RU217950U1 - Cartridge for cleaning fluid with low moisture filter media - Google Patents

Abstract

The utility model relates to the field of liquid purification, namely to filtration devices intended for use in filters for purifying liquids, mainly in jug-type filters for drinking water. Cartridge for purifying liquid with a filtering load of low humidity includes a hollow body (1), in the lower part of which there is a hole (6) for the outlet of the purified liquid, a cover (2) with holes (3) for the inlet of the liquid to be cleaned and air outflow, located on top of the body (1), the upper means of fixation (4) of the filter load (7) located between the body (1) and the cover (2), the lower means of fixation (5) of the filter load (7) located in the lower part of the body (1), the filter loading (7) in the form of solid sorbents placed in the cavity of the housing (1) between the upper and lower means of fixation (4, 5), while the filtering load (7) contains a cation exchange resin with a moisture content of 5% to 30% and is placed in the cavity body (1) in a volume that ensures its filling to the level of contact with the upper fixation means (4) when the fluid to be cleaned enters the cavity of the body (1). The technical result of the utility model is to increase the liquid filtration rate and increase the throughput of the liquid purification cartridge due to the complete removal of air from the cartridge. 2 w.p. f-ly, 1 ill., 3 pr., 3 tab.

Description

[01] Technical field

[02] The utility model relates to the field of liquid purification, namely to filtration devices intended for use in filters for purifying liquids, mainly in jug-type filters for drinking water.

[03] State of the art

[04] Filtration devices (cartridges, filter cartridges, replaceable filters, cassettes) are known from the prior art, consisting of a housing filled with a filter load (material, sorbent) and a cover. In the cover there are inlets for the liquid being cleaned and holes for air outflow. The filtering load of such devices, in most cases, is made on the basis of ion-exchange resins with a moisture content of 48-58% (see Table 2 of GOST 20298-74 "Ion-exchange resins. Cateonites", 01.01.1976). Between the lid and the body, a means of fixing the filtering load in the form of a mesh, membrane or gasket is usually installed. In the lower part of the body of such devices, there are one or more holes for the exit of the purified liquid. The filtration device is inserted into a container to receive the source liquid. The initial liquid passes through the holes located in the lid and below through the filtering load, then the purified liquid through the hole (or holes) in the lower part of the body enters the receiving container (reservoir for the purified liquid).

[05] The use of fixation means in the described filtration devices, made in the form of a grid, membrane or gasket, often leads to a slowdown or interruption of the filtration process due to an air bubble that appears under the fixation means, blocking its effective cross section due to the occurrence of surface of the surface tension fixing means. The formation of an air bubble is explained by the fact that when the liquid flows through the filter material, the air located between the granules or fibers of the sorbent, as well as inside the porous structure of the sorbent, is displaced by the liquid upwards and accumulates under the means of fixing the filter load.

[06] Most of the known technical solutions, developed in view of the described technical problem, are aimed at improving the design of the fixation means located between the housing in which the filter load is located and the covers of the device. In particular, from the patent of the Russian Federation RU2241522, 20.04.2004, a filtration device is known, consisting of a housing filled with filter material, and having at least one outlet at the base, covers with holes for fluid inlet and air outflow, and a means of fixation in the form of a mesh insert, located between the body and the cover. At the same time, the mesh insert of the textile fabric has at least one part protruding into the internal volume of the lid in such a way that on both sides of the mesh insert furthest from the cup-shaped body during the predominant part of the entire duration of the filtration process, there is air.

[07] The disadvantage of this filtration device is the limited volume of the protruding part of the mesh insert designed to accumulate air, as well as the complexity of manufacturing a fixation means that meets all the requirements (shape, location, size, material), which allows for a high fluid filtration rate.

[08] The closest analogue of the claimed utility model is a filtration device described in RF patent RU2262976, 27.10.2005. This device contains a hollow body, in the lower part of which holes are made for the outlet of the purified liquid, a cover with holes for the inlet of the liquid to be cleaned and air outflow, located on top of the body, a means of fixing the filter load, located between the body and the cover, and the filter load, placed in the cavity corps.

[09] The disadvantage of this device is that the outlet of the accumulated air, which prevents the passage of liquid into the body of the device, is provided by means of fixing the valve type. Due to the fact that the process of passing liquid into the filter material occurs simultaneously with the exit of air from the filtration zone through the valve, the filtration rate of the liquid is low.

[010] Thus, the technical problem to be solved by the claimed utility model is the low performance of the device.

[011] Disclosure of the utility model

[012] The technical result of the utility model is to increase the liquid filtration rate and increase the throughput of the liquid purification cartridge due to the complete removal of air from the cartridge.

