SE531451C2 - Air purification system for one or more rooms and filtration unit in the air purification system - Google Patents

Description

DESCRIPTION OF THE DRAWINGS The invention will be described in more detail below with reference to the accompanying drawings, in which fi g. 1 shows purely mechanically an example of an installation in a room of an air purification system according to the invention, fi g. 2 is a perspective view of an filtration unit according to the invention where a side wall is removed for the sake of clarity, fi g. 3 is a side view of the unit according to fi g. 2, likewise with one side wall removed, and fi g. 4 is a functional diagram showing an example of the system according to the invention.

PREFERRED EMBODIMENT As shown in fi g. 1, the air purification system consists of one or more filtration units 1 with fine filters for a high-grade purification of air which can in principle be recirculated in an almost closed system. In practice, however, a controlled air exchange of a certain proportion of air takes place with the outer tuft. Examples of the structure of an alteration unit 1 are described in more detail below with reference to mainly fi g. 2 and 3. The system consists of a supply air side 2 for supply air to each room 3, 4, 5 in the form of a number of air ducts 6, 7, 8, eg so-called spiral pipes which branch so that supply air can take place directly to each room in the form of supply air openings. 9, 10, 11, with at least one opening per room. The openings are designed as supply air devices and are advantageously designed with nozzles or diffusers with adjustable opening slots so that the air is distributed evenly over the room with a selected fate. The supply air devices 9, 10, 11 are according to the invention placed at the top of each room, suitably in the ceiling 12 or at the top of a wall, while the exhaust air is collected from the room as low as possible, close to the floor 13. The system thus has a exhaust air side 14 with a number of air ducts 15, each starting with an exhaust air opening 16 in the form of exhaust air ducts, one or two for each room and connected to an exhaust air or return duct 17 to the filtration unit 1 which can be located in a suitable place in the building, e.g. which is shown on a lower floor. In each exhaust air diffuser, a coarse alter or pre-alter is arranged for collecting coarser particles, dust, etc., which are often collected at or near floor level.

In order to create the air circulation, ie the air flow in the system and through the unit 1, an air extraction unit 18 with a large capacity and a large duct area is arranged to provide a large flow at a low speed. As in the example shown, the mating unit is advantageously integrated in the altering unit 1 and forms a mating floor or mating section 19 at the bottom of the unit, as shown in fig. 2 and 3.

In the example, the fan is of the radial type, at whose inlet or outlet is advantageously arranged a filter or coarse filter for further collection of remaining larger particles before the air is passed on to the filter.

With reference mainly to Figs. 2 and 3, the filtration unit 1 will be described in more detail. This is built as a closed cabinet with a box-shaped housing 20 or casing with four flat pairs of parallel, opposite side walls 21, 22, 23, 24 and a top part 25 and a bottom part 26. The house is built up of a number of floors or sections, of which the bottom is the fl genital section 19. Each section can be a separate unit that can be stacked above the lower units.

Above the main section are three filter sections 27, 28 and 29 or floors, each with a filter 30, 31, 32, for example in the form of a carbon filter bed with a large surface area and a high degree of filtration capacity. However, in order to better show the mechanical structure, the ether material in the filter bed has not been included. 2. Through the uniform construction of the housing 20, all sections obtain a uniform outer cross-sectional shape and uniform dimensions with respect to horizontal cross-sections through the respective section. 10 15 20 25 30 531 451 As realized by fi g. 2 and 3, the filters are substantially rectangular in their horizontal cross-sections but have mutually different dimensions and locations. However, each terlter extends in depth viewed in fi g. 3 over the entire inner depth of the house between two of the opposite side walls. l across the plane of the paper in fi g. 3, the filters are consistently shorter than the space between the two opposite side walls 21, 22 and leave space for bypass ducts 33, 34, 35, 36 for the passage of air past a filter section or two sections. These channels, which for simplicity are called bypass channels, are separated from the filters 30, 31, 32 by partitions 37, 38, 39, 40, 41, 42. The bypass channels are of two types, namely a first type of bypass channels 33, 34, which passes untreated air past one or more of the filter sections to direct the air flow to the underside of one of the filters. which is located above. These are located in the lower section 27 and the section 28 above.

