阅读说明：本技术 一种液奶消毒和饲喂系统 (Liquid milk disinfection and feeding system ) 是由 冯艳忠 王小和 刘建河 高峰 杨朝江 林博文 杨秀梅 李凤兰 赫兰保 于 2020-05-06 设计创作，主要内容包括：一种液奶消毒和饲喂系统,其包括液奶储存罐和液奶消毒罐。液奶消毒和饲喂系统还包括冷水罐、热水罐以及用于饲喂动物的多个奶嘴构件,液奶消毒罐罐体上设置有进料口和出料口,进料口通过第一液奶输送管道连通到液奶储存罐,出料口位于液奶消毒罐罐体的底部并通过第二液奶输送管道连通到液奶分流管,液奶分流管上间隔地设置有多个奶嘴接口,每个奶嘴接口分别紧密地套接有一个橡胶奶嘴构件。液奶消毒罐的外周壁环绕设置有水循环管,热水罐的出水口通过进水管连通到水循环管,且热水罐的出水口处设置有阀门用于控制热水到热水循环管的流动,冷水罐的出水口通过进水管连通到水循环管,且冷水罐的出水口处设置有阀门用于控制冷水到水循环管的流动。(A liquid milk disinfection and feeding system comprises a liquid milk storage tank and a liquid milk disinfection tank. The liquid milk disinfection and feeding system further comprises a cold water tank, a hot water tank and a plurality of nipple components for feeding animals, a feed inlet and a discharge outlet are arranged on the liquid milk disinfection tank body, the feed inlet is communicated with the liquid milk storage tank through a first liquid milk conveying pipeline, the discharge outlet is positioned at the bottom of the liquid milk disinfection tank body and is communicated with a liquid milk flow dividing pipe through a second liquid milk conveying pipeline, a plurality of nipple interfaces are arranged on the liquid milk flow dividing pipe at intervals, and each nipple interface is respectively and tightly sleeved with one rubber nipple component. The periphery wall of the liquid milk disinfection tank is provided with a water circulating pipe in a surrounding mode, the water outlet of the hot water tank is communicated with the water circulating pipe through the water inlet pipe, a valve is arranged at the water outlet of the hot water tank and used for controlling the flow of hot water to the hot water circulating pipe, the water outlet of the cold water tank is communicated with the water circulating pipe through the water inlet pipe, and a valve is arranged at the water outlet of the cold water tank and used for controlling the flow of cold water to the water circulating.)

1. The utility model provides a liquid milk disinfection and feeding system, its includes liquid milk holding vessel and liquid milk disinfection jar, its characterized in that:

the liquid milk disinfecting and feeding system further comprises a cold water tank, a hot water tank and a plurality of nipple members,

the liquid milk disinfection tank body is provided with a feed inlet and a discharge outlet, the feed inlet is communicated with the liquid milk storage tank through a first liquid milk conveying pipeline, the discharge outlet is positioned at the bottom of the liquid milk disinfection tank body and is communicated with a liquid milk shunt pipe through a second liquid milk conveying pipeline, a plurality of nipple interfaces are arranged on the liquid milk shunt pipe at intervals, each nipple interface is respectively and tightly sleeved with a nipple component,

the periphery wall of liquid milk disinfection jar encircles and is provided with hot water circulating pipe and cold water circulating pipe, the delivery port of hot water jar passes through the inlet tube communicates the hot water circulating pipe, just the delivery port department of hot water jar is provided with the valve and is used for controlling hot water to the flow of hot water circulating pipe, the delivery port of cold water jar communicates through the inlet tube cold water circulating pipe, just the delivery port department of cold water jar is provided with the valve and is used for controlling cold water to the flow of cold water circulating pipe.

2. The liquid milk sanitizing and feeding system according to claim 1, wherein: the hot water circulating pipe and the cold water circulating pipe are spiral liquid circulating pipes arranged on the outer peripheral wall of the liquid milk sterilizing tank body in a surrounding mode, a heat preservation layer is arranged on the outer side of the outer peripheral wall of the liquid milk sterilizing tank body, and the hot water circulating pipe, the cold water circulating pipe and the liquid milk sterilizing tank body are wrapped in the heat preservation layer.

3. The liquid milk sanitizing and feeding system according to claim 1, wherein: the liquid milk disinfection and feeding system is further provided with a first pipeline pump, a water outlet of the cold water tank and a water outlet of the hot water tank are respectively connected to an inlet end of the first pipeline pump, and a water inlet of the cold water circulating pipe and a water inlet of the hot water circulating pipe are respectively communicated to an outlet end of the first pipeline pump.

4. The liquid milk sanitizing and feeding system according to claim 1, wherein: the liquid milk disinfection and feeding system is also provided with a second pipeline pump, a liquid outlet of the liquid milk storage tank is connected to an inlet end of the second pipeline pump, and a feed inlet of the liquid milk disinfection tank is connected to an outlet end of the second pipeline pump.

5. The liquid milk sanitizing and feeding system according to claim 1, wherein:

the top of the liquid milk disinfection tank is provided with a steam inlet, a steam outlet and a pressure gauge, a steam pipeline for providing high-temperature steam into the liquid milk disinfection tank is arranged in the liquid milk disinfection tank body, the steam pipeline is communicated with the steam inlet, the steam pipeline is provided with a plurality of steam branch pipelines,

the pressure gauge is used for monitoring the steam pressure in the liquid milk disinfection tank body.

6. The liquid milk sanitizing and feeding system according to claim 1, wherein:

the liquid milk disinfection tank is characterized in that a water inlet, a manhole and a temperature sensor are further arranged on the tank body of the liquid milk disinfection tank, the water inlet is constructed into a water supply pipe capable of being communicated with the outside, and a cleaning ball communicated with the water inlet is arranged in the tank body of the liquid milk disinfection tank.

7. The liquid milk sanitizing and feeding system according to claim 1, wherein: the liquid milk disinfection and feeding system is further provided with a waste liquid discharge pipe, and the waste liquid discharge pipe and the liquid milk shunt pipe are connected to the discharge port through a three-way joint.

8. The liquid milk sanitizing and feeding system according to claim 1, wherein: the nipple components are sequentially spaced by 30 cm.

9. The liquid milk sanitizing and feeding system according to claim 1 or 2, wherein: the hot water circulating pipe and the cold water circulating pipe are the same group of spiral liquid circulating pipes or two groups of independent spiral liquid circulating pipes which are arranged in a staggered mode.

Technical Field

The application belongs to the technical field of animal breeding, concretely relates to liquid milk disinfection and feeding system.

Background

During animal husbandry, young animals are unable to receive a lactating feed from a female animal for a variety of reasons, such as: newly purchased cubs; the female livestock cannot be suckled by the young animals due to the problem of the milk caused by diseases; the milk of the female animals is insufficient. In these cases, the pups need to be breastfed manually.

Generally, the method adopted is to sterilize fresh milk and then use a feeding bottle for nursing, but the method is complicated, the fresh milk needs to be sterilized and then is split into the feeding bottle for nursing, the working efficiency is low, and when the number of cubs needing nursing is large, missing of feeding may occur, and the cubs are poor in physique and even die.

Disclosure of Invention

In order to solve the problems existing in the prior art, the application provides a liquid milk disinfection and feeding system, which comprises a liquid milk storage tank and a liquid milk disinfection tank. Liquid milk disinfection and feeding system still includes cold water jar, hot-water cylinder and a plurality of nipple component, be provided with feed inlet and discharge gate on the liquid milk disinfection jar body, the feed inlet communicates through first liquid milk pipeline the liquid milk holding vessel, the discharge gate is located the bottom of the liquid milk disinfection jar body communicates the liquid milk shunt tubes through second liquid milk pipeline, be provided with a plurality of nipple interfaces on the liquid milk shunt tubes at intervals, every nipple interface has cup jointed a nipple component respectively closely. The periphery wall of liquid milk disinfection jar encircles and is provided with hot water circulating pipe and cold water circulating pipe, the delivery port of hot water jar passes through the inlet tube communicates the hot water circulating pipe, just the delivery port department of hot water jar is provided with the valve and is used for controlling hot water to the flow of hot water circulating pipe, the delivery port of cold water jar communicates through the inlet tube cold water circulating pipe, just the delivery port department of cold water jar is provided with the valve and is used for controlling cold water to the flow of cold water circulating pipe.

Preferably, the hot water circulating pipe and the cold water circulating pipe are spiral liquid circulating pipes arranged around the outer peripheral wall of the liquid milk disinfection tank body, an insulating layer is arranged on the outer side of the outer peripheral wall of the liquid milk disinfection tank body, and the hot water circulating pipe, the cold water circulating pipe and the liquid milk disinfection tank body are wrapped in the insulating layer.

Preferably, a first pipeline pump is further arranged in the liquid milk sterilizing and feeding system, a water outlet of the cold water tank and a water outlet of the hot water tank are respectively connected to an inlet end of the first pipeline pump, and a water inlet of the cold water circulating pipe and a water inlet of the hot water circulating pipe are respectively communicated to an outlet end of the first pipeline pump.

Preferably, a second pipeline pump is further arranged in the liquid milk sterilizing and feeding system, a liquid outlet of the liquid milk storage tank is connected to an inlet end of the second pipeline pump, and a feed inlet of the liquid milk sterilizing tank is connected to an outlet end of the second pipeline pump.

