The present disclosure relates to a toilet bowl ventilation system that vents air proximate to a toilet bowl. More specifically, the disclosure is directed to a toilet bowl ventilation system comprised of an odor exhaust system and a toilet having an interior cavity. The odor exhaust system has a housing disposed within the interior cavity, a ventilation inlet positioned proximate to the toilet bowl, a ventilation outlet configured to exhaust exterior to the housing, and a fan enclosed by the housing to move air from the area proximate to the toilet bowl through the housing and exhaust the air to an area exterior to the housing (e.g. outdoors).
The disclosure relates to the field of restroom ventilation devices, and specifically to those devices coupled with or proximate to a toilet bowl.
Within the field of restroom ventilation devices, a distinct need exists for an apparatus which may efficiently exhaust the unpleasant odors and air which normally emanate from around a toilet, especially during and after use, thereby enhancing user comfort.
Numerous systems are known for exhausting air from a restroom. Systems which are mounted within a wall or ceiling are the most common. However, these known systems suffer from significant inefficiencies. Chief among those inefficiencies is the excessive room volume from which wall and ceiling-mounted systems must ventilate. Although the primary volume of concern exists at or near the toilet itself, wall and ceiling-mounted systems must draw air from the entire room, including the area occupying the space at and near the toilet.
Because of the large volume of air that known systems need to ventilate to be effective, known restroom ventilation systems fail to efficiently remove all air containing foul odors and thereby allow foul odors to linger or permeate the room. In order to be effective, traditional restroom ventilation systems require the ventilation of large quantities of air. To ventilate an effective amount of air to remove offensive odors rapidly, the speed and size of the room fan must be significant. Even then, the opportunities for pressure loss and air-flow resistance naturally increase with the size of the room such that the inefficiencies associated with ventilating large restrooms, including commercial restrooms, may be significantly multiplied over those existing in an average-sized residential restroom.
Moreover, removing air from the room does not prevent the user from being exposed to unpleasant smells or prevent users in adjacent stalls from being exposed to unpleasant smells emitted around a toilet associated with another user. Moreover, existing restroom ventilation systems are not energy efficient, because they increase the amount of conditioned air that needs to be supplied to the restroom by heating, ventilating, and cooling systems. Furthermore, because of the large room size and small air draw, the time to remove unpleasant odors from the toilet area may overlap between users, exposing a subsequent user to a prior user's odors.
A problem with filter-based ventilation systems that attempt to filter pungent air from around the toilet by recirculating air through a filter and back to the surrounding area is that the installation of a filter-based ventilation system generally requires mounting additional components to the toilet or seat. Adding additional components creates difficulty when users attempt to clean the inner portions of the components or any toilet surface proximate to the components because mounting additional components often creates small, hard to reach spaces for cleaning. Cleaning the toilet and seat is especially important in preventing the spread of germs and disease and in maintaining a clean appearance. Moreover, filter-based systems fail to effectively eliminate odors. Filters, such as those made from activated charcoal for example, are usually only able to remove up to 70% of the odors found in the air. The filters also become saturated over time, which results in a reduction in efficiency. Consequently, filters require replacement at the end of their useful lives, which increases the cost and time required to maintain the system.
A toilet ventilation system that is efficient, effective, and easy to clean is needed.
An embodiment disclosed herein is a toilet bowl ventilation system. The toilet bowl ventilation system includes a toilet having a base and a bowl. The base includes an interior cavity. The toilet may include a water tank. The water tank may be configured to be disposed against a wall when the toilet is installed.
The toilet bowl ventilation system includes a housing disposed in the interior cavity. The housing may be releasably secured in the interior cavity. The housing may be entirely disposed within the base. The housing has a top wall, a bottom wall, and sidewalls that define an enclosed space within the housing. One or more of the top wall, the bottom wall, or the sidewalls may be selectively removable to access the enclosed space.
The toilet bowl ventilation system includes a ventilation inlet in gaseous communication with the enclosed space. The ventilation inlet may include a housing end and a toilet end. The toilet end may terminate proximate to the toilet, and the housing end may terminate within the enclosed space. An inlet ventilation hose may be in direct gaseous communication with the ventilation inlet.
