The present application relates to crystalline solid forms of an inhibitor of BET proteins such as BRD2, BRD3, BRD4, and BRD-t, including methods of preparation thereof, and intermediates in the preparation thereof, where the compound is useful in the treatment of diseases such as cancer.

A rotary auger support stand for mounting and removably holding a articles or devices upright on the ground. The stand includes an upright rod with a helical coil or flights forming an auger base having a point at the lower distal end to be fixedly and removably screwed into the ground to support the stand in an upright position. The top end of the rod forming the stand body defines an S-shaped loop configured, sized and shaped and disposed at a selected angle to support an article thereon. The top adapter is capable of supporting a decorative element, sign, target, or other element. An S-shaped handle is formed integrally within the support shaft longitudinal member extending from the auger.

A mechanical waterfowl decoy to be used in water. It has a buoyant body and a motor that rotates a paddlewheel in a circular manner which can provide propulsion and water disturbance for the decoy and can give the appearance of a duck swimming, splashing, and moving its head.

A mechanical waterfowl decoy to be used in water. It has a buoyant body and a motor that rotates a paddlewheel in a circular manner which can provide propulsion and water disturbance for the decoy and can give the appearance of a duck swimming, splashing, and moving its head.

An automatic wireless decoy jerk string system is disclosed. The system includes a main housing, a drive housing, and a flotation housing. The main housing contains a retractable reel wound with a line. The drive housing contains a direct current motor, a battery for powering the motor, and a wireless receiver. The flotation housing contains a counterweight and flotation material. The drive housing and the flotation housing are attached to either side of the main housing. A drive shaft runs from the drive housing through the main housing and into the flotation housing. The motor engages the drive shaft to operate the reel. The motor is controlled by signals from the receiver in response to a wireless signal received by the receiver from a remote control to cause the reel to alternatingly retract the line and let out the line.

An automatic wireless decoy jerk string system is disclosed. The system includes a main housing, a drive housing, and a flotation housing. The main housing contains a retractable reel wound with a line. The drive housing contains a direct current motor, a battery for powering the motor, and a wireless receiver. The flotation housing contains a counterweight and flotation material. The drive housing and the flotation housing are attached to either side of the main housing. A drive shaft runs from the drive housing through the main housing and into the flotation housing. The motor engages the drive shaft to operate the reel. The motor is controlled by signals from the receiver in response to a wireless signal received by the receiver from a remote control to cause the reel to alternatingly retract the line and let out the line.

A motion decoy having a body and wings in the form of a waterfowl provides a realistic biaxial wing beat motion. The wing beat motion simultaneously includes a flapping action and a rotation action. The flapping action can sweep through an obtuse angle, while at the same time the rotating action that changes the angle of incidence of the wings at different angular positions. The compound biaxial wing beat motion better replicates the motion of live waterfowl, especially during the “lighting” phase of flight.

A motion decoy having a body and wings in the form of a waterfowl provides a realistic biaxial wing beat motion. The wing beat motion simultaneously includes a flapping action and a rotation action. The flapping action can sweep through an obtuse angle, while at the same time the rotating action that changes the angle of incidence of the wings at different angular positions. The compound biaxial wing beat motion better replicates the motion of live waterfowl, especially during the “lighting” phase of flight.

An animal attracting system and method is disclosed. The animal attracting system includes a moveable decoy and a remote control activation device. The moveable decoy provides a substantially realistic, lifelike appearance of an animal, such as a deer, and provides capability to substantially mimic the natural body movements of the animal, such as a deer. The moveable decoy includes a first motor for moving a tail portion of the moveable decoy, a second motor for rotating the body portion of the moveable decoy about a fixed mounting point, a controller for communicating with the remote control activation device and for actuating the first and second motors, and a power source.

An animal attracting system and method is disclosed. The animal attracting system includes a moveable decoy and a remote control activation device. The moveable decoy provides a substantially realistic, lifelike appearance of an animal, such as a deer, and provides capability to substantially mimic the natural body movements of the animal, such as a deer. The moveable decoy includes a first motor for moving a tail portion of the moveable decoy, a second motor for rotating the body portion of the moveable decoy about a fixed mounting point, a controller for communicating with the remote control activation device and for actuating the first and second motors, and a power source.