Preferably, the top of the liquid milk disinfection tank is provided with a steam inlet, a steam outlet and a pressure gauge, a steam pipeline used for providing high-temperature steam to the interior of the liquid milk disinfection tank is arranged in the liquid milk disinfection tank, the steam pipeline is communicated with the steam inlet, and the steam pipeline is provided with a plurality of steam branch pipelines. The pressure gauge is used for monitoring the steam pressure in the liquid milk disinfection tank body.

Preferably, a water inlet, a manhole and a temperature sensor are further arranged on the tank body of the liquid milk disinfection tank, the water inlet is constructed to be communicated with an external water supply pipe, and a cleaning ball communicated with the water inlet is arranged in the tank body of the liquid milk disinfection tank.

Preferably, the liquid milk disinfection and feeding system is further provided with a waste liquid discharge pipe, and the waste liquid discharge pipe and the liquid milk shunt pipe are connected to the discharge hole together through a three-way joint.

Preferably, a plurality of said teat members are spaced 30cm apart in sequence.

Preferably, the hot water circulating pipe and the cold water circulating pipe are the same set of spiral type liquid circulating pipes or two sets of independent spiral type liquid circulating pipes arranged in an interlaced manner.

Compared with the prior art, the invention has the advantages of simple structure and convenient operation; the cold water tank, the hot water tank and the cold and hot water circulating belts on the peripheral wall of the liquid milk sterilizing tank are connected, so that the liquid milk sterilizing tank can sterilize and cool the liquid milk in sequence, and a plurality of tanks can be carried out simultaneously in large batch, thereby being more convenient and quicker; thirdly, the liquid milk disinfection tank is directly connected with the rubber nipple structure, so that the animal food can be used as fresher disinfected milk; and fourthly, due to the design of a plurality of rubber nipples, a plurality of animals are allowed to eat simultaneously, the feeding efficiency is improved, and meanwhile, the missing feeding is avoided.

Drawings

FIG. 1 is a schematic diagram of the liquid milk sanitizing and feeding system of the present application.

Detailed Description

To better help understanding of the technical solutions of the present application, the following detailed description of the embodiments of the present application will be made with reference to the accompanying drawings.

The present application provides a liquid milk sanitizing and feeding system that is particularly suited for sanitizing liquid milk prior to batch feeding to animals.

As shown in fig. 1, the liquid milk sterilizing and feeding system mainly comprises: a hot water tank 1, a cold water tank 3, a liquid milk storage tank 4, a liquid milk sanitizing tank 6, and a plurality of teat members 10 for feeding animals.

The liquid milk disinfection tank 6 is provided with a feeding hole and a discharging hole (not shown). The liquid milk storage tank 4 is communicated with the feeding hole of the liquid milk disinfection tank 6 through a first liquid milk conveying pipeline 11. The first milk delivery conduit 11 is provided with a valve for controlling the flow of milk from the milk storage tank 4 to the milk sanitizer tank 6.

The liquid milk disinfection tank 6 preferably uses a vertical tank container, and a feeding hole and a discharging hole are arranged at the bottom of the tank body of the liquid milk disinfection tank 6. The discharge port of the liquid milk disinfection tank 6 is connected with the second liquid milk conveying pipeline 12 and the waste liquid discharge pipe 69 through a three-way joint. The second liquid milk delivery pipeline 12 is communicated with the liquid milk shunt pipe 9. The waste liquid discharge pipe 69 is used for discharging waste such as sewage or contaminated liquid milk generated when the tank body is cleaned.

A plurality of nipple connectors are arranged on two opposite sides of the liquid milk shunt pipe 9 and are distributed at intervals, each nipple connector is respectively and tightly sleeved with a nipple member 10, and the nipple members 10 are sequentially spaced by 30 cm. The teat member 10 may be a rubber teat or a silicone teat and the animal baby sucks the feed milk through the teat member 10.

The outer peripheral wall of the liquid milk disinfection tank 6 is provided with a water circulating pipe 7 in a surrounding way. The water outlet of the hot water tank 1 and the water outlet of the cold water tank 3 are respectively connected with a water inlet pipe through a three-way joint and further communicated with a water circulating pipe 7. The water outlet of the hot water tank 1 is provided with a valve for controlling the flow of hot water to the water circulating pipe 7, and the water outlet of the cold water tank 3 is provided with a valve for controlling the flow of cooling water to the water circulating pipe 7.

The hot water tank 1 and the cold water tank 3 are respectively provided with a circulating water inlet, the two circulating water inlets are respectively connected with a water outlet pipe through a three-way joint and further communicated with a water outlet of the water circulating pipe 7, and hot water or cold water circularly flowing out of the water circulating pipe 7 flows back to the corresponding hot water tank 1 or cold water tank 3 through the water outlet pipe. Valves are provided at the two circulating water inlets for controlling the flow of hot or cold water from the water circulating pipe 7 to the corresponding hot or cold water tank 1 or 3, respectively.

