RU193172U1 - Frameless channel filter - Google Patents

Abstract

The utility model relates to the field of ventilation, mainly ventilation of residential premises. The frameless channel filter contains a smaller base with a guide ring, a larger filter base in the form of a ring with a flange and an internal auxiliary element, while on the outer surface of the flange of the larger base there is a sealing ring, a corrugated filter material with an opening angle of 10-15 degrees, and a corrugated filter - the material is hermetically connected to the bases and is made gradually expanding from a smaller base to a larger base. The technical result consists in improving the quality of filtration, which is achieved by increasing the area of the filter surface, ensuring the passage of air flow through the surface of the corrugated filter material.

Description

Frameless channel filter

[001] Scope

[002] The utility model relates to the field of ventilation, mainly ventilation of residential premises. Designed to filter the air coming from the street into the room.

[003] Background Art

[004] An air filter is known (CN 201157731). The filter element is fixed on the outside of the main body, the base case is a surface cylinder that is cylindrical, and the venturi is placed inside the base case, and the position of the venturi corresponds to the location of the filter. between the channel of the filter cartridge and the base is a rubber O-ring.

[005] The disadvantage of this filter is its complex design, due to the presence of a large number of elements, such as a venturi, multi-plane barrel, etc.

[006] In addition, an aerosol filter element (RU 2283686) is known, comprising a fine filter with a cleaned air outlet, a hydrophilic filter made in the form of a perforated shell with upper and lower covers, on the outer surface of which there is a coalescing shell enclosed in a mesh casing. The fine filter is placed with a gap in the perforated shell to form an annular cavity in which elastic elements are installed. The filter element contains an elastic washer installed between the end of the fine filter and the top cover, and a bypass device made in the form of channels, located in one of the covers. The elastic elements are made in the form of zigzag tapes, with the outer protrusions of the tape fixed to the inner surface of the perforated shell, and the inner protrusions interact with the side surface of the fine filter. The channels of the bypass device are made at an angle to the longitudinal axis of the element. The channels of the bypass device can be equipped with spring-loaded retaining valves.

[007] The disadvantages of such a filter element are that it can only be used in vehicles, such as car cabs, airtight automobile bodies, aircraft cabins, etc., as well as a complex structure due to the presence of a large number of parts.

[008] A filter for cleaning gas from liquid aerosol particles is also known (RU 8629 publ. 16.12.1998). The filter contains a housing with inlet and outlet nozzles, a cone-shaped filter element made of porous material and a cone-shaped collector with a drain pipe mounted under the top of the element, characterized in that the cone collector is made with hollow walls, the inner part of which is connected to form a conical cavity, in which hosts the top of the filter element, and the cavity of the walls of the conical collector and their upper part is in communication with hollow radial nozzles, with ejection openings, and the filter The lowering element is equipped with perforated tubes placed in the thickness of its wall in parallel with a cone, the lower ends of which are placed in the lower part of the cavity of the conical collector.

[009] The disadvantage of such a filter is the narrow scope of the filter, namely its use in the field of oil refining and mass transfer equipment and, as a result, the inability to use it as a filter in ventilation systems, as well as insufficient purification from aerosols due to the use of filter material with large pores and subject to destruction.

[0010] The closest solution is a cone channel filter for ventilation systems (RU185112 publ. 11/21/2018 Bull. No. 33 - prototype). This device consists of a frame and filter material, and also contains an input / output depending on the direction of the air flow carrier frame, O-ring, auxiliary forming element of the frame, corrugated filter material fixed in the frame with a variable distribution radius along the length of the filter, while filtering the material is inseparably connected with the elements of its frame, and the forming element of the filter frame is a lid-like element that limits corrugated filter material and prevents the passage of air not through the filter material.

[0011] The disadvantages of such a filter are the presence of the frame, as well as the corrugation parameters of the filter material, which do not provide the optimal ratio of the useful filtration area and the quality of the filtration while maintaining the necessary dimensions of the filter itself, in addition to the disadvantages of such a filter, it should also include the fact that the filter base is not functional from the point of view of controlling the air flow in the channel, as well as from the point of view of the convenience of its installation in the channel and subsequent reinstallation; all of the above affects the quality of air filtration in ventilation systems supplied through the channel from the street to the room.

[0012] Brief Description of Utility Model

[0013] The objective of the claimed device of this utility model is to effectively clean the incoming air from the street from aerosols and fine particles.

