RU2771052C1 - Distribution module of the water supply system - Google Patents

Abstract

FIELD: water supply.SUBSTANCE: invention relates to the field of water supply. Distribution module contains housing (1) with water inlet (5) and at least one outlet (9) communicated with inlet (5) by means of conduits. The body (1) of the module is made of a monolithic composite polymer in the form of a L-shaped polyhedron in the form of a parallelepiped with a cutout, having a front surface and side faces. The inlet conduit (6) associated with the inlet (5) is made in the form of a through passage in the part (4) of the body (1) with a smaller side size. Along the part (7) of the body (1) with a large side size, a through channel of the outlet conduit (8) is made, connected with the outlet holes (9) by means of transverse conduits (10), and parallel to it is a cylindrical channel (11) with an inlet technological hole ( 12), in which a cartridge filter (14) is installed with an annular gap (13) relative to its walls. The annular gap (13) around the filter in the cylindrical channel is connected with the inlet conduit (6) by the hole (15), the longitudinal axis of which is inclined to the longitudinal axis of the inlet (5). The outlet channel (16) of the filter (14) is connected with the inlet cavity (17) of the water pressure reducer installed in the cylindrical groove from the side of the front surface. Landing sockets are also made on the front surface, connected respectively with the inlet (6) and outlet (8) conduits, in which pressure gauges are fixed. The inlet (5) and at least one outlet (9), as well as the inlet technological hole (12) of the cylindrical channel (11) are made on the side of the side faces of the body. The body openings not used for water supply, as well as the inlet technological opening (12) of the cylindrical channel (11) of the filter, are closed with technological plugs.EFFECT: simplification of the manufacturing technology, reduction of dimensions and increase in the reliability of the module.3 cl, 4 dwg

Description

The invention relates to the field of water supply and can be used in residential water supply distribution units.

A water supply system distribution unit is known, containing a water inlet device and water outlet devices connected to the distribution manifold, as well as pressure gauges connected to the system, a water pressure reducer, a filter (see VALTEC product data sheet, Floor distribution units for water supply systems, https: //valtec.ru/catalog/uzly_dlya_gorizontalnyh_sistem_otopleniya/etajnye_moduli_ucheta/uzel_etajnyj_raspredelitelnyj_dlya_sistem_vodosnabjeniya_s_redu ktorom.html).

The disadvantages of the known node are the increased dimensions of the node due to the need to attach additional system branches to it when connecting additional elements of hydraulics or measuring equipment, as well as reduced reliability of its operation due to a significant number of threaded connections that require guaranteed sealing.

A distribution module of a water supply system is known, containing a housing with an inlet for water inlet and at least one outlet connected to the inlet by means of conduits (see RU 2299953 C2, publ, 27.05.2007).

The disadvantages of the known module are the non-optimal shape of the housing, which does not allow to achieve the required functionality of the system due to the impossibility of using simple technological operations to ensure that all the necessary channels and cavities are made in a single housing, as well as to ensure the power fastening of all elements of the water supply unit in a single housing. In the technical solution, the channels can only be made by casting, which requires expensive technological equipment.

The technical problem is to eliminate the noted shortcomings. The technical result consists in simplifying the manufacturing technology, reducing the dimensions and increasing the reliability of the module.

The problem is solved, and the technical result is achieved by the fact that the distribution module of the water supply system contains a housing with an inlet for water inlet and at least one outlet connected to the inlet by means of conduits, while, according to the invention, the module housing is made monolithic from a composite polymer in the form of an L-shaped polyhedron in the form of a parallelepiped with a cutout having a front surface and side faces, while the inlet conduit associated with the inlet is made in the form of a through passage in the body part with a smaller side size, along the body part with a through channel of the outlet conduit is made with a large side size, communicated with the outlet openings by means of transverse conduits, and parallel to it a cylindrical channel with an inlet technological hole, in which a cartridge filter is installed with an annular gap relative to its walls, while the annular gap around the filter in the cylindrical channel is communicatedwith an inlet water conduit with an opening, the longitudinal axis of which is inclined to the longitudinal axis of the inlet, and the filter outlet channel is connected with the inlet cavity of the water pressure reducer installed in the cylindrical groove from the side of the front surface; outlet conduits, in which pressure gauges are fixed, the inlet and outlet openings, as well as the inlet technological opening of the cylindrical channel, are made from the side faces of the body, and the openings of the body that are not used for water supply, as well as the inlet technological opening of the cylindrical channel of the filter, are closed with technological plugs. At the outlet of the through passage of the body, a ball valve with a servo drive associated with a leakage protection system can be installed. Technological seating sockets can be made on the front surface of the housing, at least in one of which a membrane hydraulic shock compensator can be installed, while the channel of one socket is connected with the inlet, and the channel of the other seat is connected with the outlet conduit.

The invention is illustrated with the help of drawings.

In FIG. 1 shows a perspective view of a monolithic module case;

In FIG. 2 - longitudinal section of the body;

In FIG. 3 - photo of the module with pressure gauges installed in it and a water pressure reducer.

In FIG. 4 - photo of the module from the side.

