CN212414251U

CN212414251U - Automatic feed system of rabbit

Info

Publication number: CN212414251U
Application number: CN202021176708.XU
Authority: CN
Inventors: 王�锋
Original assignee: Linyi City Bunny Livestock Technology Co ltd
Current assignee: Linyi City Bunny Livestock Technology Co ltd
Priority date: 2020-06-22
Filing date: 2020-06-22
Publication date: 2021-01-29
Anticipated expiration: 2030-06-22

Abstract

The utility model relates to a feeding equipment technical field, specifically speaking relates to an automatic feed system of rabbit. Comprises a plurality of rearing cages, a cage bracket for supporting the rearing cages and a strip-shaped trough positioned below the front side of the rearing cages; the intelligent feed cage is characterized by further comprising a feed bin for storing feed, a feed bin support for supporting the feed bin, a feeding mechanism for conveying feed to each feeding cage, and an intelligent control device. The utility model discloses can realize that automatic, ration provide the fodder and retrieve remaining fodder automatically to the rabbit, can greatly avoid the fodder extravagant, can realize again that the accuracy of rabbit is fed, promote the scientific growth of rabbit.

Description

Automatic feed system of rabbit

Technical Field

The utility model relates to a feeding equipment technical field, specifically speaking relates to an automatic feed system of rabbit.

Background

What the traditional mode of feeding for the rabbit in raising rabbit farm adopted is artifical feeding mode, and this kind of traditional feeding mode not only workman intensity of labour is big, also can't realize feeding the accuracy of rabbit, can not retrieve remaining fodder automatically, both can cause a large amount of wastes of fodder, is unfavorable for the science of rabbit again to be raised.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's defect, provide an automatic feed system of rabbit to solve above-mentioned technical problem.

In order to achieve the above object, the utility model adopts the following technical scheme:

the utility model provides an automatic feed system of rabbit, includes a plurality of feeding cage utensil, is used for supporting the cage utensil support of feeding cage utensil and is located the rectangular form trough of feeding cage utensil front side below, its characterized in that: the intelligent feed cage is characterized by also comprising a feed bin for storing feed, a feed bin support for supporting the feed bin, a feeding mechanism for conveying the feed to each feeding cage, and an intelligent control device;

the feeding mechanism comprises a feeding auger device and a feeding conveyor belt device; the feeding auger device comprises a feeding auger and an auger driving motor; the feeding conveyer belt device comprises a feeding conveyer belt, a conveyer belt driving motor, a conveyer belt driving roller and a conveyer belt driven roller; the upward part of the feeding conveyer belt passes through the trough from the trough bottom of the trough, and the downward part of the feeding conveyer belt bypasses from the lower part of the trough; the feed inlet of the feeding auger is butted with the feed outlet at the bottom of the storage bin, and the discharge outlet of the feeding auger is positioned above the feeding conveyer belt; the auger driving motor is connected with the conveying belt driving motor and is controlled by the intelligent control device.

Further, the following steps: a food blocking device is arranged in the food groove along the length direction of the food groove; the food blocking device is positioned above the ascending part of the feeding conveyer belt and comprises two parallel edge strips and a plurality of food blocking grids which are uniformly arranged between the two edge strips, and a food intake is arranged between every two adjacent food blocking grids; the inner walls of the two sides of the crib are provided with slideways, and the two edge strips are respectively clamped in the slideways on the two sides; and a food blocking driving mechanism for driving the food blocking device to convey along the food groove in a reciprocating manner is arranged in the stock bin support.

Further, the following steps: the food blocking driving mechanism comprises an electric push rod and a connecting rod, and two ends of the connecting rod are respectively connected with the food blocking device and a telescopic rod of the electric push rod; the electric push rod is connected with and controlled by an intelligent control device.

Further, the following steps: a plurality of leakage holes are uniformly distributed on the lower portion of the pipe wall of the feeding auger, a receiving hopper is arranged below the feeding auger, and a receiving bin is arranged below the receiving hopper.

Further, the following steps: a residual material recovery hopper is arranged below the driving roller of the conveying belt, a material baffle plate is arranged on the rear side of the driving roller of the conveying belt, and the material baffle plate is positioned above the top end of the residual material recovery hopper; and a residual material recovery container is arranged at the lower port of the residual material recovery hopper.

Has the advantages that: compared with the prior art, the utility model discloses can realize that self-timing, ration provide the fodder and retrieve remaining fodder automatically to the rabbit in every cage utensil, can greatly avoid the fodder extravagant, can realize again that the accuracy of rabbit is fed, promote the scientific growth of rabbit.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural view of the food blocking device of the present invention.

Detailed Description

The invention is further described with reference to the accompanying drawings and specific embodiments.

Example (b):

referring to fig. 1, the automatic rabbit feeding system according to the present embodiment includes a plurality of cages 5, a cage support 1 for supporting the cages 5, a strip-shaped trough 8 located below the front side of the cages 5, a bin 18 for storing fodder, a bin support 23 for supporting the bin 18, a feeding mechanism for feeding fodder to each cage 5, and an intelligent control device 17.

The feeding mechanism comprises a feeding auger device and a feeding conveyor belt device. The feeding auger device comprises a feeding auger 14 and an auger driving motor 19; the feeding and conveying belt device comprises a feeding and conveying belt 11, a conveying belt driving motor 4, a speed reducer 3, a conveying belt driving roller 2 and a conveying belt driven roller 21, and a conveying belt tensioning roller 7 is arranged on the front side of the conveying belt driving roller 2 to adjust the feeding and conveying belt 11 to be in proper tightness. The upward part of the feeding conveyer belt 11 passes through the trough 8 from the bottom of the trough 8, and the downward part of the feeding conveyer belt bypasses below the trough 8; a feed inlet 16 of the feeding auger 14 is butted with a feed outlet at the bottom of the storage bin 18, and a discharge outlet 13 of the feeding auger 14 is positioned above the feeding conveyer belt 11; the packing auger driving motor 19 is connected with the conveying belt driving motor 4 and is controlled by the intelligent control device 17.

A food blocking device 9 is arranged in the food groove 8 along the length direction; the food blocking device 9 is positioned above the ascending part of the feeding conveyer belt 11 and comprises two parallel side strips 91 and a plurality of food blocking grids 93 uniformly arranged between the two side strips 91, and a food intake 92 is arranged between every two adjacent food blocking grids 93; the inner walls of the two sides of the crib 8 are provided with slideways, and the two edge strips 91 are respectively clamped in the slideways on the two sides; and a food blocking driving mechanism for driving the food blocking device 9 to convey along the food groove 8 in a reciprocating manner is arranged in the stock bin support 23. As shown in fig. 2, the food stopping driving mechanism comprises an electric push rod 20 and a connecting rod 12, and two ends of the connecting rod 12 are respectively connected with the food stopping device 9 and a telescopic rod of the electric push rod 20; the electric push rod 20 is connected with and controlled by the intelligent control device 17.

A plurality of leakage holes 15 are uniformly distributed on the lower part of the pipe wall of the feeding auger 14, a receiving hopper 10 is arranged below the feeding auger 14, and a receiving bin 22 is arranged below the receiving hopper 10. During the feeding process of the feeding auger 14 to the feeding conveyer belt, the powdery materials in the feed are discharged through the leakage holes 15 and slide into the receiving bin 22 through the receiving hopper 10, so that the feed conveyed to the rearing cage is basically granular feed, and the blockage of the feeding auger 14 caused by the accumulation of the powdery materials can be prevented.

A residual material recovery hopper 6 is arranged below the driving roller 2 of the conveying belt, a material baffle plate 62 is arranged at the rear side of the driving roller 2 of the conveying belt, and the material baffle plate 62 is positioned above the top end of the residual material recovery hopper 6; and a residual material recovery container 61 is arranged at the lower port of the residual material recovery hopper 6.

The amount of feed to be fed every day and the feeding time every day in different growth stages of the rabbits are input into the intelligent control device 17 in advance, so that the rabbits in each cage can be fed accurately at fixed time and fixed quantity every day. When the rabbit needs to be fed, the auger driving motor 19 is started by the intelligent control device 17, and the feeding auger 14 is driven by the auger driving motor 19 to feed the feed to the feeding conveyer belt 11; meanwhile, the intelligent control device 17 starts the conveying belt driving motor 4, drives the conveying belt driving roller 2 through the speed reducer 3 to drive the conveying belt 11 to run, and conveys the feed into the trough 8, when the feed is conveyed to the food intake of the tail end feeding cage, the conveying belt driving motor 4 stops, and the conveying belt 11 stops running; at the moment, the feeding blocking grids 93 of the feeding blocking device 9 are positioned at the feeding ports of the feeding cages, so that the rabbits cannot feed the feed; the intelligent control device 17 starts the electric push rod 20, pulls the food blocking device 9, enables each food intake 92 of the food blocking device 9 to correspond to the food intake of each feeding cage, and the rabbit starts to eat; when the current food intake time reaches the set duration, the intelligent control device 17 starts the electric push rod 20 to push the food blocking device 9, so that the food blocking grids 93 of the food blocking device 9 return to the food intake of each feeding cage again; then, the intelligent control device 17 starts the conveyer belt driving motor 4, drives the conveyer belt driving roller 2 through the speed reducer 3, drives the feeding conveyer belt 11 to run, and the residual feed moves forward along with the feeding conveyer belt 11 and is finally recovered to the residual recovery container 61 by the residual recovery hopper 6.

