CN219352728U - Liquid bionic feeding device - Google Patents

Abstract

The utility model discloses a liquid bionic feeding device, which comprises a gas supply device, a feed storage device, a bionic output device and an automatic control system, wherein the gas supply device is connected with the feed storage device; the gas supply device is connected with the feed storage device, the feed storage device is connected with the bionic output device, and the gas supply device, the feed storage device and the bionic output device are connected with the automatic control system; the bionic output device comprises a bionic nipple and an automatic folding device, wherein the bionic nipple is arranged on the automatic folding device, and the automatic folding device is connected with the feed storage device. The beneficial effects of the utility model are as follows: the device can keep fresh and keep warm to liquid fodder, reduces hurdle space occupancy, reduces the manpower input, prevents that the fodder from being trampled pollution reduction output terminal damage to record collection feed intake.

Description

Liquid bionic feeding device

Technical Field

The utility model relates to the field of breeding and raising, in particular to a liquid bionic feeding device.

Background

Along with the continuous development and reinforcement of genetic breeding technology, the sow litter size is higher and higher, the number of excellent high-yield sow litter piglets can reach 18-20, and the average litter size is 14-16. However, the number of effective milk heads of sows is basically between 10 and 12, and piglets exceeding the number of effective milk heads cannot be fed, so that the high mortality rate of the suckling piglets is caused, and the excellent reproductive performance of the high-yield sows cannot be fully utilized. Because the piglets are in the lactation stage and have smaller day-old (especially less than 18 days old), the piglets do not have the capability of independently feeding, digesting and absorbing solid feed, and the liquid milk or liquid feed which accords with the physiological characteristics and has a certain temperature needs to be provided, so that higher requirements and cost are provided for the manpower input of a cultivation site, but the effects are very little, even the pain and the difficulty of the modern cultivation site are always the problem.

At present, most of Guan Youling piglet liquid milk or liquid feed feeding equipment is single independent, on one hand, the labor input dependence is high, and the freshness of the liquid milk and the liquid feed cannot be guaranteed (e.g. deterioration after 24 hours, shorter high-temperature weather time), the liquid milk or the liquid feed is not insulated, and the space occupied by a bottom tray in a fence is large; on the other hand, the provision of a bottom receiving tray and a biomimetic teat causes the following problems: firstly, because the piglet tramples and plays the clout in the bottom charging tray with the arch, lead to clout to pollute and adhere the piglet health, influence the piglet follow-up and eat and the bacterium that the body is moist brings breeds and infects, secondly, the nipple, whether it is hard plastic material or rubber material, can all lead to the terminal output to be influenced because of the piglet is played with the arch and is torn and can not use.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model provides the liquid bionic feeding device which can keep fresh and keep warm for liquid feed, reduce the space occupancy rate of a fence, reduce the manpower input, prevent the feed from being damaged by trampling pollution, reduce the output device and record the acquisition feed intake.

The technical scheme adopted for solving the technical problems is as follows: a liquid bionic feeding device comprises a gas supply device, a liquid feed storage device, a bionic output device and an automatic control system; the gas supply device is connected with the liquid feed storage device, the liquid feed storage device is connected with the bionic output device, and the gas supply device, the liquid feed storage device and the bionic output device are connected with the automatic control system; the bionic output device comprises a bionic nipple and an automatic folding device, wherein the bionic nipple is arranged on the automatic folding device, and the automatic folding device is connected with the liquid feed storage device.

In the above structure, the bionic output device further comprises a simulated sound generating device, and the simulated sound generating device is used for generating mammal lactation sound.

In the above-described structure, the gas supply means includes gas generation means and gas storage means; the gas generating device is connected with the gas storage device, and the gas storage device is connected with the liquid feed storage device; the gas generating device is used for generating nitrogen, and the gas storage device is used for storing the nitrogen.

