RU2772774C1 - Filter module - Google Patents

Abstract

FIELD: water purification.

SUBSTANCE: invention relates to filter modules for gravity-type liquid purification devices intended for use in domestic conditions, in suburban and garden areas for cleaning or post-treatment of liquids, mainly water, for domestic and/or drinking water supply and other household liquids. The filter module consists of a housing filled with filter material, where at least one water inlet hole is made at the top of the housing, and at least one water outlet hole is made at the bottom. The filter module is equipped with a protective element located at the base of the module after the water outlet opening and made in the form of partitions arranged in an ellipse or circumference at a distance from each other from 0.1 to 2 of the width of the partition.

EFFECT: increasing the degree of protection of the purified liquid from foreign particles.

3 cl, 4 dwg

Description

SUBSTANCE: invention relates to filter modules for gravity-type liquid purification devices intended for use in domestic conditions, in summer cottages and garden plots for purification or post-treatment of liquid, mainly water, for domestic and/or drinking water supply and other household liquids.

Filter modules for gravity type liquid purification devices are widely known in the art. Known designs of gravity-type liquid purification devices usually include three elements: a container for the initial liquid and a container for the purified liquid, which communicate with each other through the filter module. The source liquid is poured into the container for the source liquid, under the action of gravitational forces, the source liquid flows through the filter module, where the liquid purification process takes place, the purified liquid accumulates in the container for the purified liquid, from where it can be taken for consumption.

A filter module is known from the prior art according to the patent for a liquid purification device of the Russian Federation No. 2715187 (priority 26.01.2015, Applicant Brita GMBH, IPC C02F 1/00; B01D 27/00; F16K 21/00). The filter module consists of a housing filled with filter material, where at least one inlet for liquid inlet and air outlet is made in the upper part, and an outlet for the purified liquid outlet is made in the lower part. In RF patent No. 271587, two versions of the filter module are claimed, differing in the design of the lower part of the module housing. The first design of the filter module has a recess with a hollow protruding part in the center of the lower part. Inside the protruding part, elongated threaded protrusions are made. The second version of the filter module has only a protrusion in the lower part in the center. On the sides of the center of the lower part, in both versions, in the bottom of the module, there are two holes for the exit of the purified liquid, closed with a grid. In the container for the initial liquid of the liquid purification device according to the patent of the Russian Federation No. 2715187, a seat for the filter module is made, which is equipped with a valve, a movable valve element, which are the counterpart to the protrusions in the lower part of the filter module. Within the framework of the distinguishing features, the filter module according to the patent of the Russian Federation No. 2715187 operates as follows. The filter module is installed in the seat of the container for the initial liquid of the liquid purification device filter module. At the same time, for the first version of the filtering module, the movable valve element rotates, opening access to the purified liquid, while forming a channel formed by the side wall of the recess, the side wall of the protruding part of the module and the inner wall of the seat of the container for the original liquid. For the second version of the filter module, before installing the filter module in the seat of the container for the initial liquid, an adapter is installed above the movable valve element, which ensures the opening of the valve and the possibility of the purified liquid flowing into the container for the purified liquid. After the filter module is installed in the source liquid container, the source liquid container is filled with the source liquid. Under the influence of gravitational forces, the initial liquid flows through the filtering module, where the liquid is cleaned due to the filtering materials with which the housing is filled. In this case, the initial liquid flows into the inlet in the upper part of the filter module, and flows out into the outlet in the lower part of the filter module. If the filter module is installed correctly in the source liquid container, then the purified liquid flowing from the filter module through the outlet in the lower part of the housing, through the channel formed by the elements of the filter module housing and the source liquid container, or through an adapter, enters the container for purified liquids, where it accumulates and from where it can be taken for consumption. In this case, when flowing from the outlet of the filter module to the channel or adapter, the purified liquid washes the lower part of the filter module housing. At the same time, particles of the filter material get into the purified liquid, which during production, transportation or during installation through the outlet hole fall out from the inside of the housing and cling to the lower part of the housing. In addition, dust may be present on the bottom of the filter module housing. Also, dust particles may be present on the walls of the source liquid container. Since the design of the filter module does not provide for protective elements, particles of filter material or dust can be washed away from the bottom of the filter module housing or from the container for the initial liquid with the purified liquid into the container for the purified liquid. Thus, the purified liquid may contain particles of filter material or dust, which is the main disadvantage of this filter module.

