RU175776U1 - Series Filter Housing - Google Patents

Abstract

The filter housing contains two flasks 2 for installation of filter elements 8 in them, parallelly fixed on one side of the sides to a common cover 1, each of the flasks 2 is configured to form axial and annular cavities in the filter element. The cap 1 is made on the side of each flask 2 with an annular sleeve 28 for installing the flask 2 and with concentric annular partitions 24, 25 directed towards the installation of the corresponding filter element 8 with the formation of axial and annular cavities in the cap 1, sequentially (along the continuous collector 3, by the flow of the pumped medium) each connected through separate for each of the flasks 2 connecting channels 15, 16, 17 of the inlet and outlet, respectively, with the lateral radial nozzles 18, 1 separated in the channel 26 by partitions 23 9, 20 (separate for each of the flasks 2) of the collector 3, fixed in the lateral transverse recess of the lid 1 eccentrically to the axes of the flasks 2 and transversely to the connecting channels 15, 16, 17, as well as the bracket 4 fastened to the lid 1 for mounting to a supporting surface. At the same time, on the outer opposite edges of the collector 3, inlet and outlet pipes 5 are made, each connected to an extreme lateral radial pipe 18 or 19 of the collector 3. The lateral (radial) pipes 18, 19, 20 of the collector 3 are inserted into the side (radial) connecting channels 15, 16, 17 of the inlet and outlet of the cover 1. The proposed design of the filter housing allows you to increase the period between the replacement of filter elements, as well as increase the height for laying a pipeline (determined by the height of flasks 2 and cover 1) within one mounting section filter (as an assembly unit) the degree of purification of the transmitted fluid stream without significantly increasing the space for its installation or installing a separate second filter, provides convenience and compactness of installation without any additional transitional parts, provides enhanced options for choosing the supply and analysis side of water, reduces the time and complexity of installation, as well as the cost of additional transitional elements, allows installation in hard-to-reach places.

Description

The utility model relates to filtering techniques, namely, filters designed to clean liquids from mechanical impurities, and can be used in industrial and domestic water supply systems, in food and chemical technology. The filter housing is designed to accommodate a cartridge filter element or filter backfill in it to purify water from mechanical and other contaminants. The filter with the claimed housing can be installed on pipelines of the drinking and household drinking water supply system, hot water supply, heating, compressed air, as well as on process pipelines transporting media that are not aggressive to the filter materials.

Known filter housing containing two hollow sealed flasks ("glass-like" caps) for placement in them in parallel-sequentially working filling cartridges (filter elements), coaxially fixed from opposite sides to a common cap, and jointly connected lateral (radial) for both flasks connecting inlet and outlet channels, with side (radial) nozzles of the collector separated by a partition, fixed in the transverse recess of the cover transversely to the connecting channels, while along the edges of the collector made inlet and outlet nozzles of the housing, each connected by a longitudinal channel with one of its radial nozzles. The manifold pipes are inserted into the lateral (radial) connecting channels for supplying and removing the cover (RU 7892).

Known filter housing, containing two flasks for installing different filter elements in them, parallel mounted on one side of the sides to two covers, each of the flasks is configured to form axial and annular cavities in the filter element, each cap is made on the side of the flask with an annular ring with external thread for flask installation and with annular partitions directed towards the installation of the corresponding filter element with the formation of axial and annular cavities in the lid, sequentially each connected through separate for each of the flasks connecting channels of supply and removal, respectively, with one of the covers separated by partitions of the three sections of the collector, while on the outer opposite edges of the sections of the collector made inlet and outlet pipes, each connected to a section of the collector, the axis of which is located in the same plane with the axes of the filter elements (SU 1189479, prototype).

The disadvantages of the known filter housings are due to the large size and complexity of the layout, as well as the fact that the axis of the inlet and outlet fittings is located in a plane passing through the axis of the filter bulb. A design feature of such filters is the large distance from the supporting surface (wall) to the axis of the connecting pipes, which is not less than half the diameter of the flask of the body. At the same time, the processes of installation and dismantling are characterized by high complexity. This complicates the layout and installation of the filter in the piping of the water supply system, creates inconvenience during installation, which leads to an increase in the duration and volume of labor costs, to a decrease in the reliability of the installation and, as a rule, requires a greater number of adapter pipes and fittings, in the joints of which it is necessary to ensure and control tightness .