In the structure, the liquid feed storage device is provided with a feed inlet, a water inlet, a drain outlet, an automatic stirring rod and a liquid automatic metering meter; the feed inlet is arranged at the top of the liquid feed storage device and is used for feeding feed; the water inlet and the sewage outlet are arranged on one side of the liquid feed storage device and are used for water inflow and sewage discharge; the automatic stirring rod and the liquid automatic metering meter are arranged in the liquid feed storage device, and stirring blades are arranged on the automatic stirring rod and are used for stirring feed in the liquid feed storage device; the liquid automatic metering meter is used for recording the liquid feed flow output by the liquid feed storage device.

In the structure, the gas supply device, the feed storage device and the bionic output device are connected through pipelines; and a heat preservation layer is arranged on a pipeline of the feed storage device connected with the bionic output device.

In the above structure, the outside of the feed storage device is provided with a heat preservation layer for realizing heat preservation of the feed.

In the above structure, a control valve is provided on a pipe connecting the gas storage device and the liquid feed storage device.

The beneficial effects of the utility model are as follows: the device can keep fresh and keep warm to liquid fodder, reduces hurdle space occupancy, reduces the manpower input, prevents that the fodder from being trampled the pollution and record collection feed intake.

Drawings

FIG. 1 is a schematic structural view of a liquid bionic feeding device of the utility model.

Fig. 2 is a schematic structural diagram of a liquid bionic feeding device of the utility model.

Fig. 3 is a schematic structural view of a liquid bionic feeding device of the utility model.

Detailed Description

The utility model will be further described with reference to the drawings and examples.

The conception, specific structure, and technical effects produced by the present utility model will be clearly and completely described below with reference to the embodiments and the drawings to fully understand the objects, features, and effects of the present utility model. It is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments, and that other embodiments obtained by those skilled in the art without inventive effort are within the scope of the present utility model based on the embodiments of the present utility model. In addition, all the coupling/connection relationships referred to in the patent are not direct connection of the single-finger members, but rather, it means that a better coupling structure can be formed by adding or subtracting coupling aids depending on the specific implementation. The technical features in the utility model can be interactively combined on the premise of no contradiction and conflict.

Referring to fig. 1 and 3, the present utility model discloses a liquid bionic feeding device, specifically, the device includes a nitrogen gas supply device 10, a liquid feed storage device 20, a bionic output device 30, and an automation control system 40, wherein the nitrogen gas supply device 10 is connected with the liquid feed storage device 20, the liquid feed storage device 20 is connected with the bionic output device 30, and the nitrogen gas supply device 10, the liquid feed storage device 20, and the bionic output device 30 are connected with the automation control system 40. The nitrogen supply device 10 comprises a nitrogen generator 101 and a nitrogen storage tank 102, wherein the nitrogen generator 101 and the nitrogen storage tank 102 are connected through a pipeline, and nitrogen produced by the nitrogen generator 101 can flow into the nitrogen storage tank 102 through the pipeline.

The liquid feed storage device 20 is connected to the nitrogen storage tank 102 by a pipe where a control valve is provided. The liquid feed storage device 20 is provided with a feed inlet 201, a water inlet 202, a drain outlet 203, an automatic stirring rod 204 and a liquid automatic metering meter 205, wherein the feed inlet 201 is arranged at the top of the liquid feed storage device 20 and is used for feeding feed; the water inlet 202 and the sewage outlet 203 are arranged on one side of the liquid feed storage device 20, wherein the water inlet 202 is arranged on the top of one side of the liquid feed storage device 20, and the sewage outlet 203 is arranged on the bottom of one side of the liquid feed storage device 20 and is used for water inlet and sewage discharge; the inside of the liquid feed storage device 20 is also provided with an automatic stirring rod 204, and stirring blades are arranged on the automatic stirring rod 204 and are used for stirring feed in the liquid feed storage device 20, so that the feed is dissolved more fully; the liquid automatic meter 205 is provided in the liquid feed storage device 20, and can record the flow rate of the liquid feed output from the liquid feed storage device 20. Nitrogen inside the nitrogen storage tank 102 flows into the liquid feed storage device 20 through a pipe for refreshing feed inside the liquid feed storage device 20.

