CN210929179U

CN210929179U - Automatic fish feeding device

Info

Publication number: CN210929179U
Application number: CN201921965180.1U
Authority: CN
Inventors: 钟汉绿
Original assignee: Huizhou Huabao Feedstuff Co ltd
Current assignee: Huizhou Huabao Feedstuff Co ltd
Priority date: 2019-11-14
Filing date: 2019-11-14
Publication date: 2020-07-07
Anticipated expiration: 2029-11-14

Abstract

The utility model discloses a standardized feeding, automatic feeding device of fish that cost of labor is low, it includes the casing, the guide subassembly, blowing subassembly and kickboard, a plurality of feeding holes have been seted up to the casing bottom, the guide subassembly sets up in the inner chamber of casing, the guide subassembly includes the guide, connect material ring sum blowing board, guide bottom and the wall connection of casing, the level of guide bottom is less than the level of feeding the hole, connect the material ring to be connected and seted up the drain mouth at its and guide junction with the top of guide, the internal surface connection of blowing board and material ring connects, first blanking hole has been seted up to the blowing board. The discharging assembly comprises a storage battery, a time relay, a driving motor, a rotating shaft and a rotating disc, the time relay is electrically connected with the storage battery and the driving motor respectively, two ends of the rotating shaft are connected with the driving motor and the rotating disc respectively, the rotating disc is provided with a second discharging hole, and the rotating disc is used for plugging the first discharging hole or communicating the first discharging hole and the second discharging hole; the floating plate is connected with the bottom of the shell.

Description

Automatic fish feeding device

Technical Field

The utility model relates to a fishery breeding technology field especially relates to an automatic feeding device of fish.

Background

Fishery culture, also known as aquaculture, refers to putting aquatic seedlings in an artificially-opened fish farm, and providing necessary nutrients and living conditions for the growth and development of the seedlings to obtain aquatic products such as cultured fish or seafood. At present, fishery culture mainly relates to a traditional culture project of fish culture. By popularizing fish culture, the method can provide people with low-fat and high-protein food, and can also solve the problem of fish food safety caused by environmental pollution so as to ensure the safety of aquatic products.

However, in the traditional fish culture activities, food is mainly put into the fish by culture personnel through culture experience, so that the standardized feeding of feed is difficult to realize, and if the feed is used for a long time, the normal growth and development of the fish are adversely affected, so that the quality of aquatic products is affected; traditional fish culture needs to be equipped with special staff to undertake the work of food input, and the cost of labor is higher, and the operating efficiency is low, is unfavorable for enlarging the culture scale.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide an automatic fish feeding device for solving the technical problems of difficulty in controlling the amount of food put in, high labor cost and low operation efficiency.

The utility model provides an automatic device of eating of feeding of fish, this automatic device of eating of feeding of fish includes casing, guide subassembly, blowing subassembly and kickboard, the casing is the barrel that link up from top to bottom, the bottom of casing is followed the circumferencial direction of casing has evenly seted up a plurality of holes of eating of feeding. The feeding assembly is accommodated in the inner cavity of the shell and is abutted to the inner surface of the shell, the feeding assembly comprises a feeding piece, a receiving ring and a discharging plate, the feeding piece is of a hollow cone frustum-shaped structure, the bottom of the feeding piece is connected with the inner surface of the shell, the horizontal height of the bottom of the feeding piece is lower than that of the feeding hole, the receiving ring is connected with the top of the feeding piece, a plurality of material leaking ports are uniformly formed in the connecting part of the receiving ring and the feeding piece, the discharging plate is adjacent to the top of the receiving ring and is abutted to the inner surface of the receiving ring, a plurality of first material dropping holes are uniformly formed in the discharging plate, and the discharging plate is used for receiving feed to be dropped. The discharging component comprises a storage battery, a time relay, a driving motor, a rotating shaft and a turntable, the storage battery, the time relay and the driving motor are respectively accommodated in the inner cavity of the material guiding piece and are connected with the inner surface of the material guiding piece, the input end of the time relay is electrically connected with the storage battery, the output end of the time relay is electrically connected with the input end of the driving motor, the output end of the driving motor is connected with one end of the rotating shaft, the rotating shaft penetrates through the top of the material guiding piece, the other end of the rotating shaft is connected with the rotating disc, the rotating disc is abutted against the bottom of the material placing plate, and a plurality of second blanking holes are uniformly arranged on the turntable, each second blanking hole corresponds to one first blanking hole, the rotary disc is used for being stressed to rotate and blocking the first blanking hole or communicating the first blanking hole with the second blanking hole; the floating plate is connected with the bottom of the shell.