In the above embodiment, the feeding cage 5 is provided with only one layer, and in actual feeding, the feeding cage can be provided with an upper layer and a lower layer, or an upper layer, a middle layer and a lower layer, and each layer of the feeding cage corresponds to one trough 8, the bin 18, the feeding mechanism and the food blocking device. The feeding mechanism and the food blocking device of each layer are controlled by the intelligent control device 17.

The foregoing shows and describes the general principles, features and technical characteristics of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention, and the scope of the invention is to be protected. The scope of the invention is defined by the claims and their equivalents.

Claims

1. The utility model provides an automatic feed system of rabbit, includes a plurality of feeding cage utensil (5), is used for supporting cage utensil support (1) of feeding cage utensil (5) and is located rectangular form trough (8) of feeding cage utensil (5) front side below, its characterized in that: the device also comprises a bin (18) for storing the feed, a bin support (23) for supporting the bin (18), a feeding mechanism for conveying the feed to each rearing cage (5), and an intelligent control device (17);

the feeding mechanism comprises a feeding auger device and a feeding conveyor belt device; the feeding auger device comprises a feeding auger (14) and an auger driving motor (19); the feeding and conveying belt device comprises a feeding and conveying belt (11), a conveying belt driving motor (4), a conveying belt driving roller (2) and a conveying belt driven roller (21); the upward part of the feeding conveyer belt (11) passes through the trough (8) from the bottom of the trough (8), and the downward part of the feeding conveyer belt bypasses below the trough (8); a feed inlet (16) of the feeding auger (14) is butted with a feed outlet at the bottom of the storage bin (18), and a discharge outlet (13) of the feeding auger (14) is positioned above the feeding conveyer belt (11); the packing auger driving motor (19) is connected with the conveying belt driving motor (4) and is controlled by the intelligent control device (17).

2. The automatic rabbit feeding system according to claim 1, wherein: a food blocking device (9) is arranged in the food groove (8) along the length direction; the food blocking device (9) is positioned above the ascending part of the feeding conveying belt (11) and comprises two parallel edge strips (91) and a plurality of food blocking grids (93) uniformly arranged between the two edge strips (91), and a food intake (92) is arranged between every two adjacent food blocking grids (93); the inner walls of the two sides of the crib (8) are provided with slideways, and the two edge strips (91) are respectively clamped in the slideways on the two sides; and a food blocking driving mechanism for driving the food blocking device (9) to convey along the food groove (8) in a reciprocating manner is arranged in the stock bin support (23).

3. The automatic rabbit feeding system according to claim 2, wherein: the food blocking driving mechanism comprises an electric push rod (20) and a connecting rod (12), and two ends of the connecting rod (12) are respectively connected with the food blocking device (9) and a telescopic rod of the electric push rod (20); the electric push rod (20) is connected with and controlled by the intelligent control device (17).

4. The automatic rabbit feeding system according to any one of claims 1-3, wherein: a plurality of leakage holes (15) are uniformly distributed on the lower portion of the pipe wall of the feeding packing auger (14), a receiving hopper (10) is arranged below the feeding packing auger (14), and a receiving bin (22) is arranged below the receiving hopper (10).

5. The automatic rabbit feeding system according to claim 4, wherein: a residual material recovery hopper (6) is arranged below the conveying belt driving roller (2), a material baffle plate (62) is arranged on the rear side of the conveying belt driving roller (2), and the material baffle plate (62) is positioned above the top end of the residual material recovery hopper (6); and a residual material recovery container (61) is arranged at the lower port of the residual material recovery hopper (6).