CN212414293U

CN212414293U - Feeding device for poultry

Info

Publication number: CN212414293U
Application number: CN202020709543.1U
Authority: CN
Inventors: 王涛
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-05-02
Filing date: 2020-05-02
Publication date: 2021-01-29
Anticipated expiration: 2030-05-02

Abstract

The utility model discloses a feeding device for poultry belongs to poultry technical field, including the feeding frame, feeding frame top gap is connected with workbin b, workbin b is located workbin c's left side, workbin c is located workbin a's left side, workbin a's air inlet extends to the inside of agitator tank through conveying pipeline an, workbin b passes through conveying pipeline c and agitator tank intercommunication, workbin c passes through conveying pipeline b and agitator tank intercommunication, the agitator tank is located the inside of bin, the inside of feeding frame is seted up in the bin, can dismantle in the agitator tank and be connected with the (mixing) shaft. The feed box a, the feed box b and the feed box c are filled with different feeds, the feeds can be quantitatively conveyed into the stirring box according to different proportions to be stirred according to requirements, and the uneven proportion caused by long-time standing of mixed feeds can be avoided; after the feeding bowl and the water feeding bowl are fed, water in the water tank flows out through the cleaning pipe and the water outlet pipe to clean the feeding bowl and the water feeding bowl.

Description

Feeding device for poultry

Technical Field

The utility model relates to a poultry technical field especially relates to a poultry is with feeding device.

Background

Animal husbandry refers to the production process of animal products such as meat, eggs, milk, wool, cashmere, leather, silk and medicinal materials by adopting the physiological functions of animals such as livestock and poultry which are artificially fed and domesticated by human beings or wild animals such as deer, musk, fox, mink, otter, quail and the like, and converting pasture, feed and other plant energy into animal energy through artificial feeding and breeding. Is an extremely important link for exchanging substances between human beings and the nature. Livestock raising is an important part of agriculture and is combined with the planting industry as two major pillars for agricultural production. Zootechnics is a comprehensive discipline for studying breeding, reproduction, feeding, management, disease prevention and epidemic prevention of livestock, and related fields such as grassland construction, livestock product processing and livestock management and management.

Patent number CN 107372163A's publication a feeding device for poultry has reached labour saving and time saving, and the livestock eats the effect that is difficult for causing the waste, has reduced the cost of raising with incomplete fodder, through adopting first motor as the drive for stirring vane can stir the fodder of feeding the livestock, has improved feeding effect and work efficiency.

The prior art stockbreeding has the following disadvantages: 1. when animals are fed, the mixed feed is mostly fed by using the mixed feed, the mixed feed is settled downwards at different depths due to different feed weights and the like after being placed for a long time, at the moment, the feed in the mixed feed is not uniformly mixed, and the non-uniform mixed feed is easy to cause non-uniform nutrition of the animals when the animals are fed; 2. after the animals eat the feed or drink water, feed residues and animal saliva are left in the feeding bowl and the water feeding bowl, and the feeding of the next batch of animals is easily influenced if the animals are not cleaned in time; to this end, we propose a feeding device for livestock.

SUMMERY OF THE UTILITY MODEL

The utility model provides a feeding device for livestock raising, wherein different feeds are arranged in a feed box a, a feed box b and a feed box c, and the feeds can be quantitatively conveyed into a stirring box according to different proportions to be stirred according to requirements, so that the uneven proportion caused by long-time standing of mixed feeds can be avoided; after the feeding bowl and the water feeding bowl are fed, water in the water tank flows out through the cleaning pipe and the water outlet pipe to clean the feeding bowl and the water feeding bowl.