[0014] The technical result of this utility model is to improve the quality of air filtration in ventilation systems supplied through the air channel from the street to the room, due to the design of a frameless channel filter, consisting of filter material and allowing to optimally position the surface of the corrugated filter material in a closed the space of the air channel, which allows to increase the area of the filtering surface, as well as to ensure the passage of air flow through the surface of the corrugated filter tr-material due to tightness.

[0015] The technical result of this utility model is achieved due to the fact that the frameless channel filter contains a smaller base with a guide ring, a larger filter base in the form of a ring with a flange for fixing the filter in the channel, a pleated filter material, while the pleated filter material is hermetically sealed connected to the bases and made gradually expanding from a smaller base to a larger base.

[0016] It is possible to perform a frameless channel filter in which the pleated filter material is fixed on bases with an opening angle of 10-15 degrees.

[0017] It is possible to provide a frameless channel filter in which the guide ring is attached to the smaller base using plates.

[0018] A frameless channel filter is possible in which the guide ring further comprises at least three plates.

[0019] It is possible to provide a frameless channel filter in which a pleated filter material made gradually expanding from a smaller base to a larger base has a truncated cone shape.

[0020] A frameless channel filter is possible in which a pleated filter material made gradually expanding from a smaller base to a larger base has the shape of a truncated pyramid with rounded edges.

[0021] It is possible to provide a frameless channel filter that uses a pleated filter material with filtration classes from G2 to H13.

[0022] It is possible to provide a frameless channel filter in which a HEPA filter is used as a pleated filter material.

[0023] It is possible to perform a frameless channel filter in which the corrugated filter material is made with a protruding corrugation from 11 to 14 mm.

[0024] Description of the drawings

[0025] Figure 1 is a sectional view of a frameless channel filter.

[0026] Figure 2 shows a three-dimensional model of a frameless channel filter.

[0027] Figure 3 shows a segment of a pleated filter material.

[0028] Figure 4 shows a portion of a guide ring with a smaller base.

[0029] Figure 5 shows a larger filter base in the form of a ring with a flange and an internal auxiliary element.

[0030] Figure 6 shows a photograph of a frameless channel filter, one embodiment where a pleated filter material made gradually expanding from a smaller base to a larger base has a truncated cone shape.

[0031] Figure 7 shows a photograph of a frameless channel filter, one embodiment where a pleated filter material made gradually expanding from a smaller base to a larger base has a truncated cone shape.

[0032] Figure 8 shows a photograph of a frameless channel filter, one embodiment where a pleated filter material, made gradually expanding from a smaller base to a larger base, has the shape of a truncated pyramid with rounded edges.

[0033] Figure 9 shows a photograph of a frameless channel filter, with one plate jumper.

[0034] Figure 10 shows a photograph of a frameless channel filter, with an internal auxiliary element in the form of three plate jumpers.

[0035] Position 1 is a guide ring;

[0036] Position 2 is a smaller base;

[0037] Position 3 — plates;

[0038] Position 4 - pleated filter material;

[0039] Position 5 is the opening angle of the corrugation;

[0040] Position 6 is a ring with a side;

[0041] Position 7 is a side;

[0042] Position 8 is an internal auxiliary element;

[0043] Position 9 is a sealing ring;

[0044] Position 10 is a plate jumper;

[0045] Position 11 is an internal auxiliary element in the form of three plate jumpers;

[0046] Position 12 is the height of the corrugation;

[0047] Position 13 is a pleated filter material with a truncated cone shape;

[0048] Position 14 is a pleated filter material with a truncated pyramid shape with rounded edges.

[0049] Detailed Description of a Utility Model

[0050] The frameless channel filter consists of:

[0051] a guide ring 1 with a smaller base 2, wherein the smaller base 2 is connected to the guide ring 1 by the plates 3;

[0052] the guide ring 1, the plates 3 and the smaller base 2 are made of plastic, it should be noted that the outer diameter of the guide ring 1 is certainly less than the diameter of the channel of the ventilation system;

[0053] corrugated filter material 4 with an angle of 5 disclosure corrugation equal to 10-15 degrees, while as a corrugated filter material can be used hard fiber (plastic polyester fabric, fiberglass, paper filter materials, metal mesh or metal foam) or as the material consists of fiberglass fibers with a diameter of 0.5 to 2 microns, one of the options for the filter material can be "HEPA" (High Efficiency Particulate Air or High Efficiency Particulate Arrestance - high-performance particle retention);

[0054] a larger filter base in the form of a ring 6 with a side, the diameter of the side 7 is less than the diameter of the ventilation system channel, for a more comfortable installation of the filter in the air channel of the ventilation system, an internal auxiliary element 8 is attached to the ring 6 with the side, the filter base is made of plastic, while on the outer surface of the rim 7 glued the o-ring 9 is made of EPDM rubber, the o-ring 9 is glued to the outer surface of the bot 7 and provides a dense and tight the installation of a frameless channel filter in the air channel (channel of the heat-insulating pipe) of the ventilation system, which ensures tightness and, as a result, an increase in the quality of filtration.

