Generally, an avian flight diverter fixed to an aerial line to divert the flight of birds. Specifically, an avian flight diverter having a body coupled to an avian flight diverting member having a first component and a second component generally a mirror image of the other joined in opposed fixed angled relation, each of the components of generally flat material having a first face and a second face having a surface area sufficient to divert flight of an avian animal when secured to an aerial line.

Generally, an avian flight diverter fixed to an aerial line to divert the flight of birds. Specifically, an avian flight diverter having a body coupled to an avian flight diverting member having a first component and a second component generally a mirror image of the other joined in opposed fixed angled relation, each of the components of generally flat material having a first face and a second face having a surface area sufficient to divert flight of an avian animal when secured to an aerial line.

An apparatus is adapted to be installed on a top portion of a utility pole to allow perching upon by birds while preventing the nesting of birds thereby avoiding damage to the utility equipment, or the accidental death of the birds.

An apparatus is adapted to be installed on a top portion of a utility pole to allow perching upon by birds while preventing the nesting of birds thereby avoiding damage to the utility equipment, or the accidental death of the birds.

In multiple embodiments, the avian impact mitigation system may generally include a pliable mesh that is disposed vertically in front of a window by attaching to a building and hanging down from the attachment points. In some embodiments, the system also includes one or more weighted masses that are attached to a bottom portion of the pliable mesh via one or more deformable members. In many embodiments, the combination of the one or more weighted masses attached to the pliable mesh by the one or more deformable members allows for a gentle and gradual transference of the bird's kinetic energy to the one or more weighted masses by absorbing and dispersing the kinetic energy to decelerate the bird safely and rebound the bird away from the window without making contact with the window.

In multiple embodiments, the avian impact mitigation system may generally include a pliable mesh that is disposed vertically in front of a window by attaching to a building and hanging down from the attachment points. In some embodiments, the system also includes one or more weighted masses that are attached to a bottom portion of the pliable mesh via one or more deformable members. In many embodiments, the combination of the one or more weighted masses attached to the pliable mesh by the one or more deformable members allows for a gentle and gradual transference of the bird's kinetic energy to the one or more weighted masses by absorbing and dispersing the kinetic energy to decelerate the bird safely and rebound the bird away from the window without making contact with the window.

Disclosed is an apparatus for repelling birds that can be readily installed on a structure and effective in repelling birds. To fundamentally prevent the birds from perching on the structure, the apparatus for repelling birds in accordance with an embodiment of the present invention includes: a fastening means including a first supporting part, a second supporting part and a fastening part interposed between the first supporting part and the second supporting part, and having the first supporting part and the second supporting part protruded in a same direction from either end of the fastening part in such a way that a protruded structure is fitted therein; a stopper being engaged with one of the first supporting part and the second supporting part in such a way that the fastening means is fastened to the structure after the fastening means is fitted on the structure, the stopper being at least one bolt; a supporting means being installed on the fastening means; a wire having at least one end coupled to the supporting means; and a tension adjusting means being installed at a portion where the wire is coupled with the supporting means.

Disclosed is an apparatus for repelling birds that can be readily installed on a structure and effective in repelling birds. To fundamentally prevent the birds from perching on the structure, the apparatus for repelling birds in accordance with an embodiment of the present invention includes: a fastening means including a first supporting part, a second supporting part and a fastening part interposed between the first supporting part and the second supporting part, and having the first supporting part and the second supporting part protruded in a same direction from either end of the fastening part in such a way that a protruded structure is fitted therein; a stopper being engaged with one of the first supporting part and the second supporting part in such a way that the fastening means is fastened to the structure after the fastening means is fitted on the structure, the stopper being at least one bolt; a supporting means being installed on the fastening means; a wire having at least one end coupled to the supporting means; and a tension adjusting means being installed at a portion where the wire is coupled with the supporting means.

A bird deterrent has a base and at least one branched spike extending from the base. The branching can occur anywhere along the spike, and a single branch point can give rise to multiple branches. Spikes can have multiple branches. The various branches can be of any suitable length(s), and can be oriented in any suitable direction(s).

A bird deterrent has a base and at least one branched spike extending from the base. The branching can occur anywhere along the spike, and a single branch point can give rise to multiple branches. Spikes can have multiple branches. The various branches can be of any suitable length(s), and can be oriented in any suitable direction(s).