The toilet bowl ventilation system includes a ventilation outlet in gaseous communication with the enclosed space. The ventilation outlet may include an outlet housing end and an outlet evacuation end. The outlet housing end may terminate within the enclosed space, and the outlet evacuation end may terminate external to the toilet. An output ventilation hose may be in direct gaseous communication with the ventilation outlet.
The toilet bowl ventilation system includes a fan positioned within the enclosed space. The fan may be a squirrel cage fan. The fan may be in direct gaseous communication with the ventilation outlet. The fan is operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller may be used for selectively providing power to the fan.
The toilet bowl ventilation system may include a seat assembly. The seat assembly may be disposed over the bowl and hingedly connected with the toilet. The seat assembly may include a body and a toilet seat. The body may include one or more intake inlets disposed in the body and in gaseous communication with the ventilation inlet. The toilet bowl ventilation system may include a first ventilation hose. The first ventilation hose may be in gaseous communication with the one or more intake inlets and the ventilation inlet.
The seat assembly may include one or more control buttons. The control buttons may be operable to selectively control power to the fan. The toilet bowl ventilation system may include a sensor which may be positioned on the seat assembly. The sensor may be operable to provide an activation signal to the controller indicative of a presence of a body on the toilet seat, wherein the controller may be operable to provide power to the fan when the activation signal indicates that the body is present on the toilet seat.
An embodiment disclosed herein is an odor exhaust system. The odor exhaust system may include the housing configured to be received in the interior cavity of the toilet. The odor exhaust system may include the ventilation inlet and the ventilation outlet. The odor exhaust system may include the fan positioned within the enclosed space. The fan may be operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. The odor exhaust system may include the controller for selectively providing power to the fan.
While the making and using of various embodiments of the present disclosure are discussed in detail below, it should be appreciated that the present disclosure provides many applicable inventive concepts that are embodied in a wide variety of specific contexts. The specific embodiments discussed herein are merely illustrative of specific ways to make and use the embodiment described and do not delimit the scope of the disclosure.
It will be understood that the particular embodiments described herein are shown by way of illustration and not as limitations of the disclosure. The principal features of this disclosure may be employed in various embodiments without departing from the scope of the disclosure. Those of ordinary skill in the art will recognize numerous equivalents to the specific procedures described herein. Such equivalents are considered to be within the scope of this disclosure and are covered by the claims.
An embodiment of a toilet bowl ventilation system 10 is shown in
The housing 26 may be rectangular in profile and disposed within the interior cavity 24 of the base 14. The housing 26 may be entirely disposed within the base 14, as illustrated in
The housing 26 may be comprised of a top wall 34, a bottom wall 36, and sidewalls 38, as shown in
A ventilation inlet 54 is in gaseous communication with the enclosed space 40, as shown in
The inlet hose 64 includes an inlet hose housing end 66 and an inlet hose toilet end 68. The inlet hose housing end 66 may be disposed on the toilet end 58 of the ventilation inlet 54, and the inlet hose 64 may extend a distance from the ventilation inlet 54, as illustrated in
A ventilation outlet 70 is in gaseous communication with the enclosed space 40. The ventilation outlet 70 may be disposed in a sidewall 38 of the housing 26, as shown in
A fan 86 is disposed within the enclosed space 40 of the housing 26, as illustrated in
The pressure differential from the operation of the fan 86 may cause air to flow along a path, as illustrated in
The fan 86 may be a squirrel cage fan. Electrical wires 96 may be used to connect the fan 86 to a motherboard 92 to operatively control the fan 86, such as selectively operating the fan 86. The electrical wires 96 may extend from the motherboard 92, through the enclosed space 40, and to the fan 86 (
The motherboard 92 may be powered by a power supply 88. Power supply wires 97 may be used to connect the motherboard 92 to the power supply 88. The power supply 88 may be positioned outside the toilet bowl ventilation system 10. For example, the power supply 88 may be disposed on a room wall 90 adjacent to the toilet bowl ventilation system 10, as shown in