The utility model provides a specific technical scheme as follows:

the utility model provides a feeding device for livestock raising, which comprises a feeding frame, wherein the top end of the feeding frame is in clearance connection with a material box b, the material box b is positioned on the left side of a material box c, the material box c is positioned on the left side of the material box a, the air inlet of the material box a extends to the inside of a stirring box through a material conveying pipe a, the material box b is communicated with the stirring box through the material conveying pipe c, the material box c is communicated with the stirring box through the material conveying pipe b, the stirring box is positioned inside a material chamber, the material chamber is arranged inside the feeding frame, a stirring shaft is detachably connected in the stirring box, the bottom end of the stirring box is detachably connected with a discharging pipe, the discharging pipe is connected on the right side of a feeding bowl in a penetrating way, the air inlet of the feeding bowl extends to the inside of a water tank through a cleaning pipe, the right side of the material chamber is fixedly, the bottom ends of the feeding bowl and the feeding bowl are provided with clamping grooves, clamping plates b and clamping plates a are respectively connected in the clamping grooves in a buckling mode, gaps between the bottom ends of the clamping plates a are connected with telescopic rods a, the bottom ends of the clamping plates b are detachably connected with telescopic rods b, the telescopic rods a penetrate through a sewage tank, and the sewage tank is arranged at the bottom of the feeding frame.

Optionally, a cross frame is fixedly connected to the left side of the top end of the feeding frame, and infrared sensors are mounted on two sides of the bottom end of the cross frame.

Optionally, the top end of the material box a is detachably connected with a box door, and the stirring shaft is in gap connection with a motor.

Optionally, telescopic link a includes inner tube, outer tube and gear box, the gear box is located the outer tube below, sliding connection has the inner tube in the outer tube.

Optionally, the current input ends of the infrared sensor, the telescopic rod a, the telescopic rod b and the motor are electrically connected with an external power supply through wires.

The utility model has the advantages as follows:

the embodiment of the utility model provides a livestock feeding device:

1. the feed box a, the feed box b and the feed box c are filled with different feeds, the feeds can be quantitatively conveyed into the stirring box according to different proportions to be stirred according to requirements, and the uneven proportion caused by long-time standing of mixed feeds can be avoided; the feed box a, the feed box b and the feed box c are arranged at the top end of the feeding frame, different feeds are filled in the feed box a, the feed box b and the feed box c, the bottom ends of the feed box a, the feed box b and the feed box c are respectively connected with the stirring box through the feed conveying pipe a, the feed conveying pipe c and the feed conveying pipe b, the feed conveying pipe a, the feed conveying pipe c and the feed conveying pipe b are respectively provided with discharge valves, the discharge valves are connected in parallel and can be controlled separately, when animals eat the feeds, the discharge valves are respectively opened, the feed box a, the feed box b and the feed box c respectively convey a certain amount of feeds downwards through the feed conveying pipe a, the feed conveying pipe c and the feed conveying pipe b, the feeds enter the stirring box, the motor is started to drive the stirring shaft to rotate to stir the mixed feeds, the stirred feeds are conveyed into the feeding bowl through the discharge pipe to feed the animals, the feed box a, the feed box b and, the animal nutrition can be balanced, and the phenomenon that the animal nutrition is unbalanced due to uneven mixing of the mixed feed after standing is avoided.

2. After the feeding bowl and the water feeding bowl finish feeding, water in the water tank flows out through the cleaning pipe and the water outlet pipe to clean the feeding bowl and the water feeding bowl; after the animals eat the feed in the feeding bowl or the water in the water feeding bowl leaves, the flow control valves on the cleaning pipe and the water outlet pipe are opened, the water flows into the feeding bowl and the water feeding bowl from the water tank through the cleaning pipe and the water outlet pipe respectively, the water outlet ends of the cleaning pipe and the water outlet pipe are at a certain height from the feeding bowl and the bottom of the water feeding bowl, the inner wall of the bowl is cleaned in the continuous downward flowing process of the water, the inner wall of the bowl is contacted with the water to be cleaned in the continuous accumulation process of the water, when the infrared sensor measures that the water level reaches a certain height, the flow control valves are closed, the telescopic rod a and the telescopic rod b are electrified, after the telescopic rod a and the telescopic rod b are electrified, the telescopic rod a and the telescopic rod b shorten to drive the clamping plate a in the feeding bowl and the clamping plate b in the water feeding bowl to move downwards into the sewage tank, at the moment, the water moves towards the sewage tank through the clamping grooves at the bottom ends of the feeding bowl, the water in the water tank is conveyed through the cleaning pipe and the water outlet pipe to wash the feeding bowl and the water feeding bowl, so that the cleanness of the inner wall of the bowl is kept.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic view of the overall structure of a feeding device for livestock raising according to an embodiment of the present invention;

fig. 2 is a schematic structural view of cleaning of a feeding bowl of the feeding device for livestock raising according to the embodiment of the present invention;

fig. 3 is a schematic structural view of a telescopic rod of the feeding device for livestock raising of the embodiment of the present invention.

