A system and method for feeding hogs in a hog confinement and cleaning said system, which includes overhead feed distribution pipe, with a boot situated to receive feed from the overhead feed distribution pipe, and a downspout which directs feed to a feeder. A two-piece connector between the boot and the downspout is provided to allow for quick and easy detachment of the downspout from the boot.

One embodiment of the two-piece connector is a hinged connector which, when open, goes around an exterior of an exit port of the boot and around an input end of the downspout. When hinged connector is closed, it retains the downspout to the boot. A latch may be used to keep the hinged connector closed.

In another embodiment, a top connector is coupled to the exit port of boot, in a well known manner such as screws, and a bottom connector is connected to an input end of the downspout in a similar manner. Each of the top and bottom connectors has a flange and either a multiple width slot or a stud with larger head portion thereon for allowing a quick rotation to allow for alignment of the stud with a narrow slot portion to allow for retention.

A scavenging animal deterring feeder assembly may include a feeder support stand including an elevated stand platform. A stand fence having a plurality of spaced-apart, upward-standing fence spikes may be carried by the stand platform. A feed-dispensing wildlife feeder may be carried by the stand platform of the feeder support stand and at least partially enclosed by the stand fence. A feeder retaining assembly may retain the feed-dispensing wildlife feeder on the stand platform.

A feeding apparatus includes a storage chamber, an ejection channel and a discharging adjustment structure. The storage chamber has a discharging hole. The ejection channel communicates with the storage chamber through the discharging hole. The discharging adjustment structure is disposed in the storage chamber and includes a fixing member and a baffle. The fixing member is disposed on a side wall of the storage chamber and is adjacent to the discharging hole. The baffle is movably disposed on the fixing member, and one end of the baffle is adjacent to the discharging hole.

An object supplying assembly includes a storage tank having first and second spaces communicating with each other, a rotating member disposed in the second space and including a recess, a driving module, and a partition board including a partition opening misaligned with the first space. An object can enter the recess from the first space. The rotating member rotates, the object is brought by the rotating member and turns around with the recess. When the recess is aligned with a position of the partition opening, the object is allowed to drop and pass through the partition opening. An object casting assembly includes a housing, an impeller rotatably disposed within the housing and including a plurality of blades, and a driver. Accommodating portions are formed among the blades. When the impeller is driven by the driver and rotates, the accommodating portions face a casting opening of the housing by turns.

The present application belongs to the technical field of pet feeders, in particular to a vacuum feeder. The vacuum feeder comprises a vacuum extractor, a food outlet hose, a seal and drive assembly and an outer barrel provided with a food storage space and an installation space; the vacuum extractor, the food outlet hose and the seal and drive assembly are all installed in the installation space, and the vacuum extractor is used for vacuumizing the food storage space to a vacuum state, the food storage space is communicated with an inlet of the food outlet hose, and the seal and drive assembly is used for pressing and sealing the food outlet hose. According to the application, when the food storage space is in a vacuum state, the food outlet hose is sealed, thus ensuring airtightness, preventing food from being contaminated, ensuring safety of the food and prolonging storage time.

The invention is a dispensing module for use in delivering measured doses of feed supplement to an animal. It comprises a storage container for holding the supplement and a metering module that is rotatably connected to the storage container for dispensing a measured (pre-determined) dose of the supplement. The dispensing module is adapted to be moved between an open configuration and a closed configuration. In the open configuration, the measured dose of the supplement is able to be dispensed out of the dispensing module. In the closed configuration, the measured dose of the supplement is prevented from being be dispensed out of the dispensing module. Compressed air can be used to send the dose to an outlet when the dispensing module is closed.

An animal feeder for use in an electronic animal feeding system comprising a computer controller, a feed storage, a feed delivery system, and at least one feeding station comprising the feeder, a bowl and an identifier, the feeder comprising a reservoir for receiving feed and comprising an agitator for agitating the feed inside the reservoir and a dosage tray, a motor assembly comprising a motor actuatable by the computer controller, the motor rotating the agitator and the dosage tray such that the dosage tray receives a pre-determined dosage of feed from the reservoir, the motor assembly further comprising a detector detecting the rotation of the dosage tray and communicating a rotation status to the computer controller, and a funnel assembly comprising an upper funnel transferring feed from the reservoir to the bowl, wherein an alarm is activatable by the computer controller if a blockage is detected by the detector.

An improved hog/livestock feeder uses a bump cone on a pendulum swivel as opposed to rotary motion. A support structure suspends a feed hopper directly above a feed pan. A bump cone swings with a pendulum motion within a funnel in the hopper. The lower edge of the bump cone is accessible between the open bottom of the hopper and the upper rim of the feed pan, such that when an animal nudges the bump cone, a gap between the hopper funnel and bump cone widens, and feed falls from the hopper and into the feed pan. The device enabling the bump cone to swing a pendulum motion may be a spring, a multi-axis joint, or a length of flexible material. A raised feed diverter structure may extend upwardly from the bottom of the feed pan, and the bump cone may be perforated to further distribute the feed.

A pet monitoring and feeding system including having a dispenser, the dispenser having: a main body; a bowl provided about a base portion of the main body; a cavity configured to selectively receive the bowl; one or more dispenser sensors being configured to provide proximity data regarding environmental or pet parameters about the dispenser; and one or more food receptacles. The system further including a wireless transponder that could worn as a pendant or incorporated into a collar having one or more collar sensors that is configured to interact with the one or more sensors of the dispenser and processing circuitry. The processing circuitry being configured to receive sensor data from both the dispenser sensors and the collar sensors, the processing circuitry being configured to determine an appropriate portion size of a particular food being contained in the one or more food receptacles and activate the dispenser so as to dispense a selectively measured portion of the particular food.

A livestock feeding system comprising a feed tank reservoir, the feed tank reservoir having first and second end panels opposite and parallel to each other and first and second side panels opposite and parallel to each other, the side panels and end panels connected to form a generally rectangular structure for holding animal feed. A feed shelf adjuster mounts to at least one side panel and connects to an adjustable feed shelf. One or more divider panels create individual feeding stalls. Exposed edges of the feeding system components include longitudinally extending double folded safety edges to prevent injury to feeding animals.