Patent Description:
Today, the need for ventilation and the need for fresh air becomes more important in environments such as homes and offices especially in high-rise buildings. Plants can be a temporary solution for daytime but when the sunlight disappears, plants also start to produce carbon dioxide like human beings and the air quality of the environment decreases. Especially in high-rise buildings, it is not always possible to continuously keep the windows open and ventilate the environment. The continuously rising carbon dioxide amount in the air adversely affects human health. The amount of oxygen in a closed environment directly affects the metabolic rate of people and the lack thereof creates weakness and fatigue in humans. Ensuring that the amount of oxygen in the closed environment does not fall below a certain level while reducing the amount of carbon dioxide generated in the environment makes the human metabolism much more vivid and vigorous.

In the state of the art, there are air purifiers having modules which generate oxygen from carbon dioxide in the environment, also known as artificial photosynthesis modules. Exhaust ports are known in such devices which enable the removal of waste gases. However, in such devices, the two-piece exhaust line for transmitting waste gases to the outside of the indoor environment where the purified air is present and the operation of the air purifier according to the connection of the exhaust line are not known.

In another type of state of the art air purifiers, there is at least one HEPA, UV, active carbon and any other type of filter which retain matter in the ambient air such as dust, dirt and bacteria. The air purified in such devices is released directly to the environment (indoor environment). Since there is no chemical treatment, there is no exhaust outlet line.

<CIT> discloses an air purifier upon which the preamble of appending claim <NUM> is based.

The air purifier of the present invention comprises an air inlet through which the ambient air is sucked; a pump which provides the suction of the air; a carbon dioxide adsorption unit into which the sucked air is drawn; a base tank which allows a basic solution to be sent to the carbon dioxide adsorption unit; and an acid tank wherein the acidic solution is loaded, which is used in chemical reactions to re-release the carbon dioxide adsorbed in the carbon dioxide adsorption unit. The air purifier of the present invention further comprises a clean air outlet which enables the clean air cleansed of carbon dioxide to spread to the environment (indoor environment from which the air is sucked into device body), and an exhaust outlet line which enables harmful waste gases such as carbon dioxide and hydrogen released by means of the acidic solution after the air is purifier to the outside of the indoor environment (through a window or wall).

In an embodiment of the present invention, the basic solution is loaded directly into the carbon dioxide adsorption unit in the air purifier. In this embodiment, there may also be a basic solution tank and the basic solution can be fed to the carbon dioxide adsorption unit as needed. In another embodiment, the basic solution can be fed to the carbon dioxide adsorption unit from outside by warning the user or by the technical service staff at certain times without providing a basic solution tank.

In another embodiment of the present invention, the basic solution can be sent to the carbon dioxide adsorption unit in the air purifier from the base tank when the air purifier is operated.

In the air purifier of the present invention, the air sucked into the body of the air purifier by means of a pump is taken into the CO<NUM> adsorption unit. Here, the air reacts with the basic solution into a carbonation reaction. As a result of this reaction, the clean air cleansed of carbon dioxide is released from the from the CO<NUM> adsorption unit to the indoor environment through an air outlet line. The carbonate solution remaining in the adsorption unit is taken into a mixture receptacle for treatment with an acidic solution. The acidic solution is fed into said receptacle, and the adsorbed carbon dioxide and other gases are released again as a result of the reaction. Moreover, a salt solution is generated by the mixture of acidic and basic solutions. The resulting salt solution is converted back to acid and base in an electrodialysis unit. The separated chemicals are transferred back to the acid and base tanks. Thus, an air purifier is realized, which is closed to outside intervention and which operates continuously. Harmful, waste gases such as carbon dioxide and hydrogen released are discharged through a pierced window or wall by means of an exhaust outlet line, to the outside of the indoor environment such as room, workplace, etc., where the air is purified.

An indoor environment is any enclosed, walled area within a building, such as room or workplace, where the air is to be purified.

The outer environment is the open space outside the walls and window, remaining outside the boundaries of the indoor environment.

The exhaust outlet line has a two-piece structure, an inner part and an outer part. While the inner part is placed in the indoor environment where the air is to be purified, the outer part attached to the inner part opens to the outer environment.

