FI84433B - Filter arrangement for purification of a gaseous medium - Google Patents

Description

1 84433

Filter arrangement for cleaning gaseous medium

TECHNICAL FIELD The present invention relates to a filter device for cleaning a gaseous medium. It relates to filter devices comprising at least a first and a second layer of filter elements in the form of plates enclosed in a jacket and spaced apart and having an inlet side 10 in which the medium flows into the filter elements and an outlet side in which the medium flows out of the filter elements , said filter elements communicating via a first space on their inlet side to the inlet of the jacket and through a second space on their outlet side to the outlet of the jacket, the first and second spaces of each layer of filter elements being delimited by an inclined wall so that said first space is continuously decreasing cross-sectional area when viewed from the inlet, while the above-mentioned second space has a continuously increasing cross-sectional area, with two adjacent layers of filter elements not only is the above-mentioned first space for the second filter element layer but also a second space for the second filter element layer, said two spaces being separated by a common partition inclined with respect to the position of the filter elements, while the above-mentioned second space is delimited above outside said filter element layers and said first space 30 is delimited on the opposite outer side of the filter element layers from the outside by an outer wall of the lid which is similarly inclined with respect to the above-mentioned filter elements.

Background 35 Previously disclosed filter devices are 2,84433 designed primarily to meet the need for a wide range of filters and thus for high quality cleaning, or alternatively to meet the requirements of a compact design as an easy to handle and easy to install unit with less attention to cleaning performance.

Technical problem

One problem that arises is therefore the ability of the device to meet the requirements of 10 large filter areas and at the same time a compact design.

Solution

Both requirements can be met by a filter device according to the invention, characterized in that the jacket has an inlet duct extending the entire length of the first spaces and opening its entire length towards the first spaces, and an outlet duct extending the entire length of the second spaces and opening its entire length towards the second spaces, and that one of said filter elements is located below the two adjacent filter element layers, the inlet channel being located just in front of the edge portion of the lower filter element below the second filter element, so that the inlet channel opens towards said first space tightly to the wall of the jacket through which the lower filter element can be removed, said outlet channel being located just in front of the edge part of the upper filter element for a lower 30 s above said opposite edge portion of the filter element so that the outlet passage opens to said second space, the lower filter element and the upper filter element, the opposite edge portion of which is tightly connected to the jacket wall through which the upper filter element can be removed and below which the inlet channel is.

3,84433

Brief description of the drawings

The invention will now be described in more detail by way of example with reference to the accompanying drawings, in which Figure 1 shows a partially cut-away perspective view of a filter device according to the invention, and Figure 2 is a schematic representation of a cleaning plant.

Best Mode for Carrying Out the Invention 10 As can be seen from Figure 1, the filter device 1 according to the invention is constructed, for example, of a closed jacket 2 made of sheet metal, which encloses a space with at least two layers of filter units 3, 4. The medium to be removed is made to flow into the filter units 3, 4, and an outlet 6 from which the above-mentioned medium flows out from inside the filter device 1. The medium to be cleaned by filtration is a gaseous substance, for example air, mixed with dust and solvents, which are present, for example, when performing spray painting in a spray-painting booth. The gaseous medium is fed through the inlet 5, for example by a suction fan located on the outside of the filter device, for example in a duct connected to the outlet.

The interior of the jacket 2 comprises on the one hand a main chamber with filter element layers 3, 4 and certain additional chambers, which will be described in more detail later, and on the other hand an inlet channel 7 through which the medium flows from the inlet 5 to the main chamber and also an outlet 8 through the medium from the main chamber to the outlet. 6. The inlet duct communicates with the outlet side 10 of each filter element. The inlet opening 5 and the outlet opening 6 are formed as openings in the middle of the inlet duct 7 and the outlet duct 8, respectively, arranged symmetrically in the walls of the respective ducts.

