RU2367500C1 - Modular water cleaner - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: proposed device comprises carcass with vertical wall accommodating cleaning modules connected water streamwise. Aforesaid wall accommodates pairs of flexible holders, a pair per each module, and carcass can be furnished with protective cover. Carcass vertical wall accommodates guides for inlet and outlet units of jointing each module with water inlet and discharge channels. Note here that inlet and outlet jointing units represent a holder of the angular jointing unit. The said holder represents a parallelepiped with inscribed angular jointing unit. One part of the said unit is directed vertically, while another being directed horizontally. Vertical bar of parallelepiped can interact with the guide in sliding. Vertical part of jointing unit can be jointed to the cleaning module inlet or outlet, while its horizontal part can be jointed to water feed or discharge channels. Parallelepiped top horizontal bar has vertical ring with bearing elements to up and down the angular jointing unit holder.

EFFECT: ease of operation, simplified replacement of cleaning modules.

5 cl, 4 dwg

Description

The invention relates to the purification of drinking water, in particular to means for filtering water through an adsorption-bactericidal material in domestic conditions, and can be used to purify and improve the quality of drinking water.

Known modular device for water treatment, known from US 5188727, 02.23.1993, comprising a housing with a vertical wall with installed cleaning modules, connected in series with the current of the treated water. On the wall there are pairs of elastic holders for each cleaning module. The housing is configured to install a protective cover. The known device improves the quality of water treatment through the use of cleaning modules for various purposes.

The known filter has a design that does not allow quick and convenient replacement of cleaning modules.

An object of the present invention is to correct this drawback.

The technical result is to increase ease of use by speeding up and simplifying the process of replacing cleaning modules, which does not require the use of a special tool.

The result is achieved in that in a modular device for water purification. comprising a housing with cleaning modules installed in it, connected in series with the current of the water being cleaned, the housing is made in the form of a vertical bearing wall with pairs of spring-loaded holders installed on each cleaning module and guides for input and output blocks connecting each cleaning module to the water supply and drain channels, the vertical bearing wall is installed in the casing, made with the possibility of installing a protective cover, and the fact that the input or output unit of the connection is made in the form of a holder lovogo connector assembly movably coupling assembly for guiding relative wiping unit; and the fact that the holder of the angular connecting node is made in the form of a parallelepiped with an angled connecting node inscribed into it, one part of which is oriented vertically and the second part is oriented horizontally, the continuous vertical strip of the parallelepiped is made with the possibility of sliding interaction with the guide for input and output blocks of connection of each a cleaning module with water supply and drainage channels; a ring with thrust elements is mounted vertically on the upper horizontal strip of the parallelepiped and for lowering and lifting the holder of the angular connector assembly; the fact that slots are made in the vertical bearing wall in which pairs of elastic holders of the cleaning modules and supports for the cleaning modules are installed; the fact that in the input or output block of the connection of each cleaning module to the water supply and drain channels, the vertical part of the corner connecting unit is designed to connect to the input or output of the cleaning module, and the horizontal part of the corner connecting unit is designed to connect to the water supply or drain channel; the fact that the cleaning bag of one of the modules is made in the form of a first filter washer arranged in series along the water, a mixture of active charcoal “NORIT” AG3N 18 × 40 V = 80 ± 1 cm ³ and active charcoal “CHEMVIRON CARBON LIMