CN221044043U - Efficient feeding device for fish culture - Google Patents

Abstract

The utility model discloses a high-efficiency feeding device for fish culture, which comprises a frame assembly, a material conveying assembly, a sleeve and a driving assembly, wherein the frame assembly comprises a bottom support frame, a material containing hopper fixed at the top end of the bottom support frame and a hollow pipe fixed on the material containing hopper and communicated with an inner cavity of the material containing hopper, the bottom end of the hollow pipe is uniformly provided with a first material outlet, the side wall of the bottom support frame is rotatably provided with four rollers; the feeding assembly is arranged on the material containing hopper and can be used for conveying feed in the material containing hopper into the inner cavity of the hollow pipe, and comprises an auger rotatably arranged on the material containing hopper and inserted into the hollow pipe, a motor coaxially connected with the auger and a mounting plate fixed on the outer wall of the material containing hopper, wherein the motor is fixed on the mounting plate; the sleeve is sleeved on the hollow pipe, and the bottom end of the sleeve is provided with a second discharge hole matched with the discharge hole; the driving assembly is used for driving the sleeve to rotate, can replace manual feeding to the fishpond, and can enable feeding to be timed and quantitative.

Description

Efficient feeding device for fish culture

Technical Field

The utility model relates to the field of efficient feeding devices for fish culture, in particular to an efficient feeding device for fish culture.

Background

The breeding, feeding and stocking of fish, fish farming, also known as aquaculture, fish farming and fish farming, is important in maintaining food supply, fishing and expanding fishing areas, by which many species are successfully introduced into new areas, one species of fish farming being the raising of goldfish and tropical fish as occupational and hobbies, others including the raising of carp's small fish as bait and the raising of other fish in private waters, a large number of fish being cultivated in many parts of the world and most used for commercial sales, however, only few species can be successfully used for this purpose, including catfish, herring, carp and salmon.

The fish need put in food to the inside of breed area when large tracts of land is bred, and current fish is bred food and is put in and always all is manual, and put in the area less to lead to the fish to gather the food, cause inefficiency, can not satisfy the use needs.

Disclosure of utility model

The utility model aims to provide a high-efficiency feeding device for fish culture, which solves the problems in the background technology.

In order to achieve the above purpose, the utility model provides the technical scheme that the efficient feeding device for fish culture comprises a frame assembly, a material conveying assembly, a sleeve and a driving assembly.

The frame assembly comprises a bottom supporting frame, a hopper fixed at the top end of the bottom supporting frame and a hollow pipe fixed in the hopper and communicated with the inner cavity of the hopper, and a first discharge port is uniformly formed in the bottom end of the hollow pipe;

The material conveying component is arranged on the material containing hopper and can convey the feed in the material containing hopper into the cavity of the hollow pipe;

The sleeve is sleeved on the hollow pipe, and a second discharge port matched with the first discharge port is formed in the bottom end of the sleeve;

And the driving assembly is used for driving the sleeve to rotate.

As a preferable scheme of the efficient feeding device for fish culture, the material conveying assembly comprises an auger rotatably arranged on the material containing hopper and inserted into the hollow pipe, a motor coaxially connected with the auger, and a mounting plate fixed on the outer wall of the material containing hopper, wherein the motor is fixed on the mounting plate.

As a preferable scheme of the efficient feeding device for fish culture, a toothed ring is fixed on the outer wall of the sleeve, the driving assembly comprises a rotating rod rotatably installed at the bottom end of the hopper, a belt wheel fixed on the rotating rod and the auger, a driving belt sleeved on the belt wheel and a disc fixed at the other end of the rotating rod, and a tooth meshed with the toothed ring is fixed on the disc.

As a preferable scheme of the efficient feeding device for fish culture, four rollers are rotatably arranged on the side wall of the bottom support frame.

As a preferable scheme of the efficient feeding device for fish culture, the top end of the hollow pipe is provided with a threaded hole, the efficient feeding device further comprises a limiting plate attached to the hollow pipe, and the limiting plate is provided with a through hole matched with the threaded hole.