In one embodiment, the receiving ring comprises a hollow conical ring and a material guiding barrel, the small-diameter end of the hollow conical ring is connected with the top of the material guiding piece, and the large-diameter end of the hollow conical ring is communicated with the material guiding barrel.

In one embodiment, the material guide cylinder, the hollow conical ring and the material receiving ring are integrally formed.

In one embodiment, a chamfer is arranged at the joint of the guide cylinder and the hollow conical ring.

In one embodiment, the top of the material guiding member is provided with a round angle.

In one embodiment, the floating plate is a foam plate.

In one embodiment, the automatic fish feeding device further comprises a shell cover, and the shell cover is detachably connected with the top of the shell.

In one embodiment, the inner surface of the shell cover is provided with internal threads, the top of the shell is provided with external threads, and the shell cover is in threaded connection with the top of the shell.

In one embodiment, the feeding hole is a square hole.

In one embodiment, the feeding hole is a circular hole.

According to the automatic fish feeding device, the first blanking holes are formed in the material placing plates respectively, the second blanking holes are formed in the rotary disc, the driving motor is driven by the time relay to periodically operate, and the rotary shaft and the rotary disc are driven to rotate relative to the material placing plates, so that the rotary disc can block the first blanking holes in the material placing plates or enable the first blanking holes to be communicated with the second blanking holes, feed to be fed falls into the top of the material guiding piece from the material placing plates, and then enters the water of the culture pond through the material leaking port and the feeding holes, and the fish can be fed conveniently; in addition, the feed is not required to be manually put into the culture pond in the process, so that the labor cost is reduced, the operation efficiency is improved, and the scale of aquaculture is favorably enlarged.

Drawings

FIG. 1 is a schematic view showing the structure of an automatic fish feeding device according to an embodiment;

FIG. 2 is a schematic diagram of an exploded structure of an automatic fish feeding device in one embodiment;

FIG. 3 is a schematic view of the automatic fish feeding device in the embodiment of FIG. 1 from another perspective;

FIG. 4 is a schematic cross-sectional view taken along the direction A-A in the embodiment shown in FIG. 3;

FIG. 5 is a schematic view of an exemplary material guiding assembly;

fig. 6 is a schematic circuit diagram of the drop assembly in one embodiment.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

Referring to fig. 1 to 4, the present invention provides an automatic fish feeding device 10, the automatic fish feeding device 10 includes a casing 100, a material guiding assembly 200, a material placing assembly 300 and a floating plate 400, the casing 100 is a cylinder body which is through from top to bottom, and a plurality of feeding holes 110 are uniformly formed in the bottom of the casing 100 along the circumferential direction of the casing 100. The material guiding assembly 200 is accommodated in the inner cavity of the casing 100 and is abutted against the inner surface of the casing 100, the material guiding assembly 200 comprises a material guiding member 210, a material receiving ring 220 and a material placing plate 230, the material guiding member 210 is of a hollow truncated cone-shaped structure, the bottom of the material guiding member 210 is connected with the inner surface of the casing 100, the horizontal height of the bottom of the material guiding member 210 is lower than the horizontal height of the material feeding hole 110, the material receiving ring 220 is connected with the top of the material guiding member 210, a plurality of material leaking holes 221 are uniformly formed in the joint of the material receiving ring 220 and the material guiding member 210, the material placing plate 230 is adjacent to the top of the material receiving ring 220 and is abutted against the inner surface of the material receiving ring 220, a plurality of first material dropping holes 231 are uniformly formed in the material placing plate. The discharging assembly 300 comprises a storage battery 310, a time relay 320, a driving motor 330, a rotating shaft 340 and a turntable 350, wherein the storage battery 310, the time relay 320 and the driving motor 330 are respectively accommodated in an inner cavity of the material guiding member 210 and connected with the inner surface of the material guiding member 210, the input end of the time relay 320 is electrically connected with the storage battery 310, the output end of the time relay 320 is electrically connected with the input end of the driving motor 330, the output end of the driving motor 330 is connected with one end of the rotating shaft 340, the rotating shaft 340 penetrates through the top of the material guiding member 210, the other end of the rotating shaft 340 is connected with the turntable 350, the turntable 350 is abutted against the bottom of the discharging plate 230, a plurality of second discharging holes 351 are uniformly formed in the turntable 350, each second discharging hole 351 corresponds to one first discharging hole 231, and the turntable 350 is used for being forced to rotate and blocking the first discharging holes 231 or communicating the first discharging holes 231; the floating plate 400 is connected to the bottom of the case 100.