4,84433

The filter elements 3, 4 are substantially flat, parallelepiped-shaped bodies, for example carbon filter elements divided into a plurality of parts 11, 12, the downwardly directed rectangular surface forming the inlet side according to the example shown, while the upwardly directed rectangular surface forming the outlet side, and the other surfaces, i.e. the side surfaces, are intended to be sealed so that the medium cannot pass through them. The parts of the filter element together form the element layers of the filter-10, which are arranged parallel to each other and these layers are two in the example shown, the upper filter element layer 3 and the lower filter element layer 4. The filter elements 3, 4 are preferably horizontal so that the air flow through them moves. mainly in a vertical direction from bottom to ceiling. Both filter element layers are arranged so that each side of each filter element layer has an additional chamber 13, 14, 15, 16, respectively, the height of which varies progressively according to the invention from the inlet 5 of the filter device to its outlet 6, i.e. progressively variable cross-sectional area. The above-mentioned additional chambers comprise a pressure chamber 13, 14 for each layer of filter elements and an outlet box 15, 16 as well as for each layer of filter elements 25. More specifically, the height of these additional chambers changes from the inlet 5 in the direction of the outlet 6, so that the height of the pressure chambers 13, 14 decreases, while the height of the outlet boxes 15, 16 increases.

This variable height of the pressure chamber and the discharge box, respectively, is provided in the additional chambers between the two layers of filter elements by an inclined partition, which is, for example, a metal plate. This extends from the longitudinal edge 35 18 of the inlet opening 5 of the lower filter element layer to the opposite longitudinal edge 19 of the upper filter element layer 3. The pressure chamber 13 of the lower filter element layer 4 is delimited in part by delimited in part by an opposite filter wall of the jacket, i.e. on the upper side of the jacket which is inclined and forms a certain angle with the filter surface of the filter elements. The jacket 2 also has two end passages, which may be substantially flat (see flow 2) and close the additional chambers 13-16.

The structure of the filter device 1 according to the invention is such that the two filter element layers 3, 4 are connected to each other in parallel at the inlet point 5 and the outlet point 6 so as to obtain a large filter surface and 15 a fast passage of gaseous medium. Due to the structure of the pressure chamber and the variable height outlet as described above, the pressure is evenly distributed on the inlet side of the filter elements. This is achieved in such a way that the cross-sectional area of the pressure chambers 13, 14 decreases from the inlet point 5, for example so that the inclination of the partition wall 17 with respect to the filter elements is 1:10. This creates a higher pressure in the pressure chambers than in the outlet box, which is why it is preferable to provide stiffeners in the outlet boxes to prevent the intermediate wall 17 from bending. However, the pressure drop is relatively small, for example 75 mm vp at an air velocity of 0.25 m / s, which gives the gas a long contact time in the filter units, which again guarantees high-quality cleaning. The low flow rate means that the heavy particles 30 do not travel with the upwardly moving flow, but fall on the metal plate 17, 20 below.

The filter elements 3, 4 should preferably be arranged so that they can be replaced, for example by regenerating them, i.e. by removing dirt particles from the filter elements 6 8 3433 seaways, this being possible because the jacket 2 has openable parts. These parts should preferably be positioned so that in the example shown the upper layer of filter elements is moved to the right, i.e. above the inlet 5, and the lower layer of filter elements is moved to the left, i.e. below the outlet 6. The openable parts can be made, for example, as removable plates which form a sealing contact with other parts of the jacket, or by placing the side parts 22, 23 of the filter elements themselves in openings in the jacket wall so as to provide a good seal against other parts of the jacket. Each layer of filter elements may comprise the above-mentioned filter parts, which may be loosely connected to each other and remain in place by means of the guides 15 (not shown) of the jacket 2, in which they move when they are pushed into and out of the jacket 2. Each layer of filter elements may comprise one unitary unit which moves with the filter elements as they are pulled out. In this case, it is important that they form a tight connection with each other and with the outer wall of the jacket, so that the gaseous medium cannot pass unpurified through the filter device.

The gaseous medium to be cleaned by filtration is thus fed to the inlet from the rectangular deaf in Fig. 1, see arrow 24. Once the gaseous medium has passed through the inlet duct 7, it flows into two pressure chambers 13, 14, see arrows 25. In the pressure chambers the gaseous medium is , 4 from and through the inlet side, whereby the cleaning 30 takes place by absorption and / or adsorption of foreign particles in the gaseous medium, and when the liquid passes through the filter elements it passes outside, passes through the outlet boxes (see arrows 26) and (see arrows 27), after which the medium comes out of 7 84433 outlet 6 (see arrow 283).