The prior art filter module according to RF patent 2437703 (priority 15.06.2010, Applicant Aquaphor LLC, IPC B01D 27/02, C02F 1/00), selected by the Applicant as the closest analogue. The filter module consists of a housing filled with filter material. In this case, the body is formed from two parts - the upper part or the cover and the lower part. The upper part is made with at least one inlet for liquid inlet and air outlet. A bottom is formed in the lower part of the housing, which is made with two side walls inclined to the central symmetry axis of the filter module housing, and one upper surface protruding towards the upper part of the filter module. At the same time, the lower part of the body is made with outlets for the purified liquid. Within the framework of the distinguishing features, the filter module according to RF patent 2437703 operates as follows. The filter module is inserted into the source liquid container of the liquid purification device. In this case, a liquid cavity is formed, limited by the lower part of the filter module housing and a container for the initial liquid. After installing the filter module, the container is filled with the initial liquid. The initial liquid through the inlet in the upper part of the filter module body enters the filter module, where due to the interaction of the liquid with the filter material, the liquid is cleaned. The purified liquid flows out of the filter module through the outlet at the bottom of the housing. After that, the purified liquid enters the container for the purified liquid, where it accumulates and from where it can be taken for consumption. In this case, the liquid flowing from the outlet of the filter module before entering the container for the purified liquid flows through the liquid cavity limited by the lower part of the filter module housing and the container for the initial liquid. In this case, particles of the filter material get into the purified liquid, which during production, transportation or during installation through the outlet hole fall out from the inside of the housing and cling to the lower part of the housing. In addition, dust may be present on the bottom of the filter module housing. Since the design of the filter module does not provide for protective elements, particles of the filter material or dust can be washed from the bottom of the housing with the purified liquid into the container for the purified liquid. Thus, the purified liquid may contain particles of filter material or dust, which is the main disadvantage of the specified filter module, chosen by the applicant as the closest analogue.

The objective of the invention and the required technical result achieved when using it is the development of a new filter module and an increase in the degree of protection of the purified liquid from foreign particles.

The set task and the required technical result are achieved in that the filter module, consisting of a housing filled with filter material, where at least one hole for water inlet is made at the top of the housing, and at least one hole for water outlet at the bottom, characterized in that it is equipped with a protective element located at the base of the module after the water outlet and made in the form of partitions located along an ellipse or along a circle at a distance from each other from 0.1 to 2 of the width of the partition, while the partitions can be made of different widths, and be located at different distances from each other.

Brief description of the drawings

Figure 1 shows an example of a filter module in which the bottom of the housing is made flat.

The figure 2 shows an example of a filter module, in which the bottom of the housing is made with a recess.

The figure 3 shows an example of the external view of the protective element in two projections - figure 3a shows a top view, figure 3b shows a side view.

The filter module consists of a housing 1 filled with filter material 2.

The housing 1 is made of a polymeric material, such as polyolefins. The housing 1 can be made as a single unit, and preferably consisting of at least two interconnected parts. In the upper part of the body 1 is made at least one hole 3 for the input of the source liquid. The lower part of the body 1 can be made, for example, but not limited to the listed options, flat (figure 1) or concave inside (figure 2). At least one hole 4 is made in the lower part of the module housing 1 for the outlet of the purified liquid. Holes 3 and 4 can be made in the form of, for example, slots of various shapes and sizes, and can be additionally provided with a mesh or grating, or a porous element made of sintered polyolefin, which reduces the likelihood of filter material 2 falling out of housing 1, for example, during transportation. Additionally, the housing 1 can be provided with a removable or integral sealing collar (not shown in the figures) made of the same material as the housing 1 and/or sealing elements made of a soft polymer, such as rubber or silicone.

