CN216018457U - Feeding and disinfecting system for livestock breeding - Google Patents

Abstract

The utility model discloses a feeding and sterilizing system for livestock breeding, which comprises a storage device, a stirring tank, a conveying device, an automatic drinking bowl, a trough and a sterilizing device, wherein the storage device comprises a feed storage tank and a drinking water storage tank, the conveying device comprises a feed conveying pipe and a drinking water conveying pipe, the sterilizing device comprises a disinfectant storage tank, the water storage tank is used in the disinfection, the antiseptic solution tank of joining in marriage in advance, antiseptic solution conveyer pipe and disinfection spray tube, automatic water bowl, trough and disinfection spray tube all are located breed the house, fodder storage tank and drinking water storage tank are linked together through pipeline and agitator tank respectively, the both ends of fodder conveyer pipe are linked together with agitator tank and trough respectively, the both ends of drinking water conveyer pipe are linked together with drinking water storage tank and automatic water bowl respectively, antiseptic solution tank of joining in advance is linked together through pipeline and antiseptic storage tank and disinfection water storage tank, the both ends of antiseptic solution conveyer pipe are linked together with antiseptic solution tank of joining in advance and disinfection spray tube respectively.

Description

Feeding and disinfecting system for livestock breeding

Technical Field

The utility model relates to the technical field of livestock breeding, in particular to a feeding and disinfecting system for livestock breeding.

Background

Animal husbandry is a production department which uses animals, such as livestock and poultry, domesticated by human beings to convert pasture, feed and other plants into animal energy through artificial feeding and breeding so as to obtain animal products, such as meat, eggs, milk, wool, cashmere, leather and the like, and is different from self-sufficient livestock feeding. The main characteristics of animal husbandry are centralization, scale production and production purpose of profit. Animal husbandry is an extremely important link for exchanging substances between human beings and the nature, and in the production process of animal husbandry, a feeding device is needed to be used for feeding animals.

The feed is the most important work in livestock breeding, and the feed is put in by adopting manual carrying, so that the feeding speed and other requirements of animals cannot be met, and meanwhile, a large amount of waste is easily caused in the carrying process, and a large amount of manpower and material resources are wasted. The traditional feeding device is low in automation degree, feed is difficult to be processed and distributed well, feeding difficulty of animals is increased, cost is increased, working efficiency is reduced, and various inconveniences are brought to feeders. In the process of livestock breeding, the disinfection of the breeding environment is extremely important, the growth of animals can be seriously influenced due to poor breeding environment conditions, and great economic loss is caused. Therefore, it is necessary to develop a feeding and sterilizing system suitable for livestock breeding, which is convenient for feeding animals, sterilizing the breeding environment, saving manpower and material resources and avoiding waste.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a feeding and disinfecting system for livestock breeding.

According to one aspect of the utility model, a feeding and disinfecting system for livestock breeding is provided, which comprises a storage device, a stirring tank, a conveying device, an automatic drinking bowl, a trough and a disinfecting device, wherein the storage device comprises a feed storage tank and a drinking water storage tank, the conveying device comprises a feed conveying pipe and a drinking water conveying pipe, the disinfecting device comprises a disinfectant storage tank, a disinfecting water storage tank, a disinfectant pre-preparation tank, a disinfectant conveying pipe and a disinfecting spray pipe, the feed storage tank, the drinking water storage tank and the stirring tank are all arranged on the left side of the breeding house, the automatic drinking bowl, the trough and the disinfecting spray pipe are all positioned in the breeding house, the feed storage tank and the drinking water storage tank are respectively communicated with the stirring tank through pipelines, one end of the feed conveying pipe penetrates through the breeding house and is communicated with the stirring tank, the other end of the feed conveying pipe is communicated with the trough, one end of the drinking water conveying pipe is communicated with the drinking water storage tank, the other end of the drinking water conveying pipe is communicated with the automatic drinking bowl, disinfectant storage tank, disinfection water storage tank and antiseptic solution are joined in marriage jar in advance and are all installed in breeding the house right side, and antiseptic solution is joined in marriage jar in advance and is linked together through pipeline and disinfectant storage tank and disinfection water storage tank, and the one end of antiseptic solution conveyer pipe is passed and is bred the house and is linked together with the bottom that antiseptic solution joined in marriage the jar in advance, and the other end is linked together with the disinfection spray tube.