The technical task of the utility model is to create an effective filter housing design and expand the arsenal of filter housing designs.

The technical result consists in providing the best layout capabilities and reducing the required longitudinal size for placing the filter housing in a hydraulic system with a predominantly horizontal direction of the pumped fluid due to the minimum collector length, sequential filtration with the movement of the flows of both flasks in the lid and the minimum distance from the supporting surface (wall) that allows you to lay the pipeline of the water supply system directly on the wall and install the filter in the horizon perfectly oriented pipeline without running the bend of this pipeline. At the same time, a horizontally located manifold highway, the distance Z of which from the wall is reduced to the minimum possible, due to which the axis of the inlet and outlet pipes of the filter manifold is coaxial to the pipe fixed to the wall using standard clips (clamps).

The essence of the utility model consists in the fact that the filter housing contains two flasks for installation of filter elements in them, parallel mounted on one side of the sides to a common lid, which is made on the side of each flask with an annular sleeve for installing the flask and with the corresponding filtering towards the installation side element concentric annular partitions with the formation in the lid of axial and annular cavities, each connected through connecting channels of supply and exhaust, respectively, with separated overhead with horns of the side pipes of the collector, fixed in the transverse recess of the lid eccentrically to the axes of the flasks, as well as the bracket fastened to the cover for mounting to the supporting surface, while the input and output pipes connected to the extreme radial lateral pipe of the collector are made along the outer opposite edges of the collector.

Preferably, the side pipes of the manifold are introduced into the side connecting channels for supplying and removing the cover.

Preferably, the collector is made with two groups of three side nozzles, two of each group are led into the supply connecting channels connected to one annular cavity of the cover and are located symmetrically on both sides of the through pipe inserted into the connecting channel of the outlet connected to one axial cavity of the cover.

Preferably, the side nozzles of each group of three manifold nozzles located symmetrically and led into the supply connecting channels associated with one annular cavity of the cover are made through one and the other blind.

Preferably, the collector is provided with ball valves that are symmetrically mounted at the edges, while the inlet and outlet nozzles of the collector are aligned and symmetrically.

Preferably, the bracket is made with a wall mounting plane.

Preferably, the collector is made in the form of a rectangular parallelepiped and is fixed in the lateral recess of the lid made from the installation plane side with screws, with the possibility of shifting by 180 ° to change the direction of filtration.

Preferably, the lid is integral with the bracket.

Preferably, the lid is made integral.

Preferably, each cap sleeve is provided with an internal thread portion for screwing in the flask.

Preferably, each flask on the opposite side of the lid is provided with an opening in which the plug is mounted.

Preferably, the lid is provided with a month indicator for replacing the filter element with a scale and a slider.

In the drawing of FIG. 1 shows the filter housing from the side of the opposite plane of the bracket, FIG. 2 is a section AA in FIG. 1 at two positions of the manifold, in FIG. 3 is a sectional view of the lid; FIG. 4 is a side view of the mounting plane, in FIG. 5 is a section BB of FIG. 2, in FIG. 6 - section of a ball valve.

The filter housing contains two flasks ("glass-like" covers) 2 for mounting filter elements 8 in them, parallelly fixed on one side of the sides to a common cover 1, each of the flasks 2 is configured to form axial and annular cavities in the filtering element. The cap 1 is made on the side of each flask 2 with an annular sleeve 28 for installing the flask 2 and with concentric annular partitions 24, 25 directed towards the installation of the corresponding filter element 8 with the formation of axial and annular cavities in the cap 1, sequentially (along the continuous collector 3, by the flow of the pumped medium) each connected through separate for each of the flasks 2 connecting channels 15, 16, 17 of the inlet and outlet, respectively, with the lateral radial nozzles 18, 1 separated in the channel 26 by partitions 23 9, 20 (separate for each of the flasks 2) of the collector 3, fixed in the lateral transverse recess of the lid 1 eccentrically to the axes of the flasks 2 and transversely to the connecting channels 15, 16, 17, as well as the bracket 4 fastened to the lid 1 for mounting to a supporting surface. At the same time, on the outer opposite edges of the collector 3, the inlet and outlet pipes 5 are made, each connected to the extreme lateral radial pipe 18 or 19 of the collector 3.