The inner part comprises an inlet pipe through which the waste gases enter, a cable which extends in or on the inlet pipe and which is connected to the control unit at one end, a pin which is disposed at the end of the cable, and a locking part. The locking part connects the inner part with the outer part. There is an interconnecting part provided at the section of the outer part closest to the inner part. The locking part and the interconnecting part can be attached to/detached from each other. When the inner part is to be attached to the outer part, the pin passes through pin housings provided on the locking part and gets into contact with at least one metal plate in the outer part provided on the interconnecting part. Thus, the signal stating that the inner and outer parts are connected is transmitted to the control unit. When said signal is transmitted, the air purifier starts to operate. Otherwise, the air purifier does not work unless the connection is made correctly and the signal is transmitted.

By means of the present invention, an air purifier is realized, wherein the waste gas is discharged safely and the air purification process cannot be performed without properly connecting the exhaust outlet line.

The model embodiments that relate to the air purifier realized in order to attain the aim of the present invention are illustrated in the attached figures, where:.

The air purifier (<NUM>) comprises a body (<NUM>) having an air inlet (I) through which air from an indoor environment is sucked and a fresh air outlet (O) through which the purified air is supplied to the environment; a CO<NUM> adsorption unit (<NUM>) which is provided in the body (<NUM>), which can be filled with basic liquid solution and which enables the carbon dioxide in the air to be adsorbed chemically; a receptacle (<NUM>) wherein the carbon dioxide adsorbed in the carbonate form in the CO<NUM> adsorption unit (<NUM>) is treated with an acidic solution to be released again; and an exhaust outlet line (<NUM>) which enables the carbon dioxide and other waste gases released as a result of the reaction of the carbonate solution in the receptacle (<NUM>) with the acidic solution to be discharged from the body (<NUM>) to an outer environment.

The air purifier (<NUM>) of the present invention further comprises.

In the air purifier of the present invention, the air of the indoor environment desired to be purified is sucked into the body (<NUM>). The air sucked into the body (<NUM>) is directly taken into the CO<NUM> adsorption unit (<NUM>). First a basic liquid solution is fed here. The basic liquid solution can be directly provided in the CO<NUM> adsorption unit (<NUM>) or can be fed from a base tank disposed in the body (<NUM>). In the CO<NUM> adsorption unit (<NUM>), the carbon dioxide in the air is adsorbed by the carbonation reaction. The clean air cleansed of carbon dioxide is released back to the indoor environment through the clean air outlet (O). On the other hand, the carbonate solution is taken into a separate receptacle (<NUM>) to be treated with an acidic solution. Here, carbon dioxide and waste gases are released again. In order not to release the carbon dioxide back to the indoor environment, an exhaust outlet line (<NUM>) is opened to the outside environment. In the air purifier (<NUM>) of the present invention, the exhaust outlet line (<NUM>) has a two-piece structure and comprises an inner part (<NUM>) and an outer part (<NUM>). The inner part (<NUM>) is the part which remains inside the window or wall of the room, etc., where the air is purified. On the other hand, the outer part (<NUM>) is the part remaining outside the window and the wall, in the outer environment. The inner part (<NUM>) comprises an inlet pipe (<NUM>) which extends from the body (<NUM>) and through which carbon dioxide enters, a locking part (<NUM>) which attached to the inlet pipe (<NUM>) and at least one pin (<NUM>). The outer part (<NUM>) comprises an outlet pipe (<NUM>), an interconnecting part (<NUM>) which can be detachably connected to the locking part (<NUM>), and a metal plate (<NUM>) which is disposed on the interconnecting part (<NUM>). While the air purifier (<NUM>) is placed in front of a window, wall, etc., the inner part (<NUM>) is attached to the interconnecting part (<NUM>) by means of the locking part (<NUM>). At the same time, if a correct locking is performed, the pin (<NUM>) gets into contact with the metal plate (<NUM>) on the interconnecting part (<NUM>). Thus, the control unit (<NUM>) detects that the inner part (<NUM>) and the outer part (<NUM>) are correctly connected to each other and starts the air purification process of the air purifier (<NUM>). Otherwise, the control unit (<NUM>) does not start the air purification process and undesirable situations such as the release of waste gases to the indoor environment are prevented.

In an embodiment of the present invention, the air purifier (<NUM>) comprises at least one claw (<NUM>) which is provided on the locking part (<NUM>) and a housing (<NUM>) which is provided on the interconnecting part (<NUM>) and which is suitable for receiving and locking the claw (<NUM>). In this embodiment, the claw (<NUM>) is fitted into the housing (<NUM>) and locked, and the locking part (<NUM>) and the interconnecting part (<NUM>) are enabled to be securely locked to each other.