A controller 98 may be used to selectively control the distribution of power to the fan 86. The controller 98 may be embedded within the power supply 88 (
The toilet bowl ventilation system 10 may include a seat assembly 100. The seat assembly 100 may be disposed over the bowl 16, as shown in
Activation devices may be positioned on a seat assembly 100 to direct the controller 98 when to transfer power from the power supply 88 to the motherboard 92, which then activates, or powers, the fan 86. One or more buttons 118 may be disposed on the exterior body surface 103 of the body 102, as shown in
In an embodiment, an odor exhaust system 122 is shown in
A ventilation inlet 254 connects to housing 226. The interior of the housing 226 is generally configured in any manner as described with reference to
A check valve allows for one-way airflow out of the housing 226 but blocks airflow (and/or water and sewage flow) going in the reverse direction into the housing 226. A check valve has two ends, an inlet end and an outlet end. In some embodiments, the check valve 236 operates mechanically. Such a check valve is typically closed to prevent airflow. When air pressure builds up on the upstream end, the valve is forced open to permit air to flow through the valve and out the downstream end. When the air pressure is released, the valve closes again. In the embodiment of
As depicted in
In another embodiment, the check valve 236 may be connected at the joint 234. In such an embodiment, the ventilation hose 280 connects directly to the ventilation outlet 270 of the housing 226 on a first end, and connects to the upstream side of the check valve 236 on the second end.
While
A list of non-exclusive example embodiments are provided below.
In one embodiment, a toilet bowl ventilation system is provided, having a toilet including a base and a bowl. The base includes an interior cavity. A housing is disposed within the interior cavity. The housing has a top, a bottom, and sidewalls defining an enclosed space. A ventilation inlet is in gaseous communication with the enclosed space. A ventilation outlet is also in gaseous communication with the enclosed space. A fan is positioned within the enclosed space. The fan is operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided to selectively provide power to the fan.
In another embodiment, a toilet bowl ventilation system is provided, having a toilet including a base and a bowl. The base includes an interior cavity. A housing is disposed within the interior cavity. The housing has a top, a bottom, and sidewalls defining an enclosed space. A ventilation inlet is in gaseous communication with the enclosed space. A ventilation outlet is also in gaseous communication with the enclosed space. A fan is positioned within the enclosed space. The fan is operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided to selectively provide power to the fan. A seat assembly is disposed over the bowl and hingedly connected with the toilet. The seat assembly has a body, and a toilet seat, and one or more intake inlets disposed in the body and in gaseous communication with the ventilation inlet.
In another embodiment, a toilet bowl ventilation system is provided, having a toilet including a base and a bowl. The base includes an interior cavity. A housing is disposed within the interior cavity. The housing has a top, a bottom, and sidewalls defining an enclosed space. A ventilation inlet is in gaseous communication with the enclosed space. A ventilation outlet is also in gaseous communication with the enclosed space. A fan is positioned within the enclosed space. The fan is operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided to selectively provide power to the fan. A seat assembly is disposed over the bowl and hingedly connected with the toilet. The seat assembly has a body, and a toilet seat, and one or more intake inlets disposed in the body and in gaseous communication with the ventilation inlet. A first ventilation hose is in gaseous communication with the one or more intake inlets and the ventilation inlet.
In another embodiment, a toilet bowl ventilation system is provided, having a toilet including a base and a bowl. The base includes an interior cavity. A housing is disposed within the interior cavity. The housing has a top, a bottom, and sidewalls defining an enclosed space. A ventilation inlet is in gaseous communication with the enclosed space. A ventilation outlet is also in gaseous communication with the enclosed space. A fan is positioned within the enclosed space. The fan is operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided to selectively provide power to the fan. A seat assembly is disposed over the bowl and hingedly connected with the toilet. The seat assembly has a body, and a toilet seat, and one or more intake inlets disposed in the body and in gaseous communication with the ventilation inlet. The seat assembly also has one or more buttons to selectively control power to the fan.