The utility model has the beneficial effects that: according to the automatic water drinking device, the storage device, the stirring tank, the conveying device, the automatic water drinking bowl, the trough and the sterilizing device are arranged, so that the feed is made into liquid material and is conveyed through the pipeline, the feed is automatically processed and distributed, the animal is conveniently fed, manpower and material resources are saved, and waste is avoided. The independent drinking water conveying pipe and the automatic drinking bowl are arranged to separate drinking water from food, so that the drinking water and food taking safety of animals are ensured; set up degassing unit simultaneously, be convenient for carry out the spraying disinfection through the disinfection spray tube and handle breeding the house internal environment, improve the security of animal feeding environment, reduce the disease rate of animal.

In some embodiments, the utility model further comprises a control device, the control device comprises a weight sensor, a discharge valve, a first flow valve, a second flow valve and a controller, the weight sensor is installed at the bottom of the feed storage tank, one end of the discharge valve is communicated with the feed storage tank through a pipeline, the other end of the discharge valve is communicated with the top of the stirring tank through a pipeline, one end of the first flow valve is communicated with the bottom of the water storage tank through a pipeline, the other end of the first flow valve is communicated with the top of the stirring tank through a pipeline, one end of the second flow valve is communicated with the bottom of the water storage tank through a pipeline, the other end of the second flow valve is communicated with the drinking water delivery pipe through a pipeline, and the controller is respectively connected with the weight sensor, the discharge valve, the first flow valve and the second flow valve in a signal connection mode. Through setting up controlling means, realize automatic unloading and flow control, realize automatic batching, feed, use manpower sparingly, it is extravagant to reduce, and the batching is more accurate. The controller is used for receiving the monitoring data of the weight sensor to the fodder weight in the fodder storage tank for open and close of control first flow valve, second flow valve and bleeder valve.

In some embodiments, the control device further comprises a stirring tank liquid level meter, a stirring tank discharge valve and a first motor, a first stirrer is arranged in the stirring tank, the first motor is installed at the top of the stirring tank, one end of the first stirrer is connected with an output end shaft of the first motor, the stirring tank liquid level meter extends into the stirring tank, one end of the stirring tank discharge valve is communicated with the stirring tank through a pipeline, the other end of the stirring tank discharge valve is communicated with the feed conveying pipe, the controller is electrically connected with the first motor, and the controller is in signal connection with the stirring tank liquid level meter and the stirring tank discharge valve. The agitator tank level gauge is used for monitoring the liquid level height of liquid material in the agitator tank, and the agitator tank bleeder valve is used for controlling the ejection of compact of liquid material in the agitator tank, and first motor is used for driving first agitator and is used for stirring the liquid material in the agitator tank. The controller is used for receiving monitoring data of the stirring tank liquid level meter on the liquid level, driving the first motor to start and controlling the opening and closing of the discharging valve of the stirring tank.

In some embodiments, the control device further comprises a disinfectant storage tank level meter, a third flow valve, a fourth flow valve, a second motor and a disinfectant flow valve, wherein the disinfectant storage tank level meter is installed in the disinfectant storage tank, one end of the third flow valve is communicated with the bottom of the disinfectant storage tank through a pipeline, the other end of the third flow valve is communicated with the disinfectant pre-distribution tank through a pipeline, one end of the fourth flow valve is communicated with the bottom of the disinfectant water storage tank through a pipeline, the other end of the fourth flow valve is communicated with the disinfectant pre-distribution tank through a pipeline, a second stirrer is arranged in the disinfectant pre-distribution tank, the second motor is installed at the top of the disinfectant pre-distribution tank, an output shaft of the second motor is axially connected with the second stirrer, the disinfectant flow valve is installed at the bottom of the disinfectant pre-distribution tank and is communicated with the disinfectant conveying pipe, and the controller is respectively connected with the disinfectant storage tank level meter, the third flow valve, the fourth flow valve and the disinfectant flow valve in a signal mode, the controller is electrically connected with the second motor. The disinfectant pre-preparation tank liquid level meter is used for monitoring the liquid level height of disinfectant in the disinfectant pre-preparation tank, the third flow valve is used for controlling the addition amount of the disinfectant in the disinfectant pre-preparation tank, the fourth flow valve is used for controlling the addition amount of disinfection water, and the second motor is used for driving the second stirrer to stir the disinfectant in the disinfectant pre-preparation tank so as to accelerate the dilution of the disinfectant. The disinfectant flow valve is used for controlling the discharge of the disinfectant in the disinfectant pre-preparation tank. The controller is used for receiving monitoring data of the disinfectant storage tank liquid level meter on the disinfectant liquid level, driving the second motor to start, and controlling the opening and closing of the third flow valve, the fourth flow valve and the disinfectant flow valve.

In some embodiments, the present invention further comprises a plurality of ultraviolet disinfection lamps, wherein the ultraviolet disinfection lamps are mounted on the disinfectant delivery pipe, one ultraviolet disinfection lamp is disposed between two adjacent disinfection nozzles, and the plurality of ultraviolet disinfection lamps are electrically connected to the controller. The ultraviolet disinfection lamp is installed on the antiseptic solution conveyer pipe, and after the animal left the breed house, the controller was opened the ultraviolet disinfection lamp for carry out ultraviolet ray disinfection to breeding the house. Two disinfection modes of ultraviolet disinfection and disinfectant disinfection are adopted, so that the breeding house is disinfected more thoroughly.

In some embodiments, the utility model further comprises a plurality of baiting valves, one end of each baiting valve is communicated with the feed conveying pipe, the other end of each baiting valve is communicated with the trough, the plurality of baiting valves are arranged in a plurality of the baiting valves, the plurality of baiting valves are communicated with the plurality of troughs in a one-to-one correspondence manner, the plurality of troughs are uniformly distributed below the feed conveying pipe, the other ends of the plurality of automatic drinking water bowls are distributed in a plurality of automatic drinking water bowls, the plurality of automatic drinking water bowls are uniformly distributed on the drinking water conveying pipe and communicated with the drinking water conveying pipe, the feed conveying pipe is sequentially provided with a liquid discharge valve, a liquid discharge pipe and an air supply valve at the terminal, the liquid discharge valve is positioned in front of the air supply valve, the liquid discharge pipe is communicated with the feed conveying pipe through the liquid discharge valve, the drinking water conveying pipe is sequentially provided with the liquid discharge valve, the liquid discharge pipe is positioned in front of the air supply valve, and communicated with the drinking water conveying pipe through the liquid discharge valve, the air supply valve and the plurality of blanking valves are in signal connection with the controller. The trough is used for holding the liquid material of carrying in the fodder conveyer pipe, and what of liquid material in every trough of unloading valve control, automatic drinking water bowl be convenient for the animal and drink water, and the blast valve door is used for controlling hot-blast entering fodder conveyer pipe and drinking water conveyer pipe, carries out drying process to fodder conveyer pipe and drinking water conveyer pipe after wasing. The liquid discharge valve and the liquid discharge pipe are used for discharging liquid for cleaning the drinking water conveying pipeline and the feed conveying pipeline.