[0055] The implementation of the corrugated filter material 4 with an opening angle 5 equal to a range of 10 to 15 degrees provides an optimal surface area of the filter material 4, which improves the quality of filtration, as if the opening angle 5 is less than 10 degrees, the corrugated filter material collapses. 4 and the area of the filter material decreases, if the angle 5 is too large (more than 15 degrees), then the working area of the filter material 4 is reduced, which leads to poor filtration. Also, the implementation of the corrugated filter material 4 with an opening angle of 5 equal to a range of 10 to 15 degrees provides optimal angles of entry of the air flow into the filter surface, which allows more thorough filtering of air, therefore, the quality of filtration is improved.

[0056] The angle 5 of the disclosure of the corrugation is defined as the angle between two straight lines passing through a common minimum point and two adjacent maximum points (if the corrugation is conventionally represented as a periodic function such as a sinusoid). (see figure 3).

[0057] The tight connection of the pleated filter material 4 with a smaller base 2 and a larger base eliminates possible leaks of untreated air, which improves the quality of filtration.

[0058] The implementation of the corrugated filter material 4 gradually expanding from a smaller base 2 to a larger base allows the taper of the filter material 4 to be used to reduce the pressure drop across the surface of the corrugated filter material 4, which minimizes the energy consumption for the filtering process, and therefore increases filtration quality.

[0059] The implementation of a larger filter base in the form of a ring 6 with a flange allows hermetically adhering the corrugated filter material 4 to the ring 6, which eliminates possible leaks of untreated air, therefore, improves the quality of filtration. The presence of the ring 6 of the side 7 makes it possible to tightly install a frameless channel filter in the air channel of the ventilation system, which prevents the passage of untreated air. Moreover, the density of the installation provides glued on the side 7 of the sealing ring 9.

[0060] The presence in the larger base of the internal auxiliary element 8 allows you to conveniently, quickly, without distortions and damage to the frameless channel filter, tightly install the filter in the air channel of the ventilation system, which also improves the quality of filtration.

[0061] The implementation of a frameless channel filter with a smaller base 2 connected to the guide ring 1 by means of plates 3 allows you to streamline the incoming (outgoing) air flow as the air passes between the guide ring 1 and the smaller base 2 and also splits into smaller laminar ones without vortex flows by plates 3, which affects the process of filtering air with corrugated filter material 4, therefore, improves the quality of air filtration. Moreover, for standard diameters of the channels of the ventilation system, three plates 3 are most often enough. The shape of the plates 3 may be different rectangular, arched, curved, etc. The shape of the plate 3 and the number of plates 3 are selected from the air flow conditions in the channel of the ventilation system in order to improve the quality of air filtration by a frameless channel filter. In ventilation systems with a high air flow rate, more than three plates 3 are most often used, since it is necessary to ensure the structuring of the air flow and prevent its stagnation or turbulence; with air flow at a speed of 5.5-7.9 m / s, 3-4 plates 3 are most often used, with air flow at a speed of 8.0-10.7 m / s, 4-6 plates 3 are most often used, but it is possible and another number of plates 3 used at given (and not indicated) air flow rates depending on the configuration of the ventilation system channel and the materials of construction of the frameless channel filter.

[0062] The shape of the pleated filter material 4 (in the form of a truncated cone or a truncated pyramid with rounded faces) is selected from the parameters of the air flow flowing in the air channel of the ventilation system.

[0063] Depending on the operating conditions of the frameless channel filter (air flow parameters and impurity characteristics), filter material 4 with filter classes from G2 to H13 is selected to ensure effective air filtration. In one embodiment of the frameless channel filter, a HEPA filter was used.

[0064] The height of the corrugation 12 depends on the diameter of the air channel for standard diameters most often use corrugation 12.5 mm high. But the permissible height range of 12 corrugations is from 11 mm to 14 mm, since if the height 12 is less than 11 mm, the corrugated filter material 4 collapses and the area of the filter material decreases, if more than 14 mm, the working area of the filter material 4 decreases , which leads to poor filtration.