The filter material 2 can be made in the form of a fibrous or granular sorbent, for example, activated carbon, ion exchange resin, ion exchange fiber, or in the form of a mixture of sorbents, and the filter material can also be a non-woven sorption material.

A protective element 5 is made in the lower part of the body 1. The protective element 5 is preferably located in the central part of the bottom of the body 1, for example, in the area of intersection of the axes of symmetry, or be mixed relative to the point of intersection of the axes of symmetry, while the distance from the center of the protective element 5 to the point of intersection the axes of symmetry of the body 1 is preferably less than the distance from the center of the protective element 5 to the edge of the bottom of the body 1 (the point of beginning of the formation of the side faces). The protective element 5 consists of partitions 6 located, for example, but not limited to the listed options, along an ellipse or a circle, or along a polyhedron, where the center of the figure is the center of the protective element 5. The partitions 6 can be made of different widths and located at different distances from each other. from friend. The distance between the baffles 6 is preferably 0.1 to 2 times the width of the baffle 6. The baffles 6 may be made of a polymeric material, preferably polyolefins. The baffles 6 can be made in one piece with the body 1, or the baffles 6 can be made as a separate part or parts and welded or glued to the body 1.

As part of the distinguishing features of the filter module operates as follows. The filter module is intended for use in a gravity-type liquid purification device. The filtering module is installed in the source liquid container of the liquid purification device on the seat available in the source liquid container. In this case, the side faces of the housing 1 of the filter module and/or the upper part of the housing 1 of the filter module are tightly rubbed against the walls of the seat of the container for the source liquid, thus blocking the flow of the source liquid bypassing the filter module. In this case, when the filter module is installed in the seat of the container for the source liquid, between the outer wall of the bottom of the housing 1 of the filter module and the inner wall of the seat of the container for the source liquid, a channel 7 is formed for passing the purified liquid to the outlet of the container for the source liquid, which, when installed the filter module into the container for the initial liquid is inside the space enclosed by the protective element 5.

After the filter module is installed in the seat of the container for the initial liquid, the container for the initial liquid is filled with the initial liquid. The initial liquid flows through at least one opening 3 into the housing 1 of the filter module, where the liquid is cleaned due to the filter material 2. The purified liquid flows out of the holes 4, accumulates in the channel 7, from where it flows through the hole in the container for the initial liquid into the container for the purified liquid, where it accumulates and can be taken for consumption. In this case, the hole is protected by a protective element 5, and the purified liquid through the channel 7 can enter the container for the purified liquid only by flowing between the partitions 6 of the protective element 5. In this case, the purified liquid is mechanically cleaned from foreign particles, such as dust or filter material that can enter into the channel 7 from the walls of the container for the initial liquid or the housing 1 of the module. That is, foreign particles or particles of the filter material are caught by the protective element 5 and do not enter the purified liquid.

Thus, the task and the technical result are achieved.

In the present description of the invention presents a preferred embodiment of the invention. Changes can be made in it, within the limits of the claimed formula, which makes it possible to widely use it.

Claims (3)

1. A filter module consisting of a housing filled with filter material, where at least one water inlet hole is made at the top of the housing, and at least one water outlet hole is made at the bottom, characterized in that it is equipped with a protective element located at the base of the module after the hole for water outlet and made in the form of partitions located along an ellipse or along a circle at a distance from each other from 0.1 to 2 of the width of the partition. 2. The filter module according to claim 1, characterized in that the partitions can be made of different widths. 3. The filter module according to claim 1, characterized in that the baffles can be located at different distances from each other.

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