A second type of bypass ducts 35,36 transmits purified air past above the filter section located in the example. The four partitions 37-40 are upright, ie have a substantially vertical extension viewed from the side, possibly with a smaller slope, two of the partitions 37, 38 being shorter than the space between two section planes and merging into the lower part section and the intermediate section into two partially lying, obliquely sloping partitions 43, 44 which end at the underside of one edge 45, 46 of the above-lying elements, respectively. which forms inlets with a large surface for untreated air. The sloping partitions 43, 44 in the lower filter section 27 and the intermediate section 28 separate channels 50, 51 for inlets to the respective outlets from the filters in these sections. Corresponding sloping partitions 52, 53 are found below the lower filter 30 and above the upper filter 32 to create the inlet duct and outlet duct for the filters, respectively. The lower sloping partition 52 is located in the ektion section 19 and separates the inlet channel together with a partition 54 with an opening 55 to which the outlet of the är is connected.

Between each section are arranged passage openings 56, 57, 58, 59 for passing the air from below section to the bypass ducts 33, 34, 35, 36. At the top below the top part 25 is arranged an outlet section 60 with a partition 61 having an opening 62 above the upper bypass duct 36 and an opening 63 above the upper partition 42. The opening 63 releases the purified air from the upper filter. As a result, all filtered air is collected at the top of the housing and is further driven out through an outlet opening 64 in the top part and via a conical portion 65 connects to the supply air cycle of the duct system.

The structure described above creates an alteration system with a very large alteration area on the smallest possible room area. This is achieved by the three filters being connected in parallel so that the air driven by means of the filter is controlled in three parallel air currents up through each of the filters balanced so that the fate becomes uniform. The balance is achieved by choosing the air ducts 37-42 for the bypass ducts 33-36 in particular are of great importance. Controlling the capacity of each filtration unit 1 is the cross-sectional area where the placement of the partitions horizontally and based on this area, you can create balance in the air with a choice of font size which is advantageously the same for all filters, and the location of the partitions, ie viewed in the side view according to fi g.3 thus, the lateral location of the partitions and thus the width dimension of the rectangular cross-section of the bypass channels 33, 34, 35, 36 with a fixed depth dimension which is substantially equal to the distance between the opposite side walls 23, 24 is selected. in the lower filter section 27 and in the upper filter section 29 considerably larger cross-sectional area than each of the two bypass channels 34, 35 in the intermediate section 28, suitably in the order of equal to the sum of the two bypass channels 34, 35. the housing with a selected cross dimension viewed in 10 15 20 25 30 531 451 In summary, a main fl fate from fl the marriage section 19 is divided into part fl fate so that a part fl ö those in the lower section 27 pass through the lower alter and are caused to pass between the alter 31 in the middle section 28, alternatively are also passed between the alter and are brought to pass the upper alter 32.

The portion passing through the lower filter 30 is passed over the middle filter in the middle section and the upper filter in the upper section. Divide the fate through the middle altar by passing the upper altar. Two of the portions from the intermediate section flow together in the common bypass channel 36 in the upper section 29 to be merged above it with the portion from the upper filter 32 to the common outlet from the filtering unit 1 to the supply air side 2 of the system. The pipe system outside the filtration unit 1 is also dimensioned for a balanced air flow. The ventilation flow even outside the filtration unit runs in parallel, ie the rooms are connected in parallel. In order to obtain an optimal fate, different pipe dimensions were used with regard to the cross-sectional area, so that on the supply air side 2, the pipe dimension in individual rooms is smaller than in some parts with supply to your rooms.

Fig. 4 shows a functional diagram of an example of a ventilation system, where the air purification system according to the invention can be included. The system can advantageously be integrated with a heating cooling system and form a complete air conditioning system. For this purpose, a heating cooling unit 66 can be built into the system, for example after the filtration unit 1, and can either be built into the same house or separately. For example, the heating cooling unit can be designed as a cassette which is part of the housing. The heating can consist of a water battery with used water by alternative electric heating. The example shows a control valve 67 which is controlled by a thermostat, for example a heat pump and heat exchanger, 10 15 20 25 30 531 451 which may be an outdoor thermostat, possibly in combination with one or more of your indoor thermostats. The fan in the system can be a constant fl fate controlled fl true 18. The main fl fate is a closed fl fate from the supply air side 2 out into each room 4, one of which is schematically shown in fi g. 4. The air flows into the top of the rooms through the opening 9, which may be an adjustable air valve, and leaves the rooms at the bottom via the exhaust air opening 16, suitably provided with a coarse alter 68.

