends of the stirring blades are jointly fixed with a scraping plate.

Furthermore, an elastic component is arranged between the scraping plate and the stirring blade.

Furthermore, the elastic component comprises a telescopic rod and a spring; the two ends of the telescopic rod are respectively fixed on the stirring blade and the scraper blade, and the spring sleeve is arranged on the telescopic rod.

Further, the weighing mechanism comprises a weighing sensor and a tray; the weighing sensor passes through the support mounting in the bottom of casing, the tray is installed in weighing sensor's top, the below of tray is equipped with the discharging pipe, install first solenoid valve in the discharging pipe, the discharging pipe is linked together with the discharge gate.

Furthermore, the power generation mechanism comprises a storage battery, a solar panel and a plurality of support rods; the utility model discloses a solar panel, including casing, bracing piece, solar panel, battery, solar panel, photovoltaic controller and battery electric connection, the top at the casing is installed to the bracing piece, solar panel installs the top at the bracing piece, the battery is installed on the casing of solar panel below, solar panel passes through photovoltaic controller and battery electric connection.

Furthermore, a second electromagnetic valve is installed in the opening and closing channel.

Advantageous effects

The utility model has the advantages that:

1. through the servo motor on casing top and inside stirring leaf, can stir its inside fodder, prevent that the fodder from blockking up the discharge gate of baffle, reducing discharging efficiency's problem. Utilize the elasticity of telescopic link and spring, make the scraper blade can be fine laminate with the inner wall of casing, scrape the inner wall of casing, prevent that the fodder from gluing on the inner wall of casing.

2. The fodder is weighed through the weighing machine of baffle below, can reach the purpose that the ration was fed, and the effect is fed to effectual improvement.

3. Through the power generation mechanism on the top end of the shell, solar energy can be fully utilized, and the purpose of reasonably utilizing resources is achieved.

Drawings

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

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic view of the weighing mechanism of the present invention;

fig. 4 is an enlarged schematic view of a portion a in fig. 1.

Wherein: 1-power generation mechanism, 101-support rod, 102-solar panel, 103-storage battery, 2-feed inlet, 3-stirring mechanism, 301-stirring blade, 302-rotating shaft, 303-servo motor, 304-telescopic rod, 305-scraper, 306-spring, 4-shell, 5-weighing mechanism, 501-discharge pipe, 502-first electromagnetic valve, 503-weighing sensor, 504-tray, 6-support column, 7-discharge port, 8-opening and closing channel and 9-baffle.

Detailed Description

The utility model is further described below with reference to examples, but not to be construed as being limited thereto, and any number of modifications which can be made by anyone within the scope of the claims are also within the scope of the claims.

Referring to fig. 1 to 4, an automatic feeding device for an industrial automatic fishpond of the utility model includes a housing 4. Be equipped with feed inlet 2 on the casing 4, the below of casing 4 is equipped with discharge gate 7, and the below of casing 4 is equipped with support column 6. Install on casing 4 and extend to its inside rabbling mechanism 3 for stir the inside fodder of casing 4, prevent that the fodder from blockking up opening and close passageway 8 of baffle 9. A baffle 9 is arranged in the shell 4 below the stirring mechanism 3, an opening and closing channel 8 is arranged in the baffle 9, and a second electromagnetic valve is arranged in the opening and closing channel 8. A weighing mechanism 5 is arranged below the opening and closing channel 8, and a discharging end communicated with the discharging port 7 is arranged in the weighing mechanism 5. The weighing mechanism 5 can weigh the feed falling above the weighing mechanism, so that the purpose of quantitative feeding is achieved. The power generation mechanism 1 is arranged above the shell 4 so as to achieve the purpose of reasonably utilizing resources.

The stirring mechanism 3 of the present embodiment includes a rotating shaft 302 and a servo motor 303. The servo motor 303 is installed above the housing 4, the rotating shaft 302 is installed at the driving end of the servo motor 303, and the stirring blades 301 are evenly installed on two sides of the rotating shaft 302. Through the driving action of servo motor 303 for stirring leaf 301 rotates, thereby realizes stirring the fodder in casing 4.

Preferably, the ends of the stirring blades 301 are commonly fixed with scraping plates 305, which can scrape the inner wall of the housing 4 and prevent the feed from adhering to the inner wall of the housing 4.

Preferably, an elastic component is arranged between the scraper 305 and the stirring blade 301, so as to avoid the problem that the scraper 305 or the casing 4 is damaged due to uneven contact surface of the scraper 305 or the casing 4, and effectively protect the scraper 305 and the casing 4.

Specifically, the elastic assembly includes a telescoping rod 304 and a spring 306. The two ends of the telescopic rod 304 are respectively fixed on the stirring blade 301 and the scraping plate 305, and the spring 306 is sleeved on the telescopic rod 304.