In some embodiments, the present invention further includes a pipeline drying device, the pipeline drying device includes two air heaters and two hot air delivery pipelines, the two air heaters are installed outside the breeding house, one end of each of the two hot air delivery pipelines is respectively communicated with the two air heaters in a one-to-one correspondence manner, the other end of each of the two hot air delivery pipelines is respectively communicated with the air supply valve of the feed delivery pipeline and the air supply valve of the drinking water delivery pipeline in a one-to-one correspondence manner, and the air heaters are electrically connected to the controller. The air heater is used for generating hot air, the hot air conveying pipeline is used for conveying the hot air to the air supply valve, the air supply valve is opened by the controller, the hot air is conveyed into the cleaned feed conveying pipe and the cleaned drinking water conveying pipe, and the feed conveying pipe and the drinking water conveying pipe are subjected to drying treatment.

In some embodiments, the storage device further comprises a dosing tank, and the bottom of the dosing tank is communicated with the top of the stirring tank through a pipeline. According to the needs of animal breeding, supplements which are beneficial to the growth and reproduction of animals, such as medicines, trace elements, vitamins and the like, are added into the stirring tank through the medicine adding tank.

Drawings

Fig. 1 is a schematic structural diagram of a feeding and disinfecting system for livestock breeding according to an embodiment of the utility model.

Fig. 2 is a block diagram of a feeding and disinfecting system for livestock breeding according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a stirring tank and a stirring tank liquid level meter of a feeding and disinfecting system for livestock breeding according to an embodiment of the utility model.

Fig. 4 is a schematic structural diagram of a disinfectant pre-blending tank and a disinfectant pre-blending tank liquid level meter of a feeding and disinfecting system for livestock breeding according to an embodiment of the utility model.

Detailed Description

The present invention will be described in further detail with reference to examples.

Referring to fig. 1 to 4, the utility model provides a feeding and sterilizing system for livestock breeding, which comprises a storage device 1, a stirring tank 2, a conveying device 3, an automatic drinking bowl 4, a trough 5, a sterilizing device 6, a control device 7, a pipeline drying device 8, a medicine adding tank 9, an ultraviolet sterilizing lamp 10 and a discharging valve 103.

Storage device 1 includes feed storage tank 11, drinking water storage tank 12 and dosing tank 13, and conveyor 3 includes feed delivery pipe 31 and drinking water delivery pipe 32, and degassing unit 6 includes disinfectant storage tank 61, disinfection water storage tank 62, antiseptic solution tank 63, antiseptic solution conveyer pipe 64 and disinfection spray tube 65 of preassembling. The control device 7 comprises a weight sensor 71, a discharge valve 72, a first flow valve 73, a second flow valve 74, a controller 75, a stirring tank liquid level meter 76, a stirring tank discharge valve 77, a first motor 78, a disinfectant pre-preparation tank liquid level meter 79, a third flow valve 70, a fourth flow valve 703, a second motor 701 and a disinfectant flow valve 702.

The feed storage tank 11, the drinking water storage tank 12, the medicine adding tank 13 and the stirring tank 2 are all installed on the left side of the breeding house 101. The automatic drinking bowl 4, the trough 5 and the disinfection nozzle 65 are all located in the breeding house 101.

The weight sensor 71 is arranged at the bottom of the feed storage tank 11, one end of the discharge valve 72 is communicated with the feed storage tank 11 through a pipeline, and the other end of the discharge valve is communicated with the top of the stirring tank 2 through a pipeline. The medicine adding tank 13 is communicated with the top end of the stirring tank 2 through a pipeline. One end of the first flow valve 73 is communicated with the bottom of the drinking water storage tank 12 through a pipeline, and the other end is communicated with the top of the stirring tank 2 through a pipeline.

Be equipped with first agitator 21 in agitator tank 2, first motor 78 is installed in agitator tank 2 top, and the output end hub connection of one end and first motor 78 of first agitator 21. The agitator tank level gauge 76 extends into the agitator tank 2, one end of an agitator tank discharge valve 77 is communicated with the agitator tank 2 through a pipeline, and the other end is communicated with the feed conveying pipe 31. The feed delivery pipe 31 is in communication with the plurality of troughs 5 through a plurality of discharge valves 103. The plurality of blanking valves 103 are in one-to-one correspondence communication with the plurality of mangers 5. A plurality of mangers 5 evenly distributed are in fodder conveyer pipe 31 below, and manger 5 can hang on fodder conveyer pipe 31 through hanging the rope, or install subaerial. The feed conveying pipe 31 is provided with a drain valve 104, a drain pipe 105 and an air supply valve 102 in sequence at the terminal, the drain valve 104 is positioned in front of the air supply valve 102, and the drain pipe 105 is communicated with the feed conveying pipe 31 through the drain valve 104.

One end of the second flow valve 74 is connected to the bottom of the drinking water storage tank 12 through a pipe, and the other end is connected to the drinking water supply pipe 32 through a pipe. The drinking water delivery pipe 32 is in communication with a plurality of automatic drinking bowls 4. A plurality of automatic drinking bowls 4 are evenly distributed on the drinking water delivery pipe 32. The drinking water delivery pipe 32 is sequentially provided with a drain valve 104, a drain pipe 105 and an air supply valve 102 at the terminal, the drain valve 104 is positioned in front of the air supply valve, and the drain pipe 105 is communicated with the drinking water delivery pipe 32 through the drain valve 104.

The disinfectant storage tank 61, the disinfection water storage tank 62 and the disinfectant pre-preparation tank 63 are all arranged on the right side of the breeding house 101. One end of the third flow valve 70 is communicated with the bottom of the disinfectant storage tank 61 through a pipeline, and the other end is communicated with the top of the disinfectant pre-preparation tank 63 through a pipeline. One end of the fourth flow valve 703 is communicated with the bottom of the storage tank 62 for disinfectant through a pipeline, and the other end is communicated with the top of the disinfectant pre-preparation tank 63 through a pipeline.

The disinfectant pre-preparation tank liquid level meter 79 is arranged in the disinfectant pre-preparation tank 63, a second stirrer 631 is arranged in the disinfectant pre-preparation tank 63, the second motor 701 is arranged at the top of the disinfectant pre-preparation tank 63, and an output shaft of the second motor 701 is in shaft connection with the second stirrer 631. The disinfectant flow valve 702 is installed at the bottom of the disinfectant pre-preparation tank 63 and is communicated with the disinfectant delivery pipe 64. One end of the disinfectant conveying pipe 64 passes through the breeding house 101 and is communicated with the disinfection spray pipe 65.

The disinfection spray pipe 65 comprises a drawable stainless steel hose and a spray head 651, one end of the drawable stainless steel hose is communicated with the disinfectant conveying pipe 63 through an adapter, and the other end of the drawable stainless steel hose is communicated with the spray head 651. The disinfection spray pipe 65 can be drawn out, the spray head switch is opened, and the disinfection liquid is sprayed into the breeding house through the spray head 651, so that the breeding house is disinfected.

The ultraviolet ray disinfection lamp 10 is a plurality of, and a plurality of ultraviolet ray disinfection lamps 10 are installed on antiseptic solution conveyer pipe 64, and disinfection spray tube 65 is a plurality of, is provided with an ultraviolet ray disinfection lamp 10 between two adjacent disinfection spray tubes 65.

The pipeline drying device 8 comprises two hot air blowers 81 and two hot air conveying pipelines 82, the two hot air conveying pipelines 82 are arranged outside the breeding house 101, one ends of the two hot air conveying pipelines 82 are respectively communicated with the two hot air blowers 81 in a one-to-one correspondence manner, and the other ends of the two hot air conveying pipelines 82 are respectively communicated with the air supply valve 102 of the feed conveying pipe 31 and the air supply valve 102 of the drinking water conveying pipe 32 in a one-to-one correspondence manner.

The controller 75 is in signal connection with a weight sensor 71, a discharge valve 72, a first flow valve 73, a second flow valve 74, a stirred tank level gauge 76, a stirred tank discharge valve 77, a disinfectant pre-tank level gauge 79, a third flow valve 70, a fourth flow valve 703, a disinfectant flow valve 702, a blow valve 102, and a plurality of discharge valves 103, respectively. The controller 75 is electrically connected to the first motor 78, the second motor 701, the hot air blower 81 and the ultraviolet ray sterilizing lamp 10, respectively.