The lateral (radial) nozzles 18, 19, 20 of the collector 3 are introduced into the lateral (radial) connecting channels 15, 16, 17 of the inlet and outlet of the cover 1.

The collector 3 is made with a longitudinal (axial) channel 26 (divided by partitions 23) with two groups of three side (radial) pipes 18, 19, 20, two of each group are introduced into the connecting channels 15, 16, the supply connected to one of the ring the cavities of the lid 1 and are located symmetrically on both sides of the through pipe 20 introduced into the connecting channel 17 of the outlet connected with one of the axial cavities of the lid 1.

The lateral (radial) pipes 18, 19 of each group of three pipes 18, 19, 20 of the collector 3, located symmetrically and led into the supply connecting channels 15, 16, connected with one annular cavity of the cover 1, are made one through and the other blind.

The collector 3 is equipped with ball valves 14 symmetrically mounted at the edges, while the inlet and outlet pipes 5 of the collector 3 are located coaxially and symmetrically. Each valve 14 consists of a locking ball 12, a rod 11, a handle 10, a fitting 5, and rubber rings 30.

The bracket 4 is made with a wall mounting plane.

The collector 3 is preferably made in the form of a rectangular parallelepiped and is fixed in the lateral recess 21 of the lid 1 made on the installation plane side using screws 22, with the possibility of shifting by 180 ° to change the direction of filtration.

Preferably, the lid 1 is integral with the bracket 4.

The cover 1 can be made integral from two parts, also the collector 3 can be made integral from two or more parts. The cover 1 is provided with centering sleeves 13 in the axial cavities in communication with the central channels 17 of the outlet.

Each sleeve 28 of the cover 1 is made with a portion of the internal thread for screwing the flasks 2.

Each flask 2 from the side opposite the lid 1 is made with a hole 27 in which the plug 9 is installed.

The cover 1 is equipped with a month indicator for replacing the filter element with a scale of 6 and a slider 7.

The letter Z indicates the distance from the axis of the manifold 3 to the installation plane. The arrows in FIG. 2 shows the direction of movement of the pumped fluid through the cover 1 and the manifold 3 at two positions of the latter.

The filter housing with installed filter elements is operated as follows.

A feature of the inventive housing with a horizontally located trunk is the ability to connect two sequentially working filter elements to a horizontally located water supply pipe without any additional transitional parts. This is ensured by the fact that the collector 3 is fixed and completely recessed in the lateral transverse recess 21 of the lid 1 eccentrically to the axes of the flasks 2 and transversely to the connecting channels 15, 16, 17. In this case, the axis of the inlet and outlet pipes 5, of the collector 3 is easily mounted coaxially to the pipe (not shown ) fixed to the wall using standard clips (clamps). After installation, the taps 14 are opened by turning the levers 10.

The direction of fluid supply from left to right or from right to left (Fig. 4) is set by the position of the manifold 3, on which there are corresponding arrows.

The pumped fluid (liquid) passes through the inlet pipe 5 and the corresponding ball valve 14. Then, through the part of the channel 26 of the manifold 3 connected to the pipe 5, the liquid enters the channel 15 or 16 and the pipe 18 or 19, respectively, as shown in FIG. 4. After this, the liquid passes through one flask 2 and one filtering element 8, which delays pollution, into the axial cavity of the lid 1, channel 17 and then through the side pipe 20 and the middle part separated by the first partition 23, channel 26 of the collector 3.

After passing one flask 2 and one filter element 8, the fluid enters the collector 3 into the next channel 15 or 16 and the pipe 18 or 19, respectively, as shown in FIG. 4. After this, the liquid passes through another flask 2 and another filtering element 8, delaying pollution, into the axial cavity of the lid 1, channel 17 and then through the side pipe 20 and another part separated by the second partition 23, channel 26 of the manifold 3 into the valve 14 and outlet pipe 5.

