A hummingbird feeder includes a base tray having an upwardly-opening interior for holding food which is attractive to fruit flies and further includes an upper tray which is positionable upon the base tray in a nested relationship and which includes an upwardly-opening interior for holding food, such as nectar, which is attractive to hummingbirds. A top cover for covering the upper tray includes a first aperture through which a fruit fly can exit the base tray and a second aperture through which a hummingbird can access the food of the upper tray. A passageway network extends between the interior of the base tray and the first aperture, and a closure assembly enables a user to selectively shut off or open communication between the interior of the base tray and the first aperture.

A top-fill hummingbird feeder is provided having a nectar container with a liquid flow opening at a lower end and a removable cap at an upper end, a feeding basin positioned below the nectar container, and a sealing mechanism associated with the liquid flow opening and the feeding basin. The sealing mechanism includes a bottle seal assembly configured for removable coupling with a base of the feeding basin, and a float valve captured by said bottle seal assembly to prevent rotation thereof while allowing the float valve to move upwardly and downwardly with changing nectar levels in the feeding basin. The float valve includes a float having a frame with a buoyant member mounted thereon, the buoyant member being made of a closed-cell foam.

A bird propelled rotating hummingbird feeder. A pivot housing includes a central axis and a central hole. A plurality of fins is configured as dual opposing fin sets, where each fin is angled at an oblique angle with respect to a plane passing perpendicularly through the central axis and each fin set comprises at least three angled fins attached to the pivot housing so as to be symmetrically located opposite the other dual opposing fin set with the pivot housing centered between the dual opposing fin sets. A feeder jar housing integrated into each of the dual opposing fin sets central fin. A pivot cable is inserted through the central hole and a bearing element it is attached to a bottom end of the pivot cable within the pivot housing. A hanger is attached to a top end of the pivot cable.

An Oriole bird feeder having a nectar reservoir with a base and a tapered port, and preferably a tapered port/perch assembly, is provided. The bird feeder allows Orioles and other similarly sized members of the Icterid family of birds to land on the perch and access the nectar in the reservoir base while, due to the diminishing taper of the opening in the tapered port, simultaneously preventing average sized Italian, Carniolan and Caucasian honey bees from entering the reservoir base through the port to obtain the nectar where they subsequently become trapped and perish.

Implementations described and claimed herein provide apparatuses and methods for facilitating filling and cleaning of bird feeders that are aesthetically pleasing and adaptable for attracting different types of birds. In one implementation, a bird feeder includes a port having a surface extending from a proximal end to a distal end. The proximal end has a connecting portion configured to connect to a reservoir. The surface has one or more openings defined therein. A small seed converter is insertable into the port, and the small seed converter includes a plurality of teeth extending from an edge. The plurality of teeth are configured to narrow the one or more openings for dispensing small sized seed.

A top-fill hummingbird feeder is provided having a nectar container removably coupled to a feeding basin, the nectar container including a top opening closed by a cap. The cap has a sealing member configured to have an interference press fit with the top opening of the nectar container. The sealing member includes at least one void to allow air passage so that liquid can flow from the nectar container into the feeding basin when the feeder is in use.

A top-fill hummingbird feeder is provided having a nectar container with a liquid flow opening at a lower end and a removable cap at an upper end, a feeding basin positioned below the nectar container, and a sealing mechanism associated with the liquid flow opening and the feeding basin. The sealing mechanism includes a bottle seal assembly configured for removable coupling with a base of the feeding basin, and a float valve captured by said bottle seal assembly to prevent rotation thereof while allowing the float valve to move upwardly and downwardly with changing nectar levels in the feeding basin. The float valve includes a float having a frame with a buoyant member mounted thereon, the buoyant member being made of a closed-cell foam.

A hummingbird feeder is provided that has a nectar container with a lower end liquid flow opening, a nectar basin positioned below the nectar container and removably coupled thereto, and a recessed elastomeric sealing member. The nectar basin includes an upper part and a lower part that are separable from one another and configured to be engaged along adjacent surfaces thereof. The recessed elastomeric sealing member is held against a retaining structure and is positioned to be engaged between the upper and lower parts of the nectar basin to create a liquid tight seal of the nectar basin when the feeder components are assembled.

A hummingbird feeder is provided that includes a nectar container removably coupled to a feeding basin having at least one feed port therein and a flower assembly fitted within the feed port. The flower assembly includes a flower body and a mounting member fitted in the center of the flower body, the mounting member having an elongated tapered passageway through which hummingbirds can access nectar in the feeding basin. The mounting member also has a semi-conical exterior geometry that facilitates mounting of the flower assembly within the feed port.

The present utility model discloses a bird feeding monitoring house. The bird feeding monitoring house comprises a main body and a feeding portion arranged under the main body, wherein a liquid storage area in communication with the feeding portion is formed in the main body, the main body is provided with a cavity having a shape adapted to a camera, the camera is detachably arranged in the cavity of the main body in a penetrating manner, and a photographing area of the camera comprises at least a part of the feeding portion. According to the present utility model, the camera is detachably arranged in the cavity of the main body in a penetrating manner. When the camera needs to be cleaned or the battery of the camera needs to be replaced, the camera only needs to be pulled out of the cavity without removing the main body from the hanging or installation position; and after camera cleaning or battery replacement is completed, the camera is inserted into the cavity again, so that the operation is simple, and the detachment is convenient.