[013] The specified technical result is achieved due to the fact that the cartridge for cleaning a liquid with a filter load of low humidity contains a hollow body, in the lower part of which there is an opening for the exit of the purified liquid, a cover with holes for the inlet of the liquid to be cleaned and air outflow, placed on top of the body , the upper means of fixing the filter load, located between the body and the cover, the lower means of fixing the filter load, located in the lower part of the body, and the filter load in the form of solid sorbents, placed in the cavity of the body between the upper and lower means of fixation, while the filter load contains a cation-exchange resin with a moisture content of 5% to 30% and is placed in the housing cavity in a volume that ensures its filling to the level of contact with the upper fixation means when the liquid to be cleaned enters the housing cavity.

[014] In particular cases of implementation of the utility model:

[015] granular and/or fibrous sorbents are used as solid sorbents;

[016] - the upper and lower means of fixing the filter load are made in the form of a mesh or porous insert, the diameter of the cell or pores of which does not exceed the particle size of the filter load.

[017] The use of a cation exchange resin with a moisture content of 5% to 30% is due to the fact that this moisture parameter provides a high swelling of the sorbent, the swelling coefficient of which is from 2.0 to 1.4, respectively, while commonly used for ion-exchange resins, as noted above, have a moisture content of at least 48% and, consequently, a lower swelling coefficient. The specified values of the swelling coefficient of the ion-exchange resin in the claimed utility model allow the use of a small amount of filter media in the cartridge, while after contact of the filter media with liquid, at least 100% of the volume of the cartridge body is filled at a rate that ensures rapid removal (pushing out) of air formed between sorbent granules. At the same time, the swollen filter media comes into contact with the upper fixation means in the form of a mesh insert located between the body and the cartridge cover, due to which the surface tension that occurs on the upper fixation means is eliminated and the liquid flows through the upper fixation means and air out of the housing is unimpeded. cartridge, which provides a high rate of liquid filtration.

[018] The assumption that in the known analogues of the utility model with an ion-exchange resin moisture content of at least 48% used in the filter bed, by filling the cartridge body with a large amount of dry filter bed, the filter bed contacts with the upper fixation means, cannot indicate the achievement of such the same technical result. This is due to the fact that the reduced moisture content of the ion exchange resin from 5 to 30% of the claimed technical solution provides a high swelling rate of the filter media and, accordingly, better removal of air from the cartridge, which leads to a high fluid filtration rate.

[019] Thus, the filter load placed in the cartridge body for cleaning the liquid between its upper and lower means of fixation, in addition to removing contaminants from the liquid being cleaned, performs the function of pushing (removing) air from the cartridge body, which prevents the flow of the liquid being cleaned, due to reduced humidity of the ion-exchange resin from 5% to 30%, being an element of the claimed device, which has a functional and constructive unity.

[020] Brief Description of the Drawings

[021] The utility model is illustrated by a figure, which shows the design of a cartridge for cleaning a liquid with a filter load of low humidity in a section.

[022] Elements are indicated in the figure by the following positions:

1 - body;

2 - cover;

3 - openings in the cover (2) for the inlet of the liquid being cleaned and the outflow of air from the body (1);

4 - upper means of fixation between the body (1) and the cover (2);

5 - lower means of fixation in the lower part of the housing (1);

6 - hole for the exit of the purified liquid from the housing (1);

7 - filtering load;

8 - protrusion connecting the body (1), cover (2), upper fixation means (4).

[023] Implementation of the utility model

[024] The cartridge for cleaning the liquid (Fig. 1) consists of a housing (1) filled with a filter load (material) (7) and a cover (2). In the cover (2) located on top of the body (1), holes (3) are designed for the entry of the liquid being cleaned inside the body (1) and the outflow of air from the body (1). In the lower part (base) of the housing (1), a hole (6) is designed for the outlet of the purified liquid from the housing (1). Inside the housing (1) there are upper and lower fixation means (4,5) of the filtering load (7) made in the form of a mesh or porous insert, or in the form of any other liquid-permeable structure that allows holding the filtering load. The upper fixation means (4) is located between the housing (1) and the cover (2), the lower fixing means (5) - between the filtering load (7) and the base of the housing (1) in front of the opening (6) for the outlet of the purified liquid. The upper means of fixation (4) of the filtering load (7) is made flexible to hold the filtering load (7) in a swollen form when the volume of the housing (1) is filled from 100% to 130%. The body (1) may be cup-shaped. An annular ledge (8) is provided in the upper part of the housing (1), which serves to connect the cover (2) with the inner surface of the housing (1) and the upper fixation means (4) of the filter load (7), for example, by ultrasonic welding. The lower fixation means (5) located between the filter media (7) and the base of the housing (1) can also be connected to the walls of the housing (1) by ultrasonic welding.

[025] The following are examples of the filter bed (7) of the liquid purification cartridge.

[026] Example 1 - Filter media containing, vol%:

granulated coconut activated carbon (for example, brand KA-67.5 USORB 12x40),

cation exchange resin in Na ⁺ /H ⁺ form with a moisture content of 5% (for example, 27.5 brand TOKEM 250),

granular coconut activated carbon impregnated with 5.0 silver 0.1 wt.% (for example, brand CarboTech DGK 12x40 01AG).