Compared with the prior art, the utility model has the following beneficial effects: firstly, placing a bottom support frame at the edge of a fish pond, extending a hollow pipe into the middle of the fish pond, pouring fish feed into a containing hopper, then starting a motor to drive an auger to rotate, conveying the fish feed into the hollow pipe, simultaneously, driving a transmission belt to rotate by the rotation of the auger so as to drive a rotating rod to rotate, driving a disc to rotate, driving a tooth to rotate a toothed ring, driving a sleeve to rotate, and enabling the fish feed to flow into the fish pond until a region where a first discharge port and a second discharge port coincide, and timely starting the motor to throw the feed into the fish pond; can replace manual feeding to the fishpond, and can make feeding be timed and quantitative.

Drawings

Other features, objects and advantages of the present utility model will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

FIG. 1 is a schematic diagram of the overall structure of a high-efficiency feeding device for fish farming;

FIG. 2 is a sectional view of the efficient feeding device for fish farming of the present utility model;

FIG. 3 is a schematic structural view of a sleeve of the efficient feeding device for fish farming;

Fig. 4 is a schematic structural view of a limiting plate of the efficient feeding device for fish culture.

In the figure: 100. a frame assembly; 110. a bottom support frame; 110a, a first external thread; 120. a hopper; 130. a hollow tube; 130a, a first discharge port; 130b, threaded holes; 200. a material conveying component; 210. an auger; 220. a motor; 230. a mounting plate; 300. a sleeve; 300a, a second discharge hole; 300b, toothed ring; 400. a drive assembly; 410. a rotating lever; 420. a belt wheel; 430. a transmission belt; 440. a disc; 440a, teeth; 500. a limiting plate; 500a, through holes.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

The utility model provides a high-efficiency feeding device for fish culture, which can replace manual feeding to a fish pond and enable feeding to be timed and quantitative.

Fig. 1 to 4 are schematic structural views of an embodiment of a high-efficiency feeding apparatus for fish farming according to the present utility model, referring to fig. 1 to 4, the main body of the high-efficiency feeding apparatus for fish farming of the present utility model includes a frame assembly 100, a feeding assembly 200, a sleeve 300 and a driving assembly 400.

The frame assembly 100 comprises a bottom support frame 110, a containing hopper 120 fixed at the top end of the bottom support frame 110 and a hollow tube 130 fixed at the containing hopper 120 and communicated with the inner cavity of the containing hopper 120, wherein a first discharge port 130a is uniformly formed at the bottom end of the hollow tube 130, rollers 110a are rotatably arranged on the side wall of the bottom support frame 110, the number of the rollers 110a is four, and threaded holes 130b are formed at the top end of the hollow tube 130;

The feeding assembly 200 is arranged on the hopper 120 and can convey the feed in the hopper 120 into the inner cavity of the hollow tube 130, the feeding assembly 200 comprises an auger 210 rotatably arranged on the hopper 120 and inserted into the hollow tube 130, a motor 220 coaxially connected with the auger 210 and a mounting plate 230 fixed on the outer wall of the hopper 120, the motor 220 is fixed on the mounting plate 230, and when in use, the motor 220 is started to drive the auger 210 to rotate, so that the fish feed in the hopper 120 is slightly brought into the deep of the hollow tube 130;

The sleeve 300 is sleeved on the hollow tube 130, a second discharge hole 300a matched with the first discharge hole 130a is formed in the bottom end of the sleeve 300, a toothed ring 300b is fixed on the outer wall of the sleeve 300, in an initial state, the second discharge hole 300a and the first discharge hole 130a do not overlap, when the driving assembly 400 drives the sleeve 300 to rotate, the second discharge hole 300a and the first discharge hole 130a overlap for a short time, and when the second discharge hole and the first discharge hole 130a overlap, fish feed flows into the fish pond;