The assembly contains a module body 1 made of a monolithic composite polymer (for example, polyethylene terephthalate) in the form of an L-shaped polyhedron in the form of a parallelepiped with a cutout, having a front surface 2 and side faces 3 located at an angle to it. In part 4 of the body 1 with a smaller side size, an inlet 5 is made, connected to the inlet conduit 6, made in the form of a through passage, the outlet of which is located on the opposite side of the shorter protrusion, which is part 4. At the indicated outlet of the conduit 6, a ball valve with a servo drive connected to the system protection against leaks (not shown in the drawings). That is, the inlet 5 is made from the side of the side face 3, the inlet conduit 6 is oriented along the side with a large size and crosses through the part 4.

Along the part 7 of the body 1 with a large side size, a through channel of the outlet conduit 8 is made, communicated with the outlet holes 9 using transverse conduits 10, and parallel to the outlet conduit 8 - a cylindrical channel 11 with an inlet technological hole 12, in which with an annular gap 13 relative to its walls are equipped with a cartridge filter 14 mesh type. In this case, the annular gap 13 is in communication with the inlet conduit 6 through the hole 15, the longitudinal axis of which is inclined to the longitudinal axis of the inlet 6. The outlet channel 16 of the filter 14 is in communication with the inlet cavity 17 of the water pressure reducer 18 (for example, of the "Honeywell FK-06" type ) installed in the cylindrical groove 19 from the side of the front surface 2. On the front surface 2, there are also landing sockets 20 and 21, connected respectively with the inlet 6 and outlet 8 conduits, in which pressure gauges are fixed, respectively, 22 and 23. Inlet 5, the outlet holes 9, as well as the inlet technological hole 12 of the cylindrical channel 11 are made on the side of the side faces 3 of the body 1, and the holes of the body that are not used for water supply (for example, part of the outlet holes 9) are closed with technological plugs (not shown in the drawings). The inlet technological hole 12 of the cylindrical channel 11 is closed with a cover 24, which presses the filter 14, thus sealing the outlet channel 16. As shown in Fig.4, the cover 24 is wrapped with a hexagon 25, which allows it to be screwed flush.

On the front surface of the housing can be made technological seat sockets 26, at least one of which has a membrane hydraulic shock absorber (not shown in the drawings), while the channel of one socket is connected with the inlet conduit 6 (in the drawing it is connected with the inlet conduit 6 through cavity of the annular gap 13), and the channel of the other socket 26 is connected to the outlet conduit 8.

The housing 1 is provided with mounting sockets 27, made, for example, in the form of threaded holes on the side faces 3, to which a universal fastener is attached (not shown in the drawings). The implementation of such nests 27 on a large number of faces 3 provides the choice of any location of the body 1 when fastening.

The module performs the function of a distributor for consumers, as well as the function of a coarse filter and a decrease and adjustment of the mains water pressure. The module is designed to work with drinking water supply with a pressure of 10 atm and a temperature of 75°.

The use of a one-piece body eliminates the need for numerous tubes, with a corresponding number of hydraulic connections. The body shape used (an L-shaped polyhedron with a cutout) makes it possible to provide all the required switching of conduits inside the body, using simple technological operations (drilling in a monolithic body). In addition, the convenience of installation and operation of the unit is achieved due to manipulations with only one object (case). At the same time, the universality of fastening is achieved by fixing only one part in any of its positions.

Thus, the use of the described module makes it possible to simplify the manufacturing technology of the distribution module of the water supply system, reduce its dimensions and increase the reliability of the system module by reducing the number of hydraulic connections, as well as improve the ease of installation, operation and repair of the module.

Claims (3)

1. Distribution module of the water supply system, containing a housing with an inlet for water input and at least one outlet connected to the inlet by means of conduits, characterized in that the module housing is made of a monolithic composite polymer in the form of a L-shaped polyhedron shape in the form of a parallelepiped with a cutout, having a front surface and side faces, while the inlet conduit associated with the inlet is made in the form of a through passage in the part of the body with a smaller side size, a through channel of the outlet conduit is made along the part of the body with a larger side size, communicated with the outlets by means of transverse conduits, and parallel to it a cylindrical channel with an inlet technological hole, in which a cartridge filter is installed with an annular gap relative to its walls, while the annular gap around the filter in the cylindrical channel communicates with the inlet conduit with an opening, the longitudinal axis of which is located and inclined to the longitudinal axis of the inlet, and the outlet channel of the filter is connected with the inlet cavity of the water pressure reducer installed in the cylindrical groove from the side of the front surface, on the front surface there are also landing sockets connected, respectively, with the inlet and outlet conduits, in which pressure gauges are fixed, the inlet and at least one outlet, as well as the inlet technological hole of the cylindrical channel, are made on the side of the side faces of the body, and the openings of the body that are not used for water supply, as well as the inlet technological hole of the cylindrical channel of the filter, are closed with technological plugs. 2. The module according to claim 1, characterized in that a ball valve with a servo drive connected to the leakage protection system is installed at the outlet of the through passage of the housing. 3. The module according to claim. 1, characterized in that on the front surface of the housing there are technological landing sockets, at least one of which has a membrane compensator for hydraulic shocks, while the channel of one socket is connected to the inlet, and the channel of the other socket is connected to the outlet conduit .

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