[027] Example 2 - Filter media containing in vol%:

granulated charcoal activated carbon (for example, BA-48.75 USORB 12x40),

cation exchange resin in Na ⁺ +K ⁺ /H ⁺ form with a moisture content of 15% (for example, 48.75 brand TOKEM 250),

granulated coconut activated carbon impregnated with 2.5 silver 0.3 wt.%. (e.g. CarboTech DGK 12x40 03AG grades)

[028] Example 3 - Filter media containing, vol%:

granulated coal activated carbon (for example, 29.5 brand DAUSORB 12x40),

cation exchange resin in K ⁺ / H ⁺ form with a moisture content of 30% (for example, 70.0 brand TOKEM 250),

granulated coconut activated carbon impregnated with 0.5 silver 0.4 wt. % (e.g. CarboTech DGK 12x40 04AG).

[029] In the filter media, ion exchange resins and components from other manufacturers can be used. At the same time, the presence of activated carbon in the filtering load is not strictly necessary to achieve the technical result, which consists in increasing the liquid filtration rate and increasing the throughput of the cartridge.

[030] Table 1 shows the results of testing the filter media according to example 1 of this utility model and filter media with other moisture parameters for comparison at the following ratio of components: cation exchange resin 27.5 vol.%, granular coconut activated carbon 67.5 vol.% , granulated coconut activated carbon impregnated with silver 5.0 vol.%.

[031] Table 2 shows the test results of the filter media according to example 2 of this utility model and filter media with other moisture parameters for comparison at the following ratio of components: cation exchange resin 48.75 vol.%, granular charcoal activated carbon 48.75 vol.% , granulated coconut activated carbon impregnated with silver 2.5 vol.%.

[032] Table 3 shows the test results of the filter media according to example 3 of this utility model and filter media with other moisture parameters for comparison at the following ratio of components: cation exchange resin 70.0 vol.%, granular coal activated carbon 29.5 vol.% , granulated coconut activated carbon impregnated with silver 0.5 vol.%.

[033] The data in tables 1-3 are for a standard cartridge having a height of 133 mm and a diameter of 62.4 mm.

[037] As follows from the above data, the best results of the liquid filtration rate, ceteris paribus, are achieved with ion exchange resin moisture parameters from 5 to 30% and a swelling coefficient (which, for the most part, depends on humidity) of the filter load from 2.0 to 1.4 respectively.

[038] The following is the principle of operation of the device.

[039] A liquid cleaning cartridge with a low moisture filter media is inserted into the opening of a container for cleaning liquid, preferably a jug type. The untreated liquid through the openings (3) in the cover (2) enters the cartridge body (1) and passes through the upper fixation means (4) of the filter bed (7) and then through the filter bed (7). Upon contact with liquid, the ion-exchange resin, on the basis of which the filter media (7) is made, rapidly swells, filling the volume of the cartridge body (1) by at least 100% so that the filter media (7) comes into contact with the surface of the upper fixation means (4) filter load (7). The liquid comes out purified from various contaminants through the lower means of fixation (5) of the filter load (7) and further through the holes (6) located in the base of the housing (1). In this case, the air accumulated between the particles of the filtering load (7), as well as in the pores of the filtering load (7), is displaced by the liquid and passes through the upper fixation means (4) and then through the holes (3) in the cover (2) of the cartridge outward, behind due to which the process of cleaning the liquid proceeds without interrupting the filtration at a high speed.

[040] Thus, the considered technical solution has improved performance characteristics, such as increased throughput of the liquid cleaning cartridge, increased liquid filtration rate.

Claims (3)

1. Cartridge for cleaning the liquid, including a hollow body (1), in the lower part of which there is a hole (6) for the exit of the purified liquid, a cover (2) with holes (3) for the inlet of the liquid to be cleaned and the outflow of air, placed on top of the body (1 ), the upper means of fixation (4) of the filtering load (7) located between the body (1) and the cover (2), the lower fixing means (5) of the filtering load (7) located in the lower part of the body (1), the filtering load ( 7) in the form of solid sorbents, placed in the body cavity (1) between the upper and lower fixation means (4, 5), characterized in that the filtering load (7) contains a cation exchange resin with a moisture content of 5% to 30%, while the filtering the load (7) is placed in the cavity of the housing (1) in a volume that ensures its filling to the level of contact with the upper fixation means (4) when the fluid to be cleaned enters the cavity of the housing (1). 2. A liquid purification cartridge according to claim 1, characterized in that granular and/or fibrous sorbents are used as solid sorbents. 3. Cartridge for cleaning the liquid according to claim 1, characterized in that the upper and lower fixation means (4, 5) of the filter load (7) are made in the form of a mesh or porous insert, the cell or pore diameter of which does not exceed the particle size of the filter load ( 7).

Images