The bionic output device 30 comprises a bionic nipple 301, an automatic folding device 302 and a simulated sounding device 303, the bionic nipple 301 is arranged on the automatic folding device 302 and is connected with the liquid feed storage device 20 through a pipeline, a control valve is also arranged at the pipeline, and feed stored in the liquid feed storage device 20 can flow out of the bionic nipple 301 through the pipeline and the automatic folding device 302, so that piglets can eat from the bionic nipple 301, and the bionic nipple 301 is not easy to be damaged by being bitten by the piglets. The bionic nipple 301 is arranged in double rows, and nipple height reduction simulates the nipple growth characteristics of the sow, so that piglets can eat more conveniently. The automatic folding device 302 can adjust the height and the angle of the bionic nipple 301 according to the size of piglets during feeding, then the simulation sounding device 303 is started, the simulation sounding device 303 can emit humming sounds emitted by sows during natural lactation, and the simulation sounding device 303 is used for reminding and guiding the piglets to eat. When feeding is finished, the automatic folding device 302 can fold and fold the bionic nipple 301, the folded bionic nipple 301 does not occupy the internal space of a fence, pollution and invalid biting and trampling of piglets can be avoided, and the damage rate of the bionic nipple 301 is reduced. The heat preservation is arranged outside the liquid feed storage device 20, a heat preservation layer is also arranged on a pipeline connected between the liquid feed storage device 20 and the bionic output device 30, and the heat preservation layer can preserve heat of feed so as to prevent the temperature of the feed eaten by piglets from being too low.

The automated integrated control system 40 may control the nitrogen generator 101, the control valve at the pipeline of the nitrogen storage tank 102, the automatic stirring rod 204, the liquid automatic flow meter 205, the control valve at the pipeline of the liquid feed storage device 20, the simulated nipple 301, the automatic folding device 302, and the simulated sound device 303. An automatic flow meter is also provided in each individual sow farrowing house, and the feed intake of each litter can be recorded under the control of the automated integrated control system 40.

While the preferred embodiment of the present utility model has been described in detail, the present utility model is not limited to the embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present utility model, and these equivalent modifications or substitutions are included in the scope of the present utility model as defined in the appended claims.

Claims (7)

1. The liquid bionic feeding device is characterized by comprising a gas supply device, a liquid feed storage device, a bionic output device and an automatic control system;

the gas supply device is connected with the liquid feed storage device, the liquid feed storage device is connected with the bionic output device, and the gas supply device, the liquid feed storage device and the bionic output device are connected with the automatic control system;

the bionic output device comprises a bionic nipple and an automatic folding device, wherein the bionic nipple is arranged on the automatic folding device, and the automatic folding device is connected with the liquid feed storage device.

2. The liquid bionic feeding device of claim 1, wherein the bionic output device further comprises a simulated sound device for emitting a mammal sound.

3. The liquid bionic feeding device of claim 1, wherein the gas supply comprises a gas generating device and a gas storage device;

the gas generating device is connected with the gas storage device, and the gas storage device is connected with the liquid feed storage device; the gas generating device is used for generating nitrogen, and the gas storage device is used for storing the nitrogen.

4. The liquid bionic feeding device according to claim 1, wherein the liquid feed storage device is further provided with a feed inlet, a water inlet, a drain outlet, an automatic stirring rod and a liquid automatic meter;

the feed inlet is arranged at the top of the liquid feed storage device and is used for feeding feed; the water inlet and the sewage outlet are arranged on one side of the liquid feed storage device and are used for water inflow and sewage discharge; the automatic stirring rod and the liquid metering meter are arranged in the liquid feed storage device, and stirring blades are arranged on the automatic stirring rod and are used for stirring feed in the liquid feed storage device; the liquid automatic metering meter is used for recording the liquid feed flow output by the liquid feed storage device.

5. A liquid bionic feeding device according to claim 3, wherein the gas supply, feed storage and bionic output are connected by pipes; and a heat preservation layer is arranged on a pipeline of the feed storage device connected with the bionic output device.

6. The liquid bionic feeding device according to claim 1, wherein a heat preservation layer is arranged outside the feed storage device and is used for achieving heat preservation of feed.

7. A liquid bionic feeding device according to claim 3, wherein a control valve is provided on a conduit connecting the gas storage device with the liquid feed storage device.