In the figure: 1. a cross frame; 2. an infrared sensor; 3. a feeding frame; 4. a material box a; 5. a feed delivery pipe a; 6. a box door; 7. a material chamber; 8. a stirring box; 9. a stirring shaft; 10. a discharge pipe; 11. cleaning the tube; 12. a sewage tank; 13. a telescopic rod a; 1301. an inner tube; 1302. an outer tube; 1303. a gear box; 14. a clamping plate a; 15. feeding bowls; 16. a material box b; 17. a material box c; 18. a water tank; 19. a water outlet pipe; 20. a water feeding bowl; 21. a card slot; 22. a telescopic rod b; 23. a clamping plate b; 24. a motor; 25. a delivery pipe b; 26. a delivery pipe c.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

A feeding device for livestock raising according to an embodiment of the present invention will be described in detail with reference to fig. 1 to 3.

Referring to fig. 1 to 3, a feeding device for livestock comprises a feeding frame 3, a feeding box b16 is connected to a gap at the top end of the feeding frame 3, the feeding box b16 is located at the left side of a feeding box c17, the feeding box c17 is located at the left side of a feeding box a4, an air inlet of the feeding box a4 extends to the inside of a stirring box 8 through a feeding pipe a5, the feeding box b16 is communicated with the stirring box 8 through a feeding pipe c26, the feeding box c17 is communicated with the stirring box 8 through a feeding pipe b25, the stirring box 8 is located inside a material chamber 7, the material chamber 7 is arranged inside the feeding frame 3, a stirring shaft 9 is detachably connected inside the stirring box 8, a feeding pipe 10 is detachably connected to the bottom end of the stirring box 8, the feeding pipe 10 is connected to the right side of a feeding bowl 15 in a penetrating manner, the air inlet of the feeding bowl 15 extends to the inside of a water tank 18 through a cleaning pipe 11, the right side fixedly connected with water tank 18 in the material chamber 7, water tank 18 communicates with water feeding bowl 20 through outlet pipe 19, draw-in groove 21 has all been seted up to water feeding bowl 20 and feeding bowl 15 bottom, snap connection has cardboard b23 and cardboard a14 respectively in the draw-in groove 21, cardboard a14 bottom gap coupling has telescopic link a13, cardboard b23 bottom detachably is connected with telescopic link b22, telescopic link a13 runs through bilge pit 12, bilge pit 12 sets up in feeding frame 3 bottom.

Illustratively, the feeding frame 3 comprises a material chamber 7, an agitator tank 8, a water tank 18, a sewage tank 12, an expansion rod a13 and an expansion rod b22, the agitator tank 8 and the water tank 18 are fixed on two sides of the material chamber 7, observation windows are arranged on the surfaces of a bin a4, a bin b16 and a bin c17, the remaining condition of the feed in the bin a4, a bin b16 and a bin c17 can be observed through the observation windows, the bottom ends of the bin a4, the bin b16 and the bin c17 are respectively connected with the agitator tank 8 through a material conveying pipe a5, a material conveying pipe c26 and a material conveying pipe b25, the material conveying pipes a5, c26 and b25 are respectively provided with discharge valves which are connected in parallel, the discharge valves can control the flow condition of the material in the material conveying pipes, so that the material conveying pipes a5, c26 and b25 can simultaneously convey the material downwards in different amounts, valves are arranged on the material conveying pipe 10 to control the flow rate of the material conveying pipe, and a cleaning valve 11 and a water outlet pipe 19, the flow control valves are connected in parallel and can be separately controlled, and the flow control valves can control the water flow in the cleaning pipe 11 and the water outlet pipe 19.