Figure 2 shows diagrammatically an example of an installation using a filter device 1 according to the invention. The filter device is part of an installation for partial recirculation of purified air, which means that a certain amount of outside air, for example 25% of fresh air supply, is supplied to 75% of recirculated air. with. The cleaning device can be placed, for example, in a spray booth, in which case high-quality recycling 10 means, on the one hand, that energy is saved and, on the other hand, that the environment outside the spray booth is not significantly contaminated. The gaseous medium, i.e. the air in the spray booth, for example with paint particles and solvents, is sucked into the filter device 1 through the inlet 5 by a suction fan 29 located at the outlet of the filter device. The purified gaseous substance is fed back to the spray painting booth by a fan 29 through a ventilation drum 30 and a spray fan 31 and a second filter 32. However, in this case, as already mentioned, part of the recirculated air is supplied through the ventilation duct 33 to the environment associated with the area to be cleaned, while a corresponding amount of air is supplied from the environment via the ventilation duct 34 connected to the spray fan 31.

The invention is not limited to the structure referred to and shown above, but may be modified within the scope of the following claims. For example, a filter device according to the invention can be constructed from more than 30 two layers of filter elements. The filter device can also be used in many different applications that require purification of the gaseous medium.

Claims (3)

A filter device for purifying a gaseous medium and consisting of at least one first and second layers of filter elements (3, 4) in the form of discs enclosed in a housing (2) and located at a fixed distance from each other and having an inlet side, on which the medium flows into the filter elements, and an outlet side on which the medium flows out of the filter elements, said filter element via a first space (13, 14) on its inlet side communicating with an inlet to the filter element. the housing and via a second space (15, 16) on its outlet side, in communication with an outlet (6) from the housing, and the first and second space (13, 14, 15, 16) for each layer 15 of filter elements are defined by a inclined wall (17, 20, 21) such that the above-mentioned first space is given a successively decreasing cross-sectional area when viewed from the inlet (5), while again the above-mentioned second space is given a successively increasing cross-sectional area, whereby two adjacent layers of filter elements (3, 4) are placed not only the aforementioned first space (14) for one of the layers of filter elements (3), but also the second space (15) for the second layer of filter elements (4), and the two spaces have been separated from each other by a common separating wall (17) which slopes relative to the position of the filter elements, while again the above-mentioned second space (16) on the outside is delimited by the above layers of filter elements (3). and the aforementioned first space (13) is delimited against the opposite exterior of the layer of filter element (4) by the outer wall of the housing, which wall similarly slopes relative to the aforementioned filter elements, characterized in that the housing (2) ) has an inlet passage (7) which extends over the entire length of the first spaces (13, 14) and is open to the first spaces over its entire length, and an outlet passage (8) , which extends over the entire length of the other outlets (15, 16) and is open to the other outlets over its entire length, and that due consideration of two layers of filter elements (3, 4) located adjacent to each other, one of said filter elements below the second filter element, the inlet channel is just in front of an edge portion (18) of the lower filter element (4) such that the inlet channel is open to said first space (13,1 4) for the lower filter element 10 and for the upper filter element (3), while again the lower filter element with its opposite edge portion (23) tightly connects to the wall of the housing, through which wall the lower filter element can be removed, and said outlet channel has been placed just in front of an edge portion (19) of the upper filter element above said opposite edge portion of the lower filter element such that the outlet channel is open to said second space (15, 16) for the lower filter element and for the The upper filter element, whose opposite edge portion tightly adheres to the wall of the housing, through which wall the upper filter element can be removed and below which the inlet duct likes. 2. Filter device according to claim 1, characterized in that the inlet (5) lies in a central portion of the inlet duct (7). 3. Filter device according to claim 2, characterized in that the outlet (6) lies in a central portion of the outlet duct (8).