When the feed storage tank is used, sufficient feed is added into the feed storage tank 11, sufficient drinking water and sufficient sterilizing water are respectively added into the drinking water storage tank 12 and the sterilizing water storage tank 62, and sufficient disinfectant is added into the disinfectant storage tank 61. The weight of the feed which is fed into the stirring tank 2 every time through the discharge valve 72 is set through the controller 75, the amount of the water which is fed into the stirring tank 2 every time through the first flow valve 73 is set through the controller 75, the disinfectant amount which is fed into the disinfectant pre-preparation tank 63 every time through the third flow valve 70 is set through the controller 75, the disinfection water amount which is fed into the disinfectant pre-preparation tank 63 every time through the fourth flow valve 703 is set through the controller 75, and the liquid feed amount which is fed into the food tank 5 is controlled through the opening duration of the feed valve 103 every time through the controller 75. Through controller 75, open bleeder valve 72, weighing sensor 71 monitors fodder weight in the fodder storage tank 11, when the fodder of throwing in to agitator tank 2 reaches the default, controller 75 receives weighing sensor 71's signal, send closing signal to bleeder valve 72, close bleeder valve 72, controller 75 opens first flow valve 73, add water in to agitator tank 2, when the water yield of joining reaches the default, controller 75 receives first flow valve 73's signal, send closing signal to first flow valve 73, close first flow valve 73. The controller 75 starts the first motor 78, and the first motor 78 drives the first stirrer 21 to stir the feed and the water in the stirring tank 2 to prepare the liquid material. After the liquid material is prepared, the controller 75 opens the discharge valve 77 of the stirring tank, and the liquid material flows out through the stirring tank 2 and flows into the feed conveying pipe 31 through the discharge valve 77 of the stirring tank. The controller 75 opens the plurality of discharge valves 103, and the liquid material passes through the plurality of discharge valves 103 in sequence along the feed transfer pipe 31 and flows out into the trough 5 through the discharge valves 103. The animals eat the liquid food through the feeding trough 5. The second flow valve 74 is a normally open valve, and drinking water flows into the drinking water delivery pipe 32 through the second flow valve 74 and then flows through the plurality of automatic drinking bowls 4, and animals drink water through the automatic drinking bowls 4. According to the growth and reproduction requirements of animals, supplements such as medicines, trace elements and vitamins can be added into the medicine adding tank 13, the added supplements directly enter the stirring tank 2 through the medicine adding tank 13 and enter the food trough 5 along with liquid materials, and then are eaten by the animals.

The controller 75 opens the third flow valve 70 and the fourth flow valve 703, and the disinfectant in the disinfectant storage tank 61 flows into the disinfectant pre-preparation tank 63 through the third flow valve 70, and the sterilizing water in the sterilizing water storage tank 62 flows into the sterilizing pre-preparation tank 63 through the fourth flow valve 703. The controller 75 starts the second motor 701 to drive the second stirrer 631 to stir the disinfectant and the water for disinfection to prepare the disinfectant. The controller 75 opens the disinfectant flow valve 702 and disinfectant flows from the disinfectant pre-dispense tank 63 into the disinfectant delivery line 64 and then through the plurality of disinfection nozzles 65. When needing to disinfect to breeding house 101, catch up the animal out of breeding house, pull out shower nozzle 651, open the shower nozzle switch, the handheld shower nozzle 651 of staff carries out the antiseptic solution to breeding house 101 and sprays the disinfection. The disinfectant pre-tank level meter 79 monitors the disinfectant level in the disinfectant pre-tank 63, and when the disinfectant level is low, the controller 75 sends a sound prompt to the staff. The worker closes the spray head 651, opens the first flow valve 73 and the second flow valve 74 through the controller 75, replenishes the disinfectant and the water for disinfection into the disinfectant pre-preparation tank 63, prepares a new disinfectant, and then continues the disinfection process.

