CZ2021510A3 - A multi-stage filter unit of an air filter system - Google Patents

Abstract

Multi-stage filter unit of the air filtration system, containing pipes of rectangular cross-section, in which the individual filter stages are located. Each filter stage consists of two reservoirs (10) located outside the pipe (14), at least one of which is equipped with a winding mechanism (9) of sliding filter belts (1, 2, 3) equipped on the reinforced edges (16) of the window (11') for optical gates (11) to measure the displacement (12) of these belts (1, 2, 3) arranged between the reservoirs (10), and is further equipped with differential pressure sensors (5). The device consists of four filter stages of different construction and function. The fourth level is protection against the ingress of unwanted gases and smoke.

Description

Multi-stage filter unit of the air filter system

Field of the invention

The invention relates to a multi-stage filter unit of an air filtration system with fully automatic replacement of filters in individual stages based on continuous evaluation of the quality of the flowing air in each part separately.

Current state of the art

In the current situation of overall environmental pollution and air quality requirements in public spaces and in homes, existing air filtration systems even in complex air-conditioning equipment are still based on the trivial manual replacement of filters, located here in fixed frames, mostly on set dates, regardless of their current contamination and pollution. The intervals of these exchanges usually do not correspond to the situation of heavy filter contamination. At the same time, impurities are released from the clogged filters during operation and get further into the air system, so that the clogged filters cease to fulfill their purpose and, in addition, de facto cause greater resistance to the intake air. This results in the intake air flowing through the filters full of impurities, taking dust particles and allergens with it, and they then get further into the ventilated areas protected by the filters.

The essence of the invention

The mentioned shortcomings are eliminated by the multi-stage filter unit of the air filtration system, containing a pipe of rectangular cross-section, in which the individual filter stages are located, according to this technical solution, the essence of which is that each filter stage consists of two reservoirs located outside the pipe, at least one of which it is equipped with a winding mechanism for sliding filter belts, which are arranged between the reservoirs and equipped with windows for optical gates on the reinforced edges to measure the displacement of these filter belts. Each filter stage is equipped with differential pressure sensors, and an air quality sensor is further arranged behind the first basic filter belt, and the third filter stage is equipped with odor and toxin sensors. The first filter stage contains a basic filter belt formed by a filter with a normal filter permeability, where the filter material is arranged on a surface along its entire length and the movement of the belt here is unidirectional, since only one container is equipped with a winding mechanism. In the second filter stage, where the sliding filter belt is equipped alternately with at least one part with a dust filter and a fully permeable part, the displacement of the filter belt is bidirectional, thanks to the fact that both reservoirs are equipped here with a winding mechanism, just like in the third filter stage, where, however the filter belt is alternately equipped with at least one part with a filter material consisting of a carbon filter and a fully permeable part. The fourth stage, which forms protection against the ingress of unwanted gases and smoke, has a upstream smoke, gas and noxious substance sensor and also contains two reservoirs with winding mechanisms ensuring bidirectional displacement of the safety belt with windows for the optical gate arranged here to measure the displacement of the safety belt equipped with a permeable part and part of an impermeable and non-flammable blind.

The subject multi-stage filter unit enables air filtration with fully automatic replacement of filters in individual stages of filtration based on continuous evaluation of the quality of the flowing air in each part separately. It evaluates and currently reacts fully automatically according to user settings to current air pollution, which it registers with the help of installed sensors for dust, odors, gases, etc. Specific filters are automatically changed according to the state detected by these sensors.

- 1 CZ 2021 - 510 A3

For proper functioning, it is advantageous here if the dust filter of the second filter belt is formed by a Hepa or Nano filter.

Clarification of drawings

The invention will be explained in more detail with the help of drawings, where in Fig. 1 is a multi-stage filter unit of an air filter system in a schematic axonometric design. Giant. 2 shows the basic filter belt of the first stage of filtration with a filter with normal filter permeability and Fig. 3 the belt of the second stage of filtration with completely permeable parts and with parts containing a dust filter, respectively Hepa or Nano filter. Similarly, Fig. 4 represents a third filter belt with carbon filter parts and fully permeable parts. Fig. 5 shows a segment of the safety belt with a permeable part and a part made of an impermeable and non-flammable blind.

