The present disclosure relates to the manufacture field of electronic products, and more particularly to a fan filter unit (FFU) and an air purification system for a dust-free room.
To prevent dust particles from affecting product quality, many electronic products are generally placed in a dust-free room to filtrate solid particle impurities such as dust in air. As shown in
In view of the above-described problems, the aim of the present disclosure is to provide a fan filter unit (FFU) and an air purification system for a dust-free room thereof capable of extending service life.
The aim of the present disclosure is achieved by the following technical scheme.
A FFU comprises a fan, and a filter screen coupled with an air inlet of the fan. An air inlet of the filter screen is further configured with an auxiliary filter screen, and a minimum diameter of dust particles filtrated by the auxiliary filter screen is greater than a minimum diameter of the dust particles filtrated by the filter screen.
Furthermore, the auxiliary filter screen is fixed to the air inlet of each of the FFUs by screw fixing or buckle fixing. Because the auxiliary filter screen filtrates large dust particles, the large dust particles are easily accumulated by the auxiliary filter screen which makes the auxiliary filter screen be cleaned frequently. The auxiliary filter screen is configured to be removable, which makes the auxiliary filter screen be cleaned easily or directly replaces a clean auxiliary filter screen without the need to stopp equipment and affect production.
An air purification system for a dust-free room comprises a factory, and fan filter units (FFUs) connected with the factory. The each of the FFUs comprises fan, and a filter screen coupled with an air inlet of the fan. An air inlet of the filter screen is further configured with an auxiliary filter screen, and a minimum diameter of dust particles filtrated by the auxiliary filter screen is greater than a minimum diameter of the dust particles filtrated by the filter screen.
Furthermore, an air condensation layer is arranged between the filter screen and the auxiliary filter screen. Condensed air is conducive to make the dust particles accumulate and separate.
Furthermore, the auxiliary filter screen is fixed to the air condensation layer by t screw fixing or buckle fixing. Because the auxiliary filter screen filtrates large dust particles, the large dust particles is easily accumulated in the auxiliary filter screen which makes the auxiliary filter screen be cleaned frequently. The auxiliary filter screen is configured to be removable, which makes the auxiliary filter screen be cleaned easily or directly replaces a clean auxiliary filter screen without the need to stop equipment and affect production.
Furthermore, an air backflow filter layer is arranged between the air condensation layer and the filter screen. The air backflow filter layer supplies air to each of the FFUs, which filtrates the dust particles.
Furthermore, a temperature control ventilation layer is arranged between an air outlet of the factory and the FHA, and the auxiliary filter screen is arranged in the temperature control ventilation layer. Because the auxiliary filter screen arranged in spacious temperature control ventilation layer, an operator can stand on a floor to replace the auxiliary filter screen.
Furthermore, an air return duct is arranged between the temperature control ventilation layer and the air backflow filter layer, and airflow of the temperature control ventilation layer is communicated with airflow of the air backflow filter layer by the air return duct. This is a specific air purification system for a dust-free room.
Furthermore, an air outlet of each of the FFUs is connected to a top of the factory, and an air inlet of each of the FFUs is connected to a floor of the factory. Because density of the dust particles is greater than density of air, the dust particles are often accumulated at the floor of the factory. Thus, airflow is removed from the floor of the factory, and simultaneously the dust particles accumulated at the floor of the factory are removed. The airflow removed from the factory enters into the FFUs, then the airflow is blown out from the top of the factory after then the airflow is filtrated by the FFUs, then the blown airflow enables suspended dust particles to quickly move to the floor of the factory and then be removed from the floor. A cyclical operation repeats, which keeps the factory to be in a dust-free state.
Furthermore, an air outlet of each of the FFUs is connected to a top of the factory, and an air inlet of the FFU is connected to a floor of the factory. A temperature control ventilation layer is arranged between an air outlet of the factory and the FFUs, and the auxiliary filter screen is arranged in the temperature control ventilation layer. An air condensation layer and an air backflow filter layer are arranged between the auxiliary filter screen and the filter screen in sequence, and the auxiliary filter screen is fixed to the air condensation layer by screw fixing or buckle fixing. An air return duct is arranged between the temperature control ventilation layer and the air backflow filter layer, and airflow of the temperature control ventilation layer is communicated with airflow of the air backflow filter layer by the air return duct. The auxiliary filter screen is configured to be removable. This is a specific air purification system for a dust-free room.