According to the automatic fish feeding device 10, the first blanking holes 231 are formed in the discharging plates 230 respectively, the second blanking holes 351 are formed in the rotary disc 350, the driving motor 330 is driven by the time relay 320 to periodically operate, and the rotary shaft 340 and the rotary disc 350 are driven to rotate relative to the discharging plates 230, so that the rotary disc 350 blocks the first blanking holes 231 in the discharging plates 230 or the first blanking holes 231 and the second blanking holes 351 are communicated, feed to be fed falls into the top of the material guiding member 210 from the discharging plates 230 and enters the water of the culture pond through the material leakage port 221 and the feeding holes 110, the fish can be fed conveniently, in the process, the feeding period of the feed is accurately controlled through the time relay 320, the standardized feeding of the feed and the scientific culture of the fish are realized, and the quality of aquatic products is improved; in addition, the feed is not required to be manually put into the culture pond in the process, so that the labor cost is reduced, the operation efficiency is improved, and the scale of aquaculture is favorably enlarged.

The housing 100 is used for accommodating the material guiding assembly 200 and the material placing assembly 300 and storing the feed to be placed. It should be noted that the feeding hole 110 serves as a window for interaction between the feeding device and fish, and provides a passage for feeding. The utility model discloses an evenly set up a plurality of feeding holes 110 along casing 100's circumferencial direction in casing 100's bottom, realized the all-round input of fodder, so, can avoid eating hole 110 quantity less because of feeding, a large amount of fish bees congeal to one and feed and eat the emergence that the phenomenon was snatched to hole 110 department, prevent that fish from assaulting to feed and eat the device, and then cause the upset of feeding device to guarantee to feed and eat the effective use of device. In one embodiment, the feeding hole 110 is a square hole. In another embodiment, the feeding hole 110 is a circular hole. In actual production, feeding holes 110 with diamond shapes, plum blossom shapes and other shapes can be selected according to the preference of consumer groups, and are not described in detail herein.

In one embodiment, the housing 100 is screwed to the bottom of the material guiding member 210, so that the stability of the connection between the housing 100 and the material guiding member 210 can be improved, and the material guiding member 210 is prevented from sliding in the inner cavity of the housing 100, thereby preventing the failure of the feeding device. In another embodiment, the inner diameter of the top of the housing 100 is larger than the inner diameter of the bottom of the housing 100, and the inner diameter of the cross section of each feeding hole 110 of the housing 100 is larger than the outer diameter of the bottom of the material guiding member 210. It can also be understood that the casing 100 is a conical cylinder with a smaller cone angle, so that only the material guiding member 210 needs to be placed in the inner cavity of the casing 100, and when the material guiding member 210 moves to the position where the upper inner diameter of the casing 100 is the same as the outer diameter of the bottom of the material guiding member 210, the material guiding member 210 is difficult to continue to slide under the constraint of the inner surface of the casing 100, that is, the material guiding member 210 abuts against the inner surface of the casing 100, thereby achieving the stable connection between the material guiding member 210 and the casing 100.