The driving assembly 400 is used for driving the sleeve 300 to rotate, the driving assembly 400 comprises a rotating rod 410 which is rotatably mounted at the bottom end of the hopper 120, a belt pulley 420 which is fixedly arranged on the rotating rod 410 and the auger 210, a transmission belt 430 which is sleeved on the belt pulley 420, and a disc 440 which is fixedly arranged at the other end of the rotating rod 410, when the auger 210 is used, the rotating rod 430 is synchronously driven to rotate when the auger 210 is rotated, thus the disc 440 is synchronously driven to rotate, because the tooth 440a is only one, the disc 440 rotates one circle and only the toothed ring 300b is stirred to rotate a little, after the auger 210 rotates a plurality of circles, the sleeve 300 can rotate for one circle, the second discharge opening 300a and the first discharge opening 130a can be overlapped, so the purpose of the design is that after the auger 210 needs to rotate for many circles, fish feed can be fed into the deep of the hollow tube 130, when the second discharge opening 300a and the first discharge opening 130a are overlapped, all the second discharge openings 300a and the first discharge opening 130a can synchronously and uniformly flow out fish feed, so different areas of the fish pond can be fed with the same amount of feed, the motor 220 is started once every other end, and the starting time is fixed every time, so that the fed feed can be the same every time, for example: the PLC control system may be provided with a start-up motor 220 twice a day, 10 minutes each time, 12 hours each time.

The device further comprises a limiting plate 500 attached to the hollow tube 130, and a through hole 500a matched with the threaded hole 130b is formed in the limiting plate 500.

Referring to fig. 1 to 4, the specific embodiment of the efficient feeding device for fish culture is as follows: firstly, the bottom support 100 is placed at the edge of a fish pond, the hollow tube 130 extends into the middle of the fish pond, then fish feed is poured into the hopper 120, then the motor 220 is started to drive the auger 210 to rotate, the fish feed is conveyed into the hollow tube 130, meanwhile, the auger 210 rotates to drive the transmission belt 430 to rotate, the rotating rod 410 is driven to rotate, the disc 440 is driven to rotate, the tooth 440a drives the toothed ring 300b to rotate, the sleeve 300 is driven to rotate, the fish feed flows into the fish pond until the first discharge opening 130a and the second discharge opening 300a are in a coincident region, and the motor 220 is started at regular time, so that the feed can be timely thrown into the fish pond.

While the fundamental principles, principal features, and advantages of the present utility model have been shown and described, it will be apparent to those skilled in the art that the present utility model is not limited to the details of the foregoing exemplary embodiments, but may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (5)

1. The utility model provides a fish is bred with high-efficient feeding device which characterized in that includes:

The frame assembly (100) comprises a bottom supporting frame (110), a hopper (120) fixed at the top end of the bottom supporting frame (110) and a hollow pipe (130) fixed at the hopper (120) and communicated with the inner cavity of the hopper (120), wherein first discharge ports (130 a) are uniformly formed at the bottom end of the hollow pipe (130);

the material conveying assembly (200) is arranged on the material receiving hopper (120) and can convey the feed in the material receiving hopper (120) into the inner cavity of the hollow tube (130);

The sleeve (300) is sleeved on the hollow pipe (130), and a second discharge port (300 a) matched with the first discharge port (130 a) is formed in the bottom end of the sleeve;

And the driving assembly (400) is used for driving the sleeve (300) to rotate.

2. The efficient feeding device for fish farming according to claim 1, wherein the feeding assembly (200) comprises a packing auger (210) rotatably mounted on the hopper (120) and inserted into the hollow tube (130), a motor (220) coaxially connected with the packing auger (210), and a mounting plate (230) fixed on the outer wall of the hopper (120), and the motor (220) is fixed on the mounting plate (230).

3. The efficient fish farming feeding device according to claim 2, wherein a toothed ring (300 b) is fixed on the outer wall of the sleeve (300), the driving assembly (400) comprises a rotating rod (410) rotatably installed at the bottom end of the hopper (120), a belt wheel (420) fixed on the rotating rod (410) and the auger (210), a driving belt (430) sleeved on the belt wheel (420) and a disc (440) fixed on the other end of the rotating rod (410), and a tooth (440 a) meshed with the toothed ring (300 b) is fixed on the disc (440).

4. The efficient feeding device for fish farming according to claim 1, wherein rollers (110 a) are rotatably mounted on the side walls of the bottom support frame (110), and the rollers (110 a) are four in number.

5. The efficient feeding device for fish culture according to claim 1, wherein the top end of the hollow tube (130) is provided with a threaded hole (130 b), the efficient feeding device further comprises a limiting plate (500) attached to the hollow tube (130), and the limiting plate (500) is provided with a through hole (500 a) matched with the threaded hole (130 b).