When the spraying disinfection is not needed, when the animals leave the breeding house 101, the controller 75 controls the ultraviolet disinfection lamp 10 to be turned on and off at regular time, and the breeding house 101 is disinfected by ultraviolet rays through the ultraviolet disinfection lamp 10.

When the drinking water delivery pipe 32 needs to be cleaned, disinfectant is added into the drinking water storage tank 12, the disinfectant disinfects the drinking water storage tank 12 and the drinking water delivery pipe 32, and after disinfection is finished, the liquid discharge valve 104 is opened, and the disinfectant is discharged through the liquid discharge pipe 105. When the fodder conveying pipe 32 needs to be cleaned, the fodder storage tank 11 and the medicine adding tank 13 are emptied, disinfectant is added into the fodder storage tank 11 or the medicine adding tank 13, the discharge valve 72 and the discharge valve 77 of the stirring tank are opened by the controller 75, the fodder storage tank 11, the medicine adding tank 13, the stirring tank 2 and the fodder conveying pipe 31 are disinfected by the disinfectant, after disinfection is finished, the liquid discharge valve 104 is opened, and the disinfectant is discharged through the liquid discharge pipe 105. After the disinfectant is discharged, the drain valve 104 is closed. The hot air blower 81 is turned on, the controller 75 turns on the air supply valve 102, and the hot air delivery pipe 82 blows the hot air blown by the hot air blower 81 in the reverse direction along the feed delivery pipe 31 and the drinking water delivery pipe 32 through the air supply valve 102, so as to dry the sterilizing and cleaning equipment. After the drying process is completed, the blower valve 102 is closed by the controller 75.

The above description is only for the embodiments of the present invention, and it is obvious to those skilled in the art that various changes and modifications can be made without departing from the inventive concept of the present invention, and these changes and modifications are all within the scope of the present invention.

Claims (8)

1. A feeding and disinfecting system for livestock breeding is characterized by comprising a storage device, a stirring tank, a conveying device, an automatic drinking bowl, a trough and a disinfecting device, wherein the storage device comprises a feed storage tank and a drinking water storage tank, the conveying device comprises a feed conveying pipe and a drinking water conveying pipe, the disinfecting device comprises a disinfectant storage tank, a disinfecting water storage tank, a disinfectant pre-preparation tank, a disinfectant conveying pipe and a disinfecting spray pipe, the feed storage tank, the drinking water storage tank and the stirring tank are all arranged on the left side of the breeding house, the automatic drinking bowl, the trough and the disinfecting spray pipe are all located in the breeding house, the feed storage tank and the drinking water storage tank are respectively communicated with the stirring tank through pipelines, one end of the feed conveying pipe penetrates through the breeding house and is communicated with the stirring tank, the other end of the feed conveying pipe is communicated with the trough, one end of the drinking water conveying pipe is communicated with the drinking water storage tank, the other end of the disinfectant conveying pipe penetrates through the breeding house and is communicated with the bottom of the disinfectant pre-preparation tank, and the other end of the disinfectant conveying pipe is communicated with the disinfection spray pipe.

2. The feeding and disinfecting system for livestock breeding of claim 1, further comprising a control device, the control device comprises a weight sensor, a discharge valve, a first flow valve, a second flow valve and a controller, the weight sensor is arranged at the bottom of the feed storage tank, one end of the discharge valve is communicated with the feed storage tank through a pipeline, the other end of the discharge valve is communicated with the top of the stirring tank through a pipeline, one end of the first flow valve is communicated with the bottom of the water storage tank through a pipeline, the other end of the first flow valve is communicated with the top of the stirring tank through a pipeline, one end of the second flow valve is communicated with the bottom of the water storage tank through a pipeline, the other end of the second flow valve is communicated with the drinking water delivery pipe through a pipeline, the controller is respectively connected with the weight sensor, the discharge valve, the first flow valve and the second flow valve in a signal mode.