In another embodiment, a toilet bowl ventilation system is provided, having a toilet including a base and a bowl. The base includes an interior cavity. A housing is disposed within the interior cavity. The housing has a top, a bottom, and sidewalls defining an enclosed space. A ventilation inlet is in gaseous communication with the enclosed space. A ventilation outlet is also in gaseous communication with the enclosed space. A fan is positioned within the enclosed space. The fan is operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided to selectively provide power to the fan. An output ventilation hose is in gaseous communication with the ventilation outlet.
In another embodiment, a toilet bowl ventilation system is provided, having a toilet including a base and a bowl. The base includes an interior cavity. A housing is disposed within the interior cavity. The housing has a top, a bottom, and sidewalls defining an enclosed space. A ventilation inlet is in gaseous communication with the enclosed space. A ventilation outlet is also in gaseous communication with the enclosed space. A fan is positioned within the enclosed space. The fan is operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided to selectively provide power to the fan. A sensor is positioned on the seat assembly and operable to provide an activation signal to the controller indicative of a presence of a body on the toilet seat. The controller is operable to provide power to the fan when the activation signal indicates that the body is present on the toilet seat.
In another embodiment, a toilet bowl ventilation system is provided, having a toilet including a base and a bowl. The base includes an interior cavity. A housing is disposed within the interior cavity. The housing has a top, a bottom, and sidewalls defining an enclosed space. A ventilation inlet is in gaseous communication with the enclosed space. A ventilation outlet is also in gaseous communication with the enclosed space. A fan is positioned within the enclosed space. The fan is operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided to selectively provide power to the fan. One or more of the top, the bottom, and the side walls are selectively removable for accessing the enclosed space.
In another embodiment, a toilet bowl ventilation system is provided, having a toilet including a base and a bowl. The base includes an interior cavity. A housing is disposed within the interior cavity. The housing has a top, a bottom, and sidewalls defining an enclosed space. A ventilation inlet is in gaseous communication with the enclosed space. A ventilation outlet is also in gaseous communication with the enclosed space. A fan is positioned within the enclosed space. The fan is operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided to selectively provide power to the fan. The housing is entirely disposed within the base.
In another embodiment, a toilet bowl ventilation system is provided, having a toilet including a base and a bowl. The base includes an interior cavity. A housing is disposed within the interior cavity. The housing has a top, a bottom, and sidewalls defining an enclosed space. A ventilation inlet is in gaseous communication with the enclosed space. A ventilation outlet is also in gaseous communication with the enclosed space. A fan is positioned within the enclosed space. The fan is operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided to selectively provide power to the fan. The toilet includes a water tank. The water tank is configured to be disposed against a wall when the toilet is installed.
In another embodiment, a toilet bowl ventilation system is provided, having a toilet including a base and a bowl. The base includes an interior cavity. A housing is disposed within the interior cavity. The housing has a top, a bottom, and sidewalls defining an enclosed space. A ventilation inlet is in gaseous communication with the enclosed space. A ventilation outlet is also in gaseous communication with the enclosed space. A fan is positioned within the enclosed space. The fan is operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided to selectively provide power to the fan. The fan is a squirrel cage fan.
In another embodiment, a toilet bowl ventilation system is provided, having a toilet including a base and a bowl. The base includes an interior cavity. A housing is disposed within the interior cavity. The housing has a top, a bottom, and sidewalls defining an enclosed space. A ventilation inlet is in gaseous communication with the enclosed space. A ventilation outlet is also in gaseous communication with the enclosed space. A fan is positioned within the enclosed space. The fan is operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided to selectively provide power to the fan. The housing is releasably secured in the interior cavity.
In another embodiment, a toilet bowl ventilation system is provided, having a toilet including a base and a bowl. The base includes an interior cavity. A housing is disposed within the interior cavity. The housing has a top, a bottom, and sidewalls defining an enclosed space. A ventilation inlet is in gaseous communication with the enclosed space. A ventilation outlet is also in gaseous communication with the enclosed space. A fan is positioned within the enclosed space. The fan is operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided to selectively provide power to the fan. The fan is in direct gaseous communication with the ventilation outlet.