The material guiding assembly 200 is used for receiving the feed to be fed and uniformly delivering the feed to each feeding hole 110, so as to control the feed feeding amount in different directions. Referring to fig. 5, in an embodiment, the top of the material guiding member 210 is provided with a rounded corner. Through setting up the fillet at the top of guide 210, when the fodder fell on the top of guide 210 via first blanking hole 231 and second blanking hole 351, the fodder will follow the smooth landing in top of guide 210 to guide 210 and connect the junction of material ring 220 to the fodder is smoothly through material leakage mouth 221 and falls into between guide 210 and the casing 100, has reduced the piling up of fodder at guide 210 top, has improved the efficiency that the fodder was put in.

In one embodiment, the material receiving ring 220 includes a hollow conical ring 222 and a material guiding cylinder 223, the small diameter end of the hollow conical ring 222 is connected to the top of the material guiding member 210, and the large diameter end of the hollow conical ring 222 is communicated with the material guiding cylinder 223. Preferably, the material guide cylinder 223, the hollow conical ring 222 and the material receiving ring 220 are integrally formed. It can be understood that the guide cylinder 223 and the hollow conical ring 222 are used together to define the flow path of the feed, so as to prevent the feed from spilling out of the receiving ring 220 and further causing feed waste, thereby ensuring the reliability of the feed feeding operation of the feeding device. In one embodiment, a chamfer is provided at the connection between the material guiding cylinder 223 and the hollow conical ring 222. Through set up the chamfer at guide cylinder 223 and hollow conical ring 222 junction, can reduce when the fodder falls into hollow conical ring 222, the impact of the inner surface of hollow conical ring 222 to the fodder, that is to say, reduce the broken volume of fodder to guarantee the stability of fodder and be favorable to fish to get and eat.

The discharging assembly 300 is used for adjusting the periodic communication between the first discharging holes 231 and the second discharging holes 351, so that the feed falls from the discharging plate 230, and then the feed is provided for the fish. Referring to fig. 6, during the period when the time relay 320 is not available, the circuit is in an off state, and at this time, the driving motor 330 is not powered, that is, the voltage applied to the driving motor 330 is zero, the driving motor 330 stops working, and similarly, the turntable 350 and the discharge plate 230 are relatively stationary, and the turntable 350 blocks the first discharge hole 231 of the discharge plate 230, so as to prevent the feed from falling. During the effective timing period of the time relay 320, the circuit is in a closed state, at this time, the voltage loaded on the driving motor 330 is increased, the rotor of the driving motor 330 operates normally, and drives the rotating shaft 340 and the rotating disc 350 to rotate, when the second blanking hole 351 on the rotating disc 350 is communicated with the first blanking hole 231 on the discharging plate 230, the feed on the discharging plate 230 can fall through the first blanking hole 231 and the second blanking hole 351, so as to put the feed into the fish. It should be noted that, the connection mode of the circuit where the time relay 320 and the driving motor 330 are located in this embodiment may also be any commercially available connection mode that can realize the intermittent operation of the driving motor 330, that is, the specific connection mode of the time relay 320 and the driving motor 330 is not within the protection scope of the present invention, as long as the time relay 320 can control the driving motor 330 to intermittently operate according to the predetermined period, which is not described herein again.

The floating plate 400 is used for blocking the bottom of the shell 100, preventing the aquaculture water from entering the inner cavity of the material guiding member 210, and further allowing the driving motor 330 and the time relay 320 and other electrical elements to enter water, so as to ensure the reliable and effective work of the feeding device. In one embodiment, the floating plate 400 is a foam plate. The density of cystosepiment is less, when setting up the cystosepiment in the bottom of casing 100 and making it be connected with casing 100, can show to improve aquaculture water body and to feeding the buoyancy of eating the device, so, can make to feed to eat the device and float on the aquaculture water surface, so, the fodder falls into aquaculture through feeding hole 110 all the time, has reduced because of feeding when eating the device and place the bank, and the fodder falls on the waste that causes on the bottom surface, has improved the accuracy that the fodder was put in.