3. The feeding and disinfecting system for livestock breeding of claim 2, wherein the control device further comprises a stirring tank level meter, a stirring tank discharge valve and a first motor, wherein a first stirrer is arranged in the stirring tank, the first motor is installed at the top of the stirring tank, one end of the first stirrer is connected with the output end of the first motor through a shaft, the stirring tank level meter extends into the stirring tank, one end of the stirring tank discharge valve is communicated with the stirring tank through a pipeline, the other end of the stirring tank discharge valve is communicated with the feed conveying pipe, the controller is electrically connected with the first motor, and the controller is connected with the stirring tank level meter and the stirring tank discharge valve in a signal mode.

4. The feeding and disinfecting system for livestock-raising according to claim 3, wherein the control device further comprises a disinfectant pre-blending tank level meter, a third flow valve, a fourth flow valve, a second motor and a disinfectant flow valve, the disinfectant pre-blending tank level meter is installed in the disinfectant pre-blending tank, one end of the third flow valve is communicated with the bottom of the disinfectant storage tank through a pipeline, the other end of the third flow valve is communicated with the disinfectant pre-blending tank through a pipeline, one end of the fourth flow valve is communicated with the bottom of the disinfectant storage tank through a pipeline, the other end of the fourth flow valve is communicated with the disinfectant pre-blending tank through a pipeline, a second stirrer is arranged in the disinfectant pre-blending tank, the second motor is installed at the top of the disinfectant pre-blending tank, and an output shaft of the second motor is axially connected with the second stirrer, the disinfectant flow valve install in disinfectant pre-prepared tank bottoms portion, and with the disinfectant conveyer pipe is linked together, the controller respectively with disinfectant storage tank level gauge, third flow valve, fourth flow valve and disinfectant flow valve phase signal connection, the controller with the second motor is connected mutually electrically.

5. The feeding and disinfecting system for livestock-raising according to claim 2, further comprising a plurality of ultraviolet disinfection lamps, wherein the ultraviolet disinfection lamps are mounted on the disinfectant conveying pipe, one ultraviolet disinfection lamp is arranged between two adjacent disinfection nozzles, and the plurality of ultraviolet disinfection lamps are electrically connected with the controller.

6. The feeding and disinfecting system for livestock breeding according to claim 2, further comprising a plurality of baiting valves, wherein one end of each baiting valve is communicated with the feed conveying pipe, the other end of each baiting valve is communicated with the trough, the plurality of troughs are communicated with the trough, the plurality of baiting valves are communicated with the plurality of troughs in a one-to-one correspondence manner, the plurality of troughs are uniformly distributed below the feed conveying pipe, the plurality of automatic drinking bowls are uniformly distributed on the drinking water conveying pipe and communicated with the drinking water conveying pipe, the feed conveying pipe is sequentially provided with a drain valve, a drain pipe and an air supply valve at the end, the drain valve is positioned in front of the air supply valve, the drain pipe is communicated with the feed conveying pipe through the drain valve, and the drinking water conveying pipe is sequentially provided with a drain valve, a drain valve and a drain valve at the end, The drainage pipe is positioned in front of the air supply valve, the drainage pipe is communicated with the drinking water conveying pipe through the drainage valve, and the air supply valve and the plurality of blanking valves are in signal connection with the controller.

7. The feeding and disinfecting system for livestock-raising according to claim 6, further comprising a pipeline drying device, wherein the pipeline drying device comprises two air heaters and two hot air conveying pipelines, the two air heaters are installed outside a breeding house, one end of each of the two hot air conveying pipelines is communicated with the two air heaters in a one-to-one correspondence manner, the other end of each of the two hot air conveying pipelines is communicated with the air supply valve of the feed conveying pipeline and the air supply valve of the drinking water conveying pipeline in a one-to-one correspondence manner, and the air heaters are electrically connected with the controller.

8. The feeding and disinfecting system for livestock breeding of claim 1, wherein the storage device further comprises a dosing tank, the bottom of which is communicated with the top of the stirring tank through a pipeline.

Images