The inventor finds by research that when the dust particles enter into ventilating ducts, in the filter screen, large dust particles are deposited first, and then small dust particles are stuck to surfaces of the large dust particles. Thus, the dust particles is accumulated layer by layer, and then the ventilating ducts and the filter screen are quickly blocked, which shortens service life of the FFUs and the air purification system for a dust-free room. In the present disclosure, the auxiliary filter screen is used, and the large dust particles are filtrated. The dust particles entering into the ventilating ducts and the filter screen are reduced, and dust particles entering the ventilating ducts and the filter screen are small and are not easy to be deposited, thus, which makes the ventilating ducts be unblocked. Therefore, only the auxiliary filter screen need to be periodically replaced while in use. By using double filtration, the lager dust particles and the small dust particles are separately filtrated, filtration efficiency and the service life of each of the FFUs is increased, replacement frequency and difficulty of the filter system are reduced, consumable cost of each of the FFUs is reduced, and the service life of the air purification system for the dust-free room is increased.
The present disclosure provides an air purification system for a dust-free room, The air purification system for a dust-free room comprises a factory, and fan filter units (FFUs) connected with the factory. Each of the FFUs comprises a fan, and a filter screen coupled with an air inlet of the fan. An air inlet of the filter screen is further configured with an auxiliary filter screen, were a minimum diameter of dust particles filtrated by the auxiliary filter screen is greater than a minimum diameter of dust particles filtrated by the filter screen.
The inventor finds by research that when the dust particles enter into ventilating ducts, in the filter screen, large dust particles are deposited first, and then small dust particles are stuck to surfaces of the large dust particles. Thus, the dust particles is accumulated layer by layer which makes the filter screen be quickly blocked, and shortens service life of each of the FFUs and the air purification system for the dust-free room. In the present disclosure, the auxiliary filter screen is used, where the large dust particles are filtrated first. The dust particles entering into the ventilating ducts and the filter screen are reduced, and the dust particles entering the ventilating ducts and the filter screen are small and are not easy to be deposited, thus, which makes the ventilating ducts to not be blocked. Therefore, only the auxiliary filter screen needs to be periodically replaced while in use. By using double filtration, the larger dust particles and the small dust particles are separately filtrated, filtration efficiency and the service life of each of the FFUs is increased, replacement frequency and difficulty of the filter system are reduced, consumable cost of each of the FFUs is reduced, and the service life of the air purification system for the dust-free room is increased.
As shown in
A temperature control ventilation layer is arranged between an air outlet of the factory and the FFUs, and the auxiliary filter screen is fixed to the temperature control ventilation layer. An air condensation layer and an air backflow filter layer are arranged between the auxiliary filter screen and the filter screen in sequence. Condensed air is conducive to make dust particles accumulate and separate. The air backflow filter layer supplies air to each of the FFUs, and can filtrate the dust particles.
An air return duct is arranged between the temperature control ventilation layer and the air backflow filter layer, and the airflow of the temperature control ventilation layer is communicated with the airflow of the air backflow filter layer via the air return duct.
The auxiliary filter screen is arranged in the temperature control ventilation layer, and is fixed to the air condensation layer by a removable mode such as screw fixing or buckle fixing. Because the auxiliary filter screen filtrates large dust particles, the large dust particles are easily accumulated by the auxiliary filter screen, and then the auxiliary filter screen is cleaned frequently. The auxiliary filter screen is configured to be removable, which makes the auxiliary filter screen be cleaned easily or directly replaces a clean auxiliary filter screen without the need to stop equipment and affect production. Because the temperature control ventilation layer is adjacent to the factory, an operator can stand on the floor to replace the auxiliary filter screen.
The present disclosure is described, in detail in accordance with the above contents with the specific preferred examples. However, this present disclosure is not limited to the specific examples. For the ordinary technical personnel of the technical field of the present disclosure, on the premise of keeping the conception of the present disclosure, the technical personnel can also make simple deductions or replacements, and all of which should be considered to belong to the protection scope of the present disclosure.
Number | Date | Country | Kind |
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201210424184.5 | Oct 2012 | CN | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CN2012/086249 | 12/10/2012 | WO | 00 | 12/27/2012 |