The hot water tank 1 supplies hot water with the temperature of more than 85 ℃ to the water circulating pipe 7, and when the hot water circulates in the water circulating pipe 7, the hot water can heat the liquid milk in the liquid milk sterilizing tank 6 to 62-65 ℃ and keep the temperature for 30 minutes, so that the pasteurization of the liquid milk, especially fresh milk, is realized. After the sterilization and disinfection operation is completed, cooling water is supplied from the cold water tank 3 to the water circulation pipe 7, and the temperature of the milk in the milk disinfection tank 6 is adjusted to a temperature suitable for feeding animals, preferably 34-36 ℃, by circulating the cooling water in the water circulation pipe 7.

The water circulation pipe 7 arranged around the outer peripheral wall of the liquid milk sterilizing tank 6 is preferably a spiral water circulation pipe, and may be a set of spiral circulation pipes shared by hot water circulation and cold water circulation, or may include two sets of independent spiral circulation pipes arranged alternately for respectively performing hot water circulation and cold water circulation. When the water circulating pipe 7 comprises two groups of independent spiral circulating pipes, the water outlets of the two groups of spiral circulating pipes are respectively connected with the water outlet pipe through a three-way joint, and a valve is arranged at each water outlet and used for respectively controlling the communication of the two groups of spiral circulating pipes to the corresponding hot water tank 1 or cold water tank 3.

The liquid milk disinfection and feeding system is also preferably provided with a first pipeline pump 2 and a second pipeline pump 5. The first pipeline pump 2 is used for driving water in the hot water tank 1 or the cold water tank 2 to flow into the water circulation pipe 7 and circularly flow, so that the temperature in the liquid milk disinfection tank 6 is quickly adjusted to realize the disinfection of the liquid milk or the cooling to be suitable for feeding animals. The second pipe pump 5 is used for driving the liquid milk in the liquid milk storage tank 4 to flow into the liquid milk disinfection tank 6.

The water outlet of the hot water tank 1 and the water outlet of the cold water tank 3 are respectively connected to the inlet end of the first pipeline pump 2, and the water inlet of the water circulating pipe 7 is connected to the outlet end of the first pipeline pump 2. The liquid outlet of the liquid milk storage tank 4 is connected to the inlet end of the second pipeline pump 5, and the feed inlet of the liquid milk sterilizing tank 6 is connected to the outlet end of the second pipeline pump 5.

The outer peripheral wall of the liquid milk disinfection tank 6 is provided with a heat preservation layer 8, and the water circulation pipe 7 and the liquid milk disinfection tank 6 are integrally wrapped by the heat preservation layer 8. The liquid milk disinfection and feeding system is also provided with a temperature sensor 13 for monitoring the temperature in the liquid milk disinfection tank 6.

The top of the liquid milk disinfection tank 6 is provided with a steam inlet 61, a steam outlet 64, a pressure gauge 65 and a manhole 66.

A steam pipe 67 connected to the steam inlet 61 is provided in the tank of the liquid milk sterilizing tank 6, and a plurality of steam branch pipes 68 opening in a plurality of directions are provided in the steam pipe 67. Steam from an external source enters the steam pipe 67 from the steam inlet 61, and then enters the liquid milk sterilizing tank 6 from a plurality of different directions through the steam branch pipe 68, thereby sterilizing the inside of the liquid milk sterilizing tank 6. The steam in the liquid milk sterilizing tank 6 is discharged through a steam outlet 64, and a cover member or a valve for blocking the steam outlet 64 from communicating with the outside air is provided.

The pressure gauge 65 is used for monitoring the steam pressure in the tank body of the liquid milk disinfection tank 6. When the pressure in the canister exceeds a threshold value, this can be regulated by opening the steam outlet 64. The manhole 66 is used for the operator to access the inside of the liquid milk sterilizing tank 6 for maintenance and safety inspection.

The liquid milk disinfection tank 6 is also provided with a water inlet 62 on the tank body, the water inlet 62 is constructed to be communicated with an external water supply pipe, and the tank body of the liquid milk disinfection tank 6 is provided with a cleaning ball 63 communicated with the water inlet 62 for cleaning the inner wall of the liquid milk disinfection tank 6.

While the applicant has shown and described in detail certain illustrative embodiments of the invention with reference to the drawings attached hereto, it will be understood by those skilled in the art that the foregoing detailed description is only a preferred embodiment of the invention, and the detailed description is only for the purpose of assisting the reader in better understanding the spirit of the invention, and is not intended to limit the scope of the invention. On the contrary, any improvement or modification made based on the spirit of the present invention should fall within the scope of the present invention.