In another embodiment, a toilet bowl ventilation system is provided, having a toilet including a base, a bowl, and an internal pipe in fluid communication with the bowl and connected to a sewage pipe. The base includes an interior cavity. A housing is disposed within the interior cavity. The housing has a top, a bottom, and sidewalls defining an enclosed space. A ventilation inlet is in gaseous communication with the enclosed space. A ventilation outlet is also in gaseous communication with the enclosed space and the sewage pipe. A fan is positioned within the enclosed space. The fan is operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided to selectively provide power to the fan. A check valve is provided at the ventilation outlet of the enclosed space.
In another embodiment, a toilet bowl ventilation system is provided, having a toilet including a base, a bowl, and an internal pipe in fluid communication with the bowl and connected to a sewage pipe. The base includes an interior cavity. A housing is disposed within the interior cavity. The housing has a top, a bottom, and sidewalls defining an enclosed space. A ventilation inlet is in gaseous communication with the enclosed space. A ventilation outlet is also in gaseous communication with the enclosed space and the sewage pipe. A fan is positioned within the enclosed space. The fan is operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided to selectively provide power to the fan. A check valve is provided at joint between the sewage pipe and the ventilation outlet.
In another embodiment a toilet odor exhaust system is provided. The toilet odor exhaust system has a housing configured to be received in an interior cavity of a toilet. The housing has a top, a bottom, and side walls defining an enclosed space. The housing has a ventilation inlet including a housing end and a toilet end. The toilet end terminates proximate to the toilet and the housing end terminates at the enclosed space. The housing has a ventilation outlet including an outlet housing end and an outlet evacuation end. The housing end of the ventilation outlet terminates at the enclosed space and the evacuation end of the ventilation outlet terminates external to the toilet. A fan is positioned within the enclosed space, the fan operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided for selectively providing power to the fan.
In another embodiment a toilet odor exhaust system is provided. The toilet odor exhaust system has a housing configured to be received in an interior cavity of a toilet. The housing has a top, a bottom, and side walls defining an enclosed space. The housing has a ventilation inlet including a housing end and a toilet end. The toilet end terminates proximate to the toilet and the housing end terminates at the enclosed space. The housing has a ventilation outlet including an outlet housing end and an outlet evacuation end. The housing end of the ventilation outlet terminates at the enclosed space and the evacuation end of the ventilation outlet terminates external to the toilet. A fan is positioned within the enclosed space, the fan operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided for selectively providing power to the fan. An inlet hose is in direct gaseous communication with the ventilation inlet.
In another embodiment a toilet odor exhaust system is provided. The toilet odor exhaust system has a housing configured to be received in an interior cavity of a toilet. The housing has a top, a bottom, and side walls defining an enclosed space. The housing has a ventilation inlet including a housing end and a toilet end. The toilet end terminates proximate to the toilet and the housing end terminates at the enclosed space. The housing has a ventilation outlet including an outlet housing end and an outlet evacuation end. The housing end of the ventilation outlet terminates at the enclosed space and the evacuation end of the ventilation outlet terminates external to the toilet. A fan is positioned within the enclosed space, the fan operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided for selectively providing power to the fan. An output ventilation hose in direct gaseous communication with the ventilation outlet.
In another embodiment a toilet odor exhaust system is provided. The toilet odor exhaust system has a housing configured to be received in an interior cavity of a toilet. The housing has a top, a bottom, and side walls defining an enclosed space. The housing has a ventilation inlet including a housing end and a toilet end. The toilet end terminates proximate to the toilet and the housing end terminates at the enclosed space. The housing has a ventilation outlet including an outlet housing end and an outlet evacuation end. The housing end of the ventilation outlet terminates at the enclosed space and the evacuation end of the ventilation outlet terminates external to the toilet. A fan is positioned within the enclosed space, the fan operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided for selectively providing power to the fan. One or more of the top, the bottom, and the side walls are securely releasable for accessing the enclosed space.
