A retractable curtain system is provided and includes a curtain support system, a curtain, and a retraction system. The curtain support system includes a pair of outer walls and an upper frame to provide a curtain receiving space. The curtain covers the curtain receiving space and includes a first non-transparent panel and transparent panel connected to the first non-transparent panel. The retraction system is connected to the curtain to lower and raise the transparent panel.

A structure for sheltering and cooling livestock may include a concrete floored barn having an improved evaporative cooling system. The cooling system may include a misting stack having air inlets, a mixing chamber, and three cooling zones wherein the cooling zones correspond to three different temperature ranges. Each of the cooling zones may include a plurality of nozzles which produce a mist. As air passes through the mixing chamber, the mist may evaporate and cool the air. The cooling system may further include a plurality of large exhaust fans located at an end of the barn distal from the misting stack. The fans may draw the cool air through the barn, over and around the livestock, and out of the barn.

In one aspect of a livestock device, the livestock device may be configured with two opposed and corresponding door frames. A neck bar may be engaged with each door frame via an upper extension arm and a lower extension arm. The door frames may be selectively moved between an open and closed position with respect to one another. The neck bars may be selectively moved between a retracted and extended position with respect to the door frames. The livestock device may be configured to secure the position of, restrain, and/or properly orient an animal, and/or to secure the position of, restrain, and/or properly orient a portion of an animal (e.g., its head, neck, etc.) with respect to another portion of the animal.

In a pet door system designed to allow a user to control a pet door to manage access inside and outside of a space, a speaker that plays a first phrase in response to a first trigger. The pet door system comprises at least a sensor, a pet door, and a door opener. The sensor detects a pet entering an area about the pet door in response to the first phrase. The door opener opens a pet door when the sensor detects the pet entering the area about the pet door.

In a pet door system designed to allow a user to control a pet door to manage access inside and outside of a space, a speaker that plays a first phrase in response to a first trigger. The pet door system comprises at least a sensor, a pet door, and a door opener. The sensor detects a pet entering an area about the pet door in response to the first phrase. The door opener opens a pet door when the sensor detects the pet entering the area about the pet door.

A thermal support for animals and method of use thereof is provided. The thermal support comprises a first portion, a strap portion, and a thermal insert. The first portion comprises a flexible fabric configured to conform to at least a portion of the animal. The first portion comprises an opening configured to receive the animal and a shape configured to support the animal when received by the opening. The first portion comprises a pocket configured to contact the animal when received by the opening. The strap portion is configured to enable lifting of the first portion. The thermal insert is configured to be heated and/or cooled. The thermal insert is removably positioned in the pocket of the first portion such that the thermal insert can transfer heat to or from the animal when received by the opening and when heated and/or cooled.

A henhouse includes a gable, a sidewall, and a roof. An inner chamber parallel to the sidewall is provided in the middle of the henhouse. The inner chamber includes an inner wall parallel to the sidewall and an inner roof. A partition is provided between the sidewall and the inner wall. An air inlet plate is provided between the two inner walls located below the inner roof. A pressure chamber is formed between the inner roof and the air inlet plate. A premixing chamber is formed between the inner roof and the roof. A plurality of fans and air inlet windows are uniformly provided on the inner roof. A plurality of air inlet holes and small inlet windows are uniformly provided on the air inlet plate. A plurality of wet curtains and an air vent are provided on the sidewall. A plurality of air outlet slots are uniformly provided on the inner wall.

A durable feral cat shelter adapted to be inviting to feral cats year-round by having two entrances/exits for each compartment or sub-compartment, wherein each entrance/exit has a conduit of a predefined cross-section that protrudes a predefined length from the body of the shelter, thereby inviting feral cats while deterring most would be predators of the feral cats. Two or more feral cat shelters can be connected by a coupler that allows access to the connected plurality of feral cat shelters.

A single-piece containerboard blank (7) is provided having hingedly-connected first (8), second (9), third (10) and fourth (11) side walls, in which the first side wall is long enough in length to be folded back over the entire structure and function as a roof (6). This side wall includes hingedly-connected sections and slots (1) cutouts for tabs to insert into. The first side wall also has hingedly-connected sections (5) and creases to allow easy folding (3). The third wall includes a hole (2) to function as a door. The second and third side walls include tabs (4) that can be used to fit into the slots located on the first side wall.

A trap for large animals. The system utilizes multi-containment areas for improved efficiency in herd animal trapping. The outer containment zone of the system is designed in such a way to promote animals further into the inner containment zone. The improved efficiency lowers overall cost of trap operation in terms of time, consumable bait replenishment and number of attempts on target animal groups. The system allows for independent and remote actuation of containment zone gates. Data is transmitted to a remote user and remote actuation of attracting or deterring audio can be done during trapping process. The architecture of the trap dissuades animals capable of jumping from doing so over the containment walls.