Referring to fig. 1, a cross frame 1 is fixedly connected to the left side of the top end of the feeding frame 3, and infrared sensors 2 are mounted on two sides of the bottom end of the cross frame 1.

Illustratively, the feeding frame 3 provides support for the cross frame 1, and the infrared sensor 2 is mounted on the cross frame 1 above the feeding bowl 15 and the water feeding bowl 20, respectively.

Referring to fig. 1 and 2, a box door 6 is detachably connected to the top end of the bin a4, and a motor 24 is connected to the stirring shaft 9 in a clearance manner.

For example, the door 6 can be pulled upwards to open the door 6 and feed can be added into the bin a4, and the motor 24 is started to drive the stirring shaft 9 to stir the feed.

Referring to fig. 3, the telescopic rod a13 includes an inner tube 1301, an outer tube 1302 and a gear box 1303, the gear box 1303 is located below the outer tube 1302, and the inner tube 1301 is slidably connected in the outer tube 1302.

Illustratively, the motor is started to drive the gear in the gear box 1303 to rotate, so that the inner tube 1301 slides out of the outer tube 1302 to push the clamping plate a14 to move.

Referring to fig. 1, the current input terminals of the infrared sensor 2, the telescopic rod a13, the telescopic rod b22 and the motor 24 are electrically connected with an external power supply through wires.

Illustratively, the plug is plugged into the socket, and the external power supply respectively provides power for the infrared sensor 2, the telescopic rod a13, the telescopic rod b22 and the motor 24.

When the feeding device is used, an external power supply supplies power, animals are fed to the feeding frame 3 for foraging when hungry, the infrared sensor 2 is installed at the bottom end of a cross frame 1 connected to the left side of the feeding frame 3, the infrared sensor 2 (the infrared sensor 2 is a sensor for measuring by using physical properties of infrared rays) emits infrared rays downwards to the middle of a feeding bowl 15 and a water feeding bowl 20, when heads of the animals move to the upper portion of the feeding bowl 15 or the upper portion of the water feeding bowl 20, the infrared rays are blocked, the received signals are converted into electric signals by the infrared sensor 2 and transmitted to a controller, when the animals are positioned above the feeding bowl 15, a feed box a4, a feed box b16 and a feed box c17 are installed at the top end of the feeding frame 3, different feeds are filled in the feed boxes a4, a feed box b16 and a feed box c17, the bottom ends of the feed boxes a4, b16 and c17 are respectively connected with a stirring box 8 through a feed conveying pipe a, The material conveying pipe c26 and the material conveying pipe b25 are both provided with discharge valves, the discharge valves are connected in parallel and can be separately controlled, when animals eat feed, the discharge valves are respectively opened, the material box a4, the material box b16 and the material box c17 respectively convey a certain amount of feed downwards through the material conveying pipe a5, the material conveying pipe c26 and the material conveying pipe b25, the feed enters the stirring box 8, the motor 24 is started to drive the stirring shaft 9 to rotate to stir the mixed feed, the stirred feed is conveyed into the feeding bowl 15 through the material discharging pipe 10 to feed the animals, when the animals are positioned above the feeding bowl 20, water in the water tank 18 flows into the feeding bowl 20 through the water discharging pipe 19 to feed the animals, after the animals eat the feed in the feeding bowl 15 or the water in the feeding bowl 20, the flow control valves on the cleaning pipe 11 and the water discharging pipe 19 are opened, the water flows into the feeding bowl 15 and the feeding bowl 20 through the cleaning pipe 11 and the water discharging pipe 19 from the water tank 18, the cleaning pipe 11 and the discharging pipe 19 have certain height from the bottom of the feeding bowl 20, the bowl inner wall is washed to the in-process that water continuously flows downwards, water is continuously piled up in-process bowl inner wall and water contact and is cleared up, flow control valve is closed when infrared ray sensor 2 measures the water liquid level to a take the altitude, telescopic link a13 and telescopic link b22 circular telegram, telescopic link a13 and telescopic link b22 shorten after circular telegram and drive in feeding bowl 15 cardboard a14 and the feeding bowl 20 cardboard b23 move down and get into in sewage tank 12, water moves in sewage tank 12 through the draw-in groove 21 of feeding bowl 15 and feeding bowl 20 bottom this moment, telescopic link a13 and telescopic link b22 extension drive behind the water complete outflow cardboard a14 and cardboard b23 resume original state card go into in draw-in groove 21, sewage in sewage tank 12 is outwards discharged through the water pipe.

