A mounting bracket assembly includes a support plate and an outdoor support. The support plate includes an outer support member. A mounting slide groove is formed at the outer support member and extending in a length direction of the support plate. One end of the outdoor support is slidably provided in the mounting slide groove. A limit structure is provided between the one end of the outdoor support and the mounting slide groove and configured to limit the one end of the outdoor support from separating from the mounting slide groove.

A mounting bracket assembly includes a support plate and an outdoor support. The support plate includes an outer support member. A mounting slide groove is formed at the outer support member and extending in a length direction of the support plate. One end of the outdoor support is slidably provided in the mounting slide groove. A limit structure is provided between the one end of the outdoor support and the mounting slide groove and configured to limit the one end of the outdoor support from separating from the mounting slide groove.

An air conditioner unit may include a housing, an outdoor heat exchanger assembly, an indoor heat exchanger assembly, a compressor, a sterilization light assembly, and a flow sensor. The housing may define an indoor portion and an outdoor portion. The housing may further define an exhaust outlet downstream from the indoor portion to exhaust air therefrom. The sterilization light assembly may be disposed within the indoor portion to transmit an ultraviolet light emission thereto. The flow sensor may be disposed within the indoor portion upstream from the exhaust outlet. The flow sensor may be operably coupled to the sterilization light assembly and configured to activation of sterilization light assembly in response to detecting a predetermined airflow within the indoor portion.

An air conditioning unit comprising a bracket configured to be coupled to a sill of an opening between a first and second environment, the bracket comprising a pivot arm configured to be disposed and extending within the first environment. The bracket is configured to have a first unit positioned on top of the bracket; have the first unit moved on top of the bracket onto the pivot arm; and have the pivot arm and first unit rotated downward so that the first unit is disposed in the first environment and extending downward below the sill of the opening to cause one or more pivot arm guide slots of the pivot arm to rotate from a first configuration to a second configuration.

An air conditioning unit comprising a bracket configured to be coupled to a sill of an opening between a first and second environment, the bracket comprising a pivot arm configured to be disposed and extending within the first environment. The bracket is configured to have a first unit positioned on top of the bracket; have the first unit moved on top of the bracket onto the pivot arm; and have the pivot arm and first unit rotated downward so that the first unit is disposed in the first environment and extending downward below the sill of the opening to cause one or more pivot arm guide slots of the pivot arm to rotate from a first configuration to a second configuration.

A method of installing an air conditioning unit in an opening. The method includes securing a bracket to a sill of the opening between a first and second environment where the bracket has a pivot arm disposed and extending within the first environment. The method also includes positioning a first unit of the air conditioning unit on top of the bracket; moving the first unit on top of the bracket onto the pivot arm; and rotating the pivot arm and first unit downward so that the first unit is disposed in the first environment and extending downward below the sill of the opening.

The apparatus and method disclosed herein is a new system that can be used as windows air conditioner's accessary and its possible embodiments.

By first attaching base modules to the window air conditioner's housing and/or window frames, it can create an foundation with opening for attaching other functional modules. The functional modules attached on later are interchangeable and allow a variety of applications and combination of applications.

The invention also makes installing and remove window AC unit more safer and easier.

The invention had built a new ecosystem around the window air conditioner unit. It turns the current wasted spaces around windows AC housing into a unique area where users can design and customize for different functional uses. Because the functional modules are interchangeable, user can switch easily between different modules and designs with different possible combination from time to time to achieve different goals and meet different needs.

TABLE-US-00001  182137 Low profile, high volume, filtered window fan 4248018 Plastic multiple track window with slidable and removeable panes, and elements thereof 4510852 Window-type air conditioner mounting assembly 5035116 Apparatus to adapt a window air conditioning unit to a sliding glass window sill 5341860 Cover seal unit, for an air conditioner having a peripheral frame 5582025 Low obstruction window air conditioner 5979172 Non-drip high efficiency AC system utilizing condensate water for subcooling 6044892 Frame assembly 6354936 Opening-closing structure of an inlet grille in an air conditioner 6767278 Window-mounted air conditioner installation system 7350759 Quick release mounting for a room air conditioner 7992404 Window air conditioner with easy installation method 8167260 Window air conditioner adjustable brace 8584481 Integrated air conditioner

A packaged terminal air conditioner (PTAC) system includes a wall sleeve in which a chassis is mounted. The wall sleeve includes a bottom configured as a drain pan to collect condensate from the chilling components of the chassis. At a side wall of the wall sleeve there is an aperture configured to allow a person to insert a treatment pellet. The treatment pellet is water soluble and contains an antimicrobial component that prevent or inhibits the growth of biological material that could obstruct the drain system of the wall sleeve and PTAC. A rotating cover is positioned at the side wall to normally cover the aperture and prevent foreign objects from entering the PTAC, but the rotating cover can be rotated so that a hole in the rotating cover aligns with the aperture, allowing insertion of the treatment pellet.

A packaged terminal air conditioner (PTAC) system includes a wall sleeve in which a chassis is mounted. The wall sleeve includes a bottom configured as a drain pan to collect condensate from the chilling components of the chassis. At a side wall of the wall sleeve there is an aperture configured to allow a person to insert a treatment pellet. The treatment pellet is water soluble and contains an antimicrobial component that prevent or inhibits the growth of biological material that could obstruct the drain system of the wall sleeve and PTAC. A rotating cover is positioned at the side wall to normally cover the aperture and prevent foreign objects from entering the PTAC, but the rotating cover can be rotated so that a hole in the rotating cover aligns with the aperture, allowing insertion of the treatment pellet.

The present invention relates to an air-conditioning device comprising: a case having an interior divided into a first area and a second area, having an indoor inlet and an indoor outlet formed therein such that the first area and an indoor space communicate with each other, and having an outdoor inlet and an outdoor outlet formed therein such that the second area and an outdoor space communicate with each other; a barrier arranged between the first area and the second area inside the case; an indoor blowing fan arranged in the first area so as to form a flow of air from the indoor inlet to the indoor outlet; an outdoor blowing fan arranged in the second area so as to form a flow of air from the outdoor inlet to the outdoor outlet; a first thermoelectric element comprising a first indoor heat exchanger arranged in the first area so as to exchange heat with air passing through the first area, and a first outdoor heat exchanger arranged in the second area so as to exchange heat with air passing through the second area; a case lower-surface formed on the lower surface of the case so as to have an open upper side such that condensed water generated from the first thermoelectric element is collected; and a second thermoelectric element arranged between the first thermoelectric element and the case lower-surface so as to heat the condensed water. The first area and the second area are connected between the case lower-surface and the second thermoelectric element such that the condensed water is distributed across the first area and the second area. The present invention is advantageous in that indoor cooling/heating can be performed without no separate compressor, outdoor unit, and the like, and condensed water can be effectively evaporated.