Examples of implementation of the invention

The multi-stage filter unit of the air filter system, see Fig. 1, is arranged in a rectangular duct 14, into which a flow 13 of sucked in polluted air enters, which first passes through the first stage of filtration, which consists of a basic filter belt 1 and two of its reservoirs 10, located outside the rectangular pipe 14, where only one of the reservoirs 10 is equipped with a winding mechanism 9. The displacement 12 of the basic filter belt 1, see Fig. 2, in which the filter substance 15 with normal filter permeability is arranged on its surface along its entire length, takes place so only one-way. The optical gate 11 of the displacement measurement 12 arranged here, thanks to the windows 11' located on the reinforced edge 16 of the basic filter belt 1, guarantees the precise displacement and positioning of the basic filter belt 1 with regard to the identification of the degree of pollution. By strengthening the edges 16 of the basic filter belt 1, greater strength and stability of the mentioned windows 11' is achieved. The differential pressure sensor 5 measures and compares the pressure of the air in front of and behind the basic filter belt 1. A clean basic filter belt 1 shows a given air permeability, if it starts to become clogged with dust impurities, its resistance to the intake air rises, and this results in a pressure difference before and after by the basic filter belt 1. The differential pressure sensor 5, which is set according to the needs and requirements of the user, then evaluates the degree of clogging of the basic filter belt 1 and, according to the detected values, the system either leaves the basic filter belt 1 in the same position or moves its dirty part to the reservoir 10. During this exchange, in order to prevent any possible contamination of dirt when moving the basic filter belt 1 further into the air-conditioning system, the second filter belt 2, consisting of either a Hepa filter or a Nano filter, is pushed out for the time being, if it is not already the case, from the second filter degrees.

The device independently measures and registers its unwinding using the optical gate 11 and windows 11' on the basic filter belt 1 and notifies the operator in advance of its end. The mentioned facts can be solved even through remote access, so that the user or service worker has an up-to-date overview of the stock status of the clean basic filter belt 1 and the possible need for its replacement.

More perfect filtration is further ensured through the following second stage, where the second filter belt 2, see Fig. 3, contains parts of the dust filter 17, i.e. Hepa or Nano filter, with a minimum efficiency of 99.97%, capable of capturing microscopic dust particles and allergens, while also acting as a support when changing the basic filter belt 1 in the first stage. The second stage of filtration works similarly, with the difference that the displacement 12 of the second filter belt 2 is bidirectional here, so both reservoirs 10 are equipped with a winding mechanism 9 to ensure the displacement 12 of the second filter belt 2 back and forth.

The air stream 13 coming from the first stage of filtration is indeed filtered through the basic filter belt 1, however, if the outdoor air contains the aforementioned microscopic particles of pollution that pass through it, in the second stage of filtration, after detection of these microparticles by the air quality sensor 6, a part will be ejected dust filter 17, i.e. Hepa or Nano filter, from reservoir 10 a

- 2 CZ 2021 - 510 A3 to capture them. However, the second filter belt 2 is not made up of one continuous Hepa or Nano filter, but its certain length is followed by a fully permeable part 18, without any filter elements. This is followed again by a Hepa or Nano filter part, or two Hepa or Nano filter parts can be arranged one behind the other as needed, and then the completely permeable part 18 follows. The reason is that if the quality of the outside intake air improves, which it will detect according to the desired setting sensitive sensor of 6 dust microparticles, and there is no need to further clean the air, the part of the Hepa or Nano filter is replaced on the second filter belt 2 by the fully permeable part 18. This saves the part of the Hepa or Nano filter. The system remembers which part of the second filter belt 2 was last used and what its current contamination is, and if it is possible to use this part again, it will use it again at the next opportunity. The reinforced edge 16 of the second filter belt 2, as in the case of the first filter belt 1, ensures its greater strength and the stability of the windows 11' for the detection of the optical gate 11, guaranteeing the precise movement and positioning of the relevant part of the second filter belt 2 with the identification of pollution. If the Hepa or Nano filter becomes clogged, which again evaluates the differential pressure sensor 5, another clean part of the Hepa or Nano filter is ejected. The system is programmed and the displacement 12 of the second filter belt 2 is controlled by the optical gate 11 so that at any moment the air behind said filter belts 1 and 2 is clean according to the settings. The air quality is constantly being measured here. And just like in the first stage, the operator is continuously informed about the current state of the rest of the second filter belt 2.