In one embodiment, the automatic fish feeding device further comprises a housing cover 500, wherein the housing cover 500 is detachably connected with the top of the housing 100. Set up shell cover 500 through the top at casing 100, can protect placing the fodder on blowing board 230, prevent to water the rotten problem of fodder that causes on the fodder because of the rainwater when thunderstorm weather to guarantee the quality of throwing in the fodder. In one embodiment, the inner surface of the case cover 500 is provided with an internal thread, the top of the case 100 is provided with an external thread, and the case cover 500 is screwed with the top of the case 100. Through the top threaded connection who makes cap 500 and casing 100, only need rotating cap 500 or reverse rotating cap 500, can realize being connected or the separation of cap 500 and casing 100, be convenient for overhaul feeding device inner member or install the fodder additional on blowing board 230 to do benefit to the feeding device and continue to put in the fodder to the fish, this easy operation is convenient, the loading and unloading of feeding device and the loading efficiency of fodder have been improved, and then work load and the cost of breeding in the operation of breeding have been reduced.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. An automatic fish feeding device is characterized by comprising a shell, a material guiding component, a material discharging component and a floating plate,

the shell is a cylinder body which is communicated up and down, and a plurality of feeding holes are uniformly formed in the bottom of the shell along the circumferential direction of the shell;

the feeding assembly is accommodated in the inner cavity of the shell and abutted against the inner surface of the shell, the feeding assembly comprises a feeding piece, a receiving ring and a discharging plate, the feeding piece is of a hollow truncated cone-shaped structure, the bottom of the feeding piece is connected with the inner surface of the shell, the horizontal height of the bottom of the feeding piece is lower than that of the feeding hole, the receiving ring is connected with the top of the feeding piece, a plurality of material leaking holes are uniformly formed in the connecting part of the receiving ring and the feeding piece, the discharging plate is adjacent to the top of the receiving ring and abutted against the inner surface of the receiving ring, a plurality of first discharging holes are uniformly formed in the discharging plate, and the discharging plate is used for receiving feed to be fed;

the discharging component comprises a storage battery, a time relay, a driving motor, a rotating shaft and a turntable, the storage battery, the time relay and the driving motor are respectively accommodated in the inner cavity of the material guiding piece and are connected with the inner surface of the material guiding piece, the input end of the time relay is electrically connected with the storage battery, the output end of the time relay is electrically connected with the input end of the driving motor, the output end of the driving motor is connected with one end of the rotating shaft, the rotating shaft penetrates through the top of the material guiding piece, the other end of the rotating shaft is connected with the rotating disc, the rotating disc is abutted against the bottom of the material placing plate, and a plurality of second blanking holes are uniformly arranged on the turntable, each second blanking hole corresponds to one first blanking hole, the rotary disc is used for being stressed to rotate and blocking the first blanking hole or communicating the first blanking hole with the second blanking hole; the floating plate is connected with the bottom of the shell.

2. The automatic fish feeding device of claim 1, wherein the receiving ring comprises a hollow conical ring and a guide cylinder, the small diameter end of the hollow conical ring is connected with the top of the guide member, and the large diameter end of the hollow conical ring is communicated with the guide cylinder.

3. The automatic fish feeding device of claim 2, wherein the guide cylinder, the hollow conical ring and the receiving ring are integrally formed.

4. The automatic fish feeding device of claim 2, wherein a chamfer is provided at the connection between the guide cylinder and the hollow conical ring.

5. The automatic fish feeding device of claim 1, wherein the top of the guide member is provided with a rounded corner.

6. The fish automatic feeding device of claim 1, wherein the floating plate is a foam plate.

7. The automatic fish feeding device of claim 1, further comprising a housing cover removably attached to a top portion of the housing.

8. An automatic fish feeding device as claimed in claim 7, wherein the housing cover is internally threaded on an inner surface thereof and externally threaded on a top portion thereof, the housing cover being threadably connected to the top portion of the housing.

9. The automatic fish feeding device of claim 1, wherein the feeding hole is a square hole.

10. The automatic fish feeding device of claim 1, wherein the feeding holes are round holes.