In an embodiment of the present invention, the air purifier (<NUM>) comprises the pin (<NUM>) one end of which is connected to the control unit (<NUM>) by means of a cable extending from the inlet pipe (<NUM>) and a pin housing (<NUM>) which is provided on the locking part (<NUM>) and through which the pin (<NUM>) passes while the inner part (<NUM>) and the outer part (<NUM>) are connected to each other.

In an embodiment of the present invention, the air purifier (<NUM>) comprises a pushing part (<NUM>) which is provided on the locking part (<NUM>); a valve cap (<NUM>) which is disposed on the interconnecting part (<NUM>); a spring (<NUM>) which is fitted on the valve cap (<NUM>) so as to move the valve cap (<NUM>) towards the outlet pipe (<NUM>) by the force applied by the pushing part (<NUM>), and a valve housing (<NUM>) which connects the valve cap (<NUM>), the spring (<NUM>) and the interconnecting part (<NUM>) to the outlet pipe (<NUM>). Thus, when the inner part (<NUM>) and the outer part (<NUM>) are connected to each other, flow is provided for the passage of waste gases by pushing the valve cap (<NUM>) and the spring (<NUM>) towards the outlet pipe (<NUM>), and carbon dioxide passage is allowed from the inlet pipe (<NUM>) to the outlet pipe (<NUM>).

In an embodiment of the present invention, the air purifier (<NUM>) comprises a sealing member (<NUM>) which is disposed between the locking part (<NUM>) and the interconnecting part (<NUM>) and which prevents the waste gases from leaking to the indoor environment.

In an embodiment of the present invention, the air purifier (<NUM>) comprises the sealing member (<NUM>) which is disposed between the valve cap (<NUM>) and the interconnecting part (<NUM>) and which prevents the waste gases from leaking to the indoor environment.

In an embodiment of the present invention, the air purifier (<NUM>) comprises a duckbill (<NUM>) which is disposed on the outlet pipe (<NUM>) so as to prevent foreign substances which may enter the outlet pipe (<NUM>) from the outside environment during the waste gas discharge.

In an embodiment of the present invention, the air purifier (<NUM>) comprises a lid (<NUM>) which can be attached to the interconnecting part (<NUM>) so as to cover the interconnecting part (<NUM>) in order to prevent the entry of foreign materials into the outer part (<NUM>) before the inner part (<NUM>) and outer part (<NUM>) are connected to each other.

In an embodiment of the present invention, the air purifier (<NUM>) comprises a filter lid (<NUM>) which is attached on the outlet pipe (<NUM>) at the outer end of the outlet pipe (<NUM>) and on the duckbill (<NUM>) and which ensures that the waste gas flow is unidirectional from the indoor environment to the outside environment.

Claim 1:
An air purifier (<NUM>) comprising a body (<NUM>) having an air inlet (I) through which air from an indoor environment is sucked and a fresh air outlet (O) through which the purified air is supplied to the environment; a CO<NUM> adsorption unit (<NUM>) which is provided in the body (<NUM>), which can be filled with basic liquid solution and which enables the carbon dioxide in the air to be adsorbed chemically; a receptacle (<NUM>) wherein the carbon dioxide adsorbed in the carbonate form in the CO<NUM> adsorption unit (<NUM>) is treated with an acidic solution to be released again; and an exhaust outlet line (<NUM>) which enables the carbon dioxide and other waste gases released as a result of the reaction of the carbonate solution in the receptacle (<NUM>) with the acidic solution to be discharged from the body (<NUM>) to an outer environment, characterized by
- the exhaust outlet line (<NUM>) comprising an inner part (<NUM>) having an inlet pipe (<NUM>) extending from the body (<NUM>) and through which carbon dioxide and waste gases enter, a locking part (<NUM>) attached to the end of the inlet pipe (<NUM>) and at least one pin (<NUM>) extending outwards from the locking part (<NUM>) and an outer part (<NUM>) detachably attached to the inner part (<NUM>) and having an interconnecting part (<NUM>) which can be connected to the locking part (<NUM>); a metal plate (<NUM>) which is disposed on the interconnecting part (<NUM>) and with which the pin (<NUM>) can get into contact and an outlet pipe (<NUM>) which enables the waste gases to be released to the outside environment; and
- a control unit (<NUM>) which detects that the inner part (<NUM>) and the outer part (<NUM>) are connected to each other as the pin (<NUM>) gets into contact with the metal plate (<NUM>) and which accordingly starts the air purification process.