On the exhaust air side 14, the main part of the fl is returned to the suction side of the main fl spigot 18, while a varying smaller proportion is led out to the surroundings suitably via a fl spout 69 and a damper 70 in an outlet duct 71. Correspondingly, fresh air from the surroundings is led in via an inlet duct 72 and a fan 73 to the main suction side of the head 18. The main gear that is not switched passes a controlled damper 74, which cooperates with other units in the air switching. This can be controlled by fl your parameters, eg carbon monoxide on the exhaust air side 14 which is sensed by a sensor in the air duct after the rooms, but also outside and inside temperature can control the air exchange, which for economic reasons should be kept down in case of large temperature differences between outdoor and indoor air. poor outdoor air quality, however, high indoor air quality should be the guiding principle, where a low carbon monoxide content is thus a measure.

The filters in the filtration unit 1 are advantageously constituted by highly adsorbent carbon particles of granules, collected in three box-shaped beds, which rest on their carrier planes 46, 47, 48. The carbon granules are e.g. of Fenerone with the ability to separate from the air passing through each 30lter 30, 31, 32 mycket very small particles and substances, including odors, gases, radon m.m. Through air passage across the horizontal filters with a large filter surface, the flow rate through the filters can be kept low and thus a high degree of filtration is achieved. With the construction of the unit 1, an extremely large surface area is thus obtained in relation to the cross-sectional area of the inlet and the outlet 64. Due to the large inlet area of each filter, the tendency to clog decreases and the life of the filter is extended. The invention is not limited to the examples described above and shown in the drawing but can be varied within the scope of the appended claims.

For example, dimensions and angles may be different, for example with regard to the partitions between filter and air ducts. A good starting point, however, is that the house is given a selected standard dimension and that in the event of a need for greater capacity, two, three or two filtration units are used which are connected in parallel, eg simply placed next to each other and connected to the system's supply air and exhaust air side. In special cases with extremely high requirements for degree of alteration, it is conceivable to connect the units in series. Both the inlet and the outlet in the house can be placed in one of the side walls at the bottom and top, respectively. For the sake of simplicity, the term unfiltered air is used, meaning air that may be coarsely filtered but not filtered in a filter. The housing can be provided with insulation in the outer walls and that there are inner walls in the housing which instead form part of the walls of the air ducts in the filtration unit.

Claims (3)

10 15 20 25 30 531 45? PATENT REQUIREMENTS Air purification system for one or more of your rooms (3, 4, 5) in a room and consisting of at least one alteration unit (1), marble unit (18) for driving the air through a number of filters (30, 31, 32) in the alteration unit or units and circulate filtered air via supply air ducts (6, 7, 8) and supply air openings (9, 10, 11) through said room and via exhaust air openings (16) and exhaust air ducts (15) back to the filtration unit or units and with a controlled distribution exchange with outdoor air via inlet and outlet ducts (72, 73), each filtration unit (1) being provided with a box-shaped housing (20) and closed side walls (21-24) and inlet (55) for untreated air at the bottom and outlet (64) for purified air at the top, characterized in that the side walls (21-24) of the housing form outer walls for air ducts (33, 34, 35, 36) in the filtration unit (1) for air flows between the inlet and outlet of the unit for passage through the filters arranged with three sections above each other, that each parent section extends mainly between two of the side walls, that the side walls are opposite in pairs and in parallel parallel, that at each ektionterter section is located partly partitions (37, 38, 43, 44) which separate each filter and a first type of bypass channels (33, 34 ) for untreated air flow to filters located above and partly partitions (39, 40) which separate bypass ducts (35, 36) for purified air, which have passed through the below alter, from above alter, whereby the air flows can be caused to pass in parallel streams through each filter, that the filter sections consist of a lower filter section (27), an intermediate section (28) located above and an upper filter section (29), that the filtering unit has in the lower filter section a first bypass channel (33) for unfiltered air, in the middle section a second bypass duct (34) for purified air to the filter in the upper filter section and a third bypass duct (35) for purified air from the filter in the lower filter section and In the upper filter section a bypass duct (36) which partly forms a continuation of the third bypass duct for purified air in the middle section and partly is arranged to bypass purified air from the filter in the middle section, and that the partitions (37- 10 15 531 451 10 39, 43 , 44) in that below the filter section (27) and the intermediate section (28) consists of a standing partition (37, 38) which merges into an inclined partition (43, 44) which extends below the filter in the section above and connects to one of its edges . Air purification system according to claim 1, characterized in that the cross-sectional area of each of the first and fourth by-pass channels (33, 36) is of the order of magnitude equal to the sum of the cross-sectional areas of the second and third by-pass channels (34, 35) in the middle section (28). Air purification system according to claim 1, characterized in that the supply air openings (9, 10, 11) are located at a high level in or near the ceiling (12) in each room (3, 4, 5) and that the exhaust air openings (16) are located on low level near the floor (13) in each room, so that the air flow is caused to flow through the room from top to bottom.