The weighing mechanism 5 includes a load cell 503 and a tray 504. The weighing sensor 503 is installed at the bottom of the casing 4 through a bracket, the tray 504 is installed above the weighing sensor 503, the discharge pipe 501 is arranged below the tray 504, the first electromagnetic valve 502 is installed in the discharge pipe 501, and the discharge pipe 501 is communicated with the discharge hole 7. The feed on the tray 504 is weighed by the weighing sensor 503, and quantitative feeding is realized. It should be noted that, in order to ensure that the fodder in the tray 504 can automatically flow out of the outlet pipe 501, the inner cavity of the tray 504 can be designed to be tapered to facilitate the flow of the fodder. The weighing sensors 503 are electrically connected to the two electromagnetic valves, respectively.

The power generation mechanism 1 includes a battery 103, a solar panel 102, and a plurality of support rods 101. The top at casing 4 is installed to bracing piece 101, and solar panel 102 installs the top at bracing piece 101, and battery 103 installs on casing 4 of solar panel 102 below, and solar panel 102 passes through photovoltaic controller and battery 103 electric connection, realizes recycling solar energy.

The working principle of the utility model is as follows: when in use, feed is added into the shell 4 through the feed inlet 2. Start servo motor 303, pivot 302 drives stirring leaf 301 and scraper blade 305 and rotates, through the rotation of stirring leaf 301, can stir the inside fodder of casing 4, prevents that the fodder from blockking up the discharge gate of baffle 9. Due to the flexibility of the telescopic rod 304 and the spring 306, the scraper blade 305 can be well attached to the inner wall of the shell 4. By the rotation of the scraper 305, the inner wall of the housing 4 can be scraped, preventing the feed from sticking to the inner wall of the housing 4.

Then, the fodder falls onto the tray 504 through the open/close passage 8 of the baffle plate 9. The load cell 503 may weigh the feed on the tray 504. When the weight of the feed on the tray 504 reaches the feeding standard, the second electromagnetic valve closes the opening and closing channel 8 to stop the feed supply; the first electromagnetic valve 502 is opened, the feed on the tray 504 reaches the discharge port 7 through the discharge pipe 501, and the feed is thrown into the fishpond through the discharge port 7.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various changes and modifications without departing from the structure of the utility model, which will not affect the effect of the utility model and the practicability of the patent.

Claims (8)

1. An automatic feeding device for an industrial automatic fishpond comprises a shell (4), wherein a feeding hole (2) is formed in the shell (4), a discharging hole (7) is formed below the shell (4), and the automatic feeding device is characterized in that a stirring mechanism (3) extending into the shell (4) is installed on the shell (4), a baffle (9) is arranged in the shell (4) below the stirring mechanism (3), an opening and closing channel (8) is formed in the baffle (9), a weighing mechanism (5) is arranged below the opening and closing channel (8), and a discharging end communicated with the discharging hole (7) is arranged in the weighing mechanism (5); and a power generation mechanism (1) is arranged above the shell (4).

2. An automatic feeding device for industrial automated fishponds according to claim 1 characterized in that the stirring mechanism (3) comprises a rotating shaft (302) and a servo motor (303); servo motor (303) are installed in the top of casing (4), pivot (302) are installed to the drive end of servo motor (303), just stirring leaf (301) are evenly installed to the both sides of pivot (302).

3. The automatic feeding device for industrial automated fishponds according to claim 2 characterized in that the stirring blades (301) are fixed with scrapers (305) at their ends.

4. The automatic feeding device for industrial automated fishponds according to claim 3 characterized in that between the scraper (305) and the stirring blade (301) there is a resilient assembly.

5. The automatic feeding device for industrial automated fishponds according to claim 4 characterized in that the elastic assembly comprises a telescopic rod (304) and a spring (306); the two ends of the telescopic rod (304) are respectively fixed on the stirring blade (301) and the scraping plate (305), and the spring (306) is sleeved on the telescopic rod (304).

6. An automatic feeding device for industrial automated fish ponds according to claim 1 characterized in that the weighing mechanism (5) comprises a weighing cell (503) and a tray (504); weighing sensor (503) pass through the bottom of support mounting in casing (4), the top at weighing sensor (503) is installed in tray (504), the below of tray (504) is equipped with discharging pipe (501), install first solenoid valve (502) in discharging pipe (501), discharging pipe (501) are linked together with discharge gate (7).

7. An automatic feeding device for industrial automated fish ponds according to claim 1 characterized in that the power generating means (1) comprises batteries (103), solar panels (102) and a plurality of support bars (101); the solar photovoltaic power generation device is characterized in that the supporting rod (101) is installed above the shell (4), the solar panel (102) is installed above the supporting rod (101), the storage battery (103) is installed on the shell (4) below the solar panel (102), and the solar panel (102) is electrically connected with the storage battery (103) through the photovoltaic controller.

8. The automatic feeding device for industrial automatic fishponds according to claim 1 characterized in that the open/close passage (8) is equipped with a second solenoid valve.

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