The third filtration stage ensures the filtration of odors, toxins and gaseous pollutants, which here are detected, evaluated and compared by the odor sensors 7, through the filter part of the carbon filter 19 of the third filter belt 3, see Fig. 4, containing activated carbon that absorbs odors and toxic substances . The two-way displacement 12 and arrangement of the third filter belt 3 in the reservoirs 10 equipped with winding mechanisms 9 is the same as in the second stage of filtration. The third filter belt 3 is made up of at least one part of the carbon filter 19 and a subsequent completely permeable part 20. Also in this case, the filter belt 3 is provided with reinforced edges 16 for greater strength and stability and windows 112 for detection by the optical gate 11, which guarantees accurate movement and placement of the permeable part 20 or the carbon filter 19 with the identification of pollution. Again, if the carbon filter 19 is clogged or there is no need for filtration, which is evaluated by either the differential pressure sensor 5 or the odor sensors 7 by comparing the condition before and after the carbon filter 19, a part of the third filter belt 3 is moved as needed. Even in this case, the shift 12 is controlled by the optical gate 11.

Each stage of filtration works independently and can therefore be used independently.

The fourth level constitutes safety protection against the intrusion of unwanted gases and smoke into the protected space. It consists of a safety belt 4, see Fig. 5, containing a part made of an impermeable and non-flammable blind 21 and a completely permeable part 22, which here, as in the cases of the second and third filtration stages, is arranged in two reservoirs 10 equipped with winding mechanisms 9 for bidirectional movement 12 of seat belt 4. In case of danger, for example a fire or the detection of strong smoke in the intake air, or unwanted life-threatening gases detected by the sensor 8 of smoke, gases and noxious substances located in front of the seat belt 4 itself, the fourth stage blocks by pulling the impermeable and non-flammable blind 21 any intake and movement of air from the outside, thus putting the entire downstream system of air handling equipment out of operation. After the danger has passed, the impermeable and non-flammable blind 21 is rolled into the magazine 10, while the completely permeable part 22 of the safety belt 4 is extended and the operation of the entire device is restored. Even in this case, the safety belt 4 has reinforced edges 16 for greater strength and stability of the windows 112 for detection by the optical gate 11 arranged here, guaranteeing the precise displacement 12 and location of the subject parts of the safety belt 4.

Claims (2)

1. A multi-stage filter unit of an air filtration system, containing a pipe of rectangular cross-section, in which individual filter stages are located, characterized in that each filter stage consists of two reservoirs (10) located outside the pipe (14), at least one of which is equipped by the winding mechanism (9) of sliding filter strips (1, 2, 3) equipped on the reinforced edges (16) of the window (11') for optical gates (11) to measure the displacement (12) of these strips (1, 2, 3) arranged between reservoirs (10), while each filter stage is equipped with differential pressure sensors (5) and behind the first basic filter belt (1) an air quality sensor (6) is further arranged, and the third filter stage is equipped with sensors (7) for odors and toxins, while the first filter stage contains a basic filter belt (1) formed by a filter with a normal filter permeability, where the filter material (15) is arranged on a surface along its entire length and the displacement (12) of the basic filter belt (1) is here unidirectional, since the winding mechanism ( 9) is equipped with only one reservoir (10), while in the second filter stage, where the sliding filter belt (2) is equipped alternately with at least one part with a dust filter (17) and a fully permeable part (18), the displacement (12) of the filter of the belt (2) bidirectional, thanks to the fact that both reservoirs (10) are equipped with a winding mechanism (9), just like in the third filter stage, where, however, the filter belt (3) is alternately equipped with at least one part with a carbon filter (19) and part (20) fully permeable, while the fourth stage, which forms protection against the ingress of unwanted gases and smoke, has a upstream sensor (8) of smoke, gases and noxious substances and also contains two reservoirs (10) with winding mechanisms (9) ensuring bidirectional displacement (12) of the safety belt (4) with windows (11') for the optical gate (11) arranged here to measure the displacement (12) of the safety belt (4) equipped with a permeable part (22) and a part made of an impermeable and non-flammable blind (21) . 2. Multi-stage filter unit of the air filter system according to claim 1, characterized in that the dust filter (17) of the second filter belt (2) is formed by a Hepa or Nano filter.