In another embodiment a toilet odor exhaust system is provided. The toilet odor exhaust system has a housing configured to be received in an interior cavity of a toilet. The housing has a top, a bottom, and side walls defining an enclosed space. The housing has a ventilation inlet including a housing end and a toilet end. The toilet end terminates proximate to the toilet and the housing end terminates at the enclosed space. The housing has a ventilation outlet including an outlet housing end and an outlet evacuation end. The housing end of the ventilation outlet terminates at the enclosed space and the evacuation end of the ventilation outlet terminates external to the toilet. A fan is positioned within the enclosed space, the fan operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided for selectively providing power to the fan. The housing is dimensioned to be entirely disposed within the base of the toilet.
In another embodiment a toilet odor exhaust system is provided. The toilet odor exhaust system has a housing configured to be received in an interior cavity of a toilet. The housing has a top, a bottom, and side walls defining an enclosed space. The housing has a ventilation inlet including a housing end and a toilet end. The toilet end terminates proximate to the toilet and the housing end terminates at the enclosed space. The housing has a ventilation outlet including an outlet housing end and an outlet evacuation end. The housing end of the ventilation outlet terminates at the enclosed space and the evacuation end of the ventilation outlet terminates external to the toilet. A fan is positioned within the enclosed space, the fan operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided for selectively providing power to the fan. The fan is a squirrel cage fan.
In another embodiment a toilet odor exhaust system is provided. The toilet odor exhaust system has a housing configured to be received in an interior cavity of a toilet. The housing has a top, a bottom, and side walls defining an enclosed space. The housing has a ventilation inlet including a housing end and a toilet end. The toilet end terminates proximate to the toilet and the housing end terminates at the enclosed space. The housing has a ventilation outlet including an outlet housing end and an outlet evacuation end. The housing end of the ventilation outlet terminates at the enclosed space and the evacuation end of the ventilation outlet terminates external to the toilet. A fan is positioned within the enclosed space, the fan operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided for selectively providing power to the fan. The housing is releasably secured in the interior cavity.
In another embodiment a toilet odor exhaust system is provided. The toilet odor exhaust system has a housing configured to be received in an interior cavity of a toilet. The housing has a top, a bottom, and side walls defining an enclosed space. The housing has a ventilation inlet including a housing end and a toilet end. The toilet end terminates proximate to the toilet and the housing end terminates at the enclosed space. The housing has a ventilation outlet including an outlet housing end and an outlet evacuation end. The housing end of the ventilation outlet terminates at the enclosed space and the evacuation end of the ventilation outlet terminates external to the toilet. A fan is positioned within the enclosed space, the fan operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided for selectively providing power to the fan. The fan is in direct gaseous communication with the ventilation outlet.
In another embodiment a toilet odor exhaust system is provided. The toilet odor exhaust system has a housing configured to be received in an interior cavity of a toilet. The housing has a top, a bottom, and side walls defining an enclosed space. The housing has a ventilation inlet including a housing end and a toilet end. The toilet end terminates proximate to the toilet and the housing end terminates at the enclosed space. The housing has a ventilation outlet including an outlet housing end and an outlet evacuation end. The housing end of the ventilation outlet terminates at the enclosed space and the evacuation end of the ventilation outlet terminates at a sewage pipe. A check valve is provided in gaseous communication with the ventilation outlet to permit air to flow unidirectionally from the housing to the sewage pipe. A fan is positioned within the enclosed space, the fan operable to move air from the ventilation inlet through the enclosed space to the ventilation outlet in response to receiving power. A controller is provided for selectively providing power to the fan.
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Entry |
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EP Application No. 15729618.7, Communication pursuant to Article 94(c) EPC dated Mar. 21, 2018. |
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20200123755 A1 | Apr 2020 | US |
Number | Date | Country | |
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62887449 | Aug 2019 | US |