It should be noted that, the utility model relates to a feeding device for poultry, including infrared sensor 2 (infrared sensor 2's model is ESF-DS30C 4), telescopic link a13 (telescopic link a13 model is XTL 50), telescopic link b22 (telescopic link b22 model is XTL 50) and motor 24 (motor 24 model is CH/CV, motor a13 indicates to realize that electric energy is mechanical energy according to the electromagnetic induction law), above-mentioned electrical components are prior art products, by the needs of using of technical staff, select, install and accomplish the debugging operation of circuit, ensure that each electrical apparatus homoenergetic normally works, the part is general standard component or the part that technical staff in the field knows, its structure and principle all can learn through the technical manual or can learn through conventional experimentation.

It is apparent that those skilled in the art can make various changes and modifications to the embodiments of the present invention without departing from the spirit and scope of the embodiments of the present invention. Thus, if such modifications and variations of the embodiments of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. The feeding device for livestock breeding comprises a feeding frame (3) and is characterized in that a feed box b (16) is connected to the top end of the feeding frame (3) in a clearance mode, the feed box b (16) is located on the left side of a feed box c (17), the feed box c (17) is located on the left side of a feed box a (4), an air inlet of the feed box a (4) extends to the inside of a stirring box (8) through a feed delivery pipe a (5), the feed box b (16) is communicated with the stirring box (8) through a feed delivery pipe c (26), the feed box c (17) is communicated with the stirring box (8) through a feed delivery pipe b (25), the stirring box (8) is located inside a material chamber (7), the material chamber (7) is arranged inside the feeding frame (3), a stirring shaft (9) is detachably connected in the stirring box (8), a discharge pipe (10) is detachably connected to the bottom end of the stirring box (8), discharging pipe (10) through connection is on the right side of feeding bowl (15), the air inlet of feeding bowl (15) passes through scavenge pipe (11) and extends to the inside of water tank (18), right side fixedly connected with water tank (18) in feed chamber (7), water tank (18) are through outlet pipe (19) and water feeding bowl (20) intercommunication, draw-in groove (21) have all been seted up to water feeding bowl (20) and feeding bowl (15) bottom, the buckle is connected with cardboard b (23) and cardboard a (14) respectively in draw-in groove (21), cardboard a (14) bottom gap connection has telescopic link a (13), telescopic link b (22) can be dismantled in cardboard b (23) bottom, telescopic link a (13) run through bilge pit (12), bilge pit (12) are seted up in feeding frame (3) bottom.

2. Feeding device for animal husbandry according to claim 1, characterized in that a cross frame (1) is fixedly connected to the left side of the top end of the feeding frame (3), and infrared sensors (2) are mounted on two sides of the bottom end of the cross frame (1).

3. A feeding device for animal husbandry according to claim 1, characterised in that the top end of the bin a (4) is detachably connected with a bin door (6), and the stirring shaft (9) is in clearance connection with a motor (24).

4. Feeding device for animal husbandry according to claim 1, characterized in that the telescopic rod a (13) comprises an inner tube (1301), an outer tube (1302) and a gear box (1303), wherein the gear box (1303) is located below the outer tube (1302), and the inner tube (1301) is slidably connected in the outer tube (1302).

5. Feeding device for animal husbandry according to claim 2, characterized in that the current input terminals of the infrared sensor (2), the telescopic rod a (13), the telescopic rod b (22) and the motor (24) are electrically connected with an external power supply through wires.