Thus, the entire fluid flow is sequentially filtered through two filter elements 8, which eliminates the possibility of incomplete cleaning.

To carry out work with the casing, which requires replacing the filter elements 8, or seals, or moving the collector 3, the taps 14 are closed by turning the levers 10. In this case, the slider 7 on the scale 6 marks the date of replacement of the filter elements 8.

To clean the flask 2, the stopper 9 is removed and the sediment accumulated inside the flask 2 is ejected from it by a stream of transported liquid. If necessary, the cover 1 can be removed from the flask 2 (by unscrewing the latter by the thread of the sleeve 28) and the filter element 8 can be removed, which can be additionally washed or replaced with a new one.

To change the direction of the liquid, it is necessary to unscrew the screws 22, remove the collector 3 from the cover 1, rotate the collector 3 by 180 °, install the collector 3 in the cover 1 (Fig. 2) and tighten the screws 22.

The proposed design of the filter housing allows you to increase the period between the replacement of filter elements, as well as to increase the degree of purification of the transmitted fluid flow without a significant increase in space within one mounting section in height for laying a pipeline (determined by the height of flasks 2 and cover 1) and one filter (as an assembly unit) for its installation or the installation of a separate second filter, provides convenience and compactness of installation without any additional transitional parts, provides extended Moznosti chosen by the parties supply and analysis of water, reduces the installation time and labor intensity, as well as the additional costs of the transition elements, allows installation in tight spaces.

Claims (12)

1. The filter housing, containing two flasks for installing filter elements in them, parallel mounted on one side of the sides to a common cap, which is made on the side of each flask with an annular sleeve for installing the flask and with concentric annular partitions directed towards the installation of the corresponding filter element with the formation of axial and annular cavities in the lid, each connected through connecting channels of the inlet and outlet, respectively, with collector side branch pipes separated by partitions and fixed in the transverse recess of the cover eccentrically axes flasks and bonded to the cover bracket for mounting to a support surface, wherein at the opposite outer edges of the collector formed inlet and outlet associated with each radial extreme lateral pipe collector. 2. The filter housing according to claim 1, characterized in that the side pipes of the collector are inserted into the side connecting channels for supplying and removing the cover. 3. The filter housing according to claim 2, characterized in that the collector is made with two groups of three side nozzles, two of each group are introduced into the supply connecting channels associated with one annular cavity of the lid, and are located symmetrically on both sides of the through nozzle, introduced into the connecting channel of the outlet associated with one axial cavity of the cover. 4. The filter housing according to any one of paragraphs. 1-3, characterized in that the side pipes of each group of three pipes of the collector, located symmetrically and introduced into the connecting supply channels associated with one annular cavity of the cover, made one through and the other blind. 5. The filter housing according to any one of paragraphs. 1-3, characterized in that the collector is equipped with ball valves symmetrically mounted at the edges, while the inlet and outlet nozzles of the collector are aligned and symmetrical. 6. The filter housing according to any one of paragraphs. 1-3, characterized in that the bracket is made with a wall mounting plane. 7. The filter housing according to claim 6, characterized in that the collector is made in the form of a rectangular parallelepiped and is fixed in the lateral recess of the cover made on the installation plane side with screws with the possibility of rearrangement by 180 ° to change the filtration direction. 8. The filter housing according to any one of paragraphs. 1-3, 7, characterized in that the cover is made integral with the bracket. 9. The filter housing according to any one of paragraphs. 1-3, 7, characterized in that the cover is made integral. 10. The filter housing according to any one of paragraphs. 1-3, 7, characterized in that each cap sleeve is made with a portion of the internal thread for screwing the flask. 11. The filter housing according to any one of paragraphs. 1-3, 7, characterized in that each flask from the side opposite the lid is made with a hole in which the plug is installed. 12. The filter housing according to any one of paragraphs. 1-3, 7, characterized in that the lid is equipped with an indicator of the month of replacement of the filter element with a scale and a slider.

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