[0065] The implementation of a frameless channel filter with a flange 7, the diameter of which is smaller than the diameter of the ring 6, allows not to reduce the diameter of the ring 6 (ring 6 with the flange), which provides the maximum possible filtration area of the corrugated filter material 4 in conditions of a limited diameter of the air channel of the ventilation system. All this affects the quality of filtration.

[0066] The present application materials provided a preferred disclosure of the implementation of the claimed technical solution, which should not be used as limiting other, private embodiments of its implementation, which do not go beyond the requested scope of legal protection and are obvious to specialists in the relevant field of technology.

[0067] The frameless channel filter operates as follows:

[0068] The frameless channel filter is installed in the air channel, while holding it by the internal auxiliary element 8. The frameless channel filter is located in the air channel, and due to the presence of the sealing ring 9 fixed to the side 7, the filter is tightly installed in the channel, ensuring tightness and the impossibility of air passing through the channel, bypassing the filter. Further, the air flow, dragging from the street into the channel, floats on the smaller base 2 with the guide ring 1, while the air flow is dissected by the plates 3 connecting the smaller base 2 with the guide ring 1 into three uniform flows, which is most optimal for the further distribution of air flows corrugated filter material 4, because allows you to eliminate the turbulence of the air flow, then the air divided into three structured flows gradually penetrates through the corrugated filter material 4, which has an angle 5 of the opening of the corrugation of 10-15 degrees, which is most optimal for effective filtration, since if the opening angle is less than 10 degrees, then the filter material collapses and the area of the filter material decreases, if the angle is too large (more than 15 degrees), then the working area of the filter material decreases, which leads to poor filtration. Thus, the air passing through the corrugated filter material 4 with an angle 5 of the opening of the corrugation of 10-15 degrees, is cleaned from fine particles and aerosols, while the angle 5 of the opening of the corrugation of 10-15 degrees from the point of view of the optimal ratio of the useful filtration area and filtration quality while maintaining the required dimensions of the filter itself is an optimal parameter, and in turn improves the quality of filtration. Due to the fact that the filter material 4 is made gradually expanding from a smaller base to a larger base, it allows to increase the area of the filter surface, as well as to reduce the pressure drop across the filter, which minimizes the energy consumption for the filtration process and allows air flow to pass through the surface of the corrugated filter 4. Next, a stream of purified air is formed inside the filter, which moves towards the larger base of the filter, made in the form of a ring 6 with a side. Due to the fact that a sealing ring 9 is fixed on the rim 7 of the ring 6, uncleaned air cannot penetrate further than the frameless channel filter. The sealing ring 9 separates and seals the areas of purified air and polluted air, which improves the quality of the filter. Thus, the stream of purified air, unhindered (without forming stagnation), leaves the filter.

[0069] Thus, the claimed utility model “frameless channel filter” improves the quality of air filtration, due to the increase in the area of the filter surface, ensuring the passage of air flow through the surface of the corrugated filter material.

Claims (13)

1. Frameless channel filter containing smaller base with guide ring, a larger base, made in the form of a ring with a side for fixing the filter in the channel, pleated filter material, while the corrugated filter material is hermetically connected to the bases and is made gradually expanding from a smaller base to a larger base.
2. The frameless channel filter according to claim 1, characterized in that the pleated filter material is fixed on the bases with an opening angle of 10 to 15 degrees.
3. The frameless channel filter according to claim 1, characterized in that the guide ring is attached to the smaller base using plates.
4. The frameless channel filter according to claim 1, characterized in that the guide ring with a smaller base further comprises 3-6 plates.
5. The frameless channel filter according to claim 1, characterized in that the pleated filter material, made gradually expanding from a smaller base to a larger base, has the shape of a truncated cone.
6. The frameless channel filter according to claim 1, characterized in that the pleated filter material, made gradually expanding from a smaller base to a larger base, has the shape of a truncated pyramid with rounded edges.
7. The frameless channel filter according to claim 1, characterized in that a corrugated filter material with filtration classes from G2 to H13 is used.
8. The frameless channel filter according to claim 1, characterized in that a HEPA filter is used as a pleated filter material.
9. The frameless channel filter according to claim 1, characterized in that the corrugated filter material is made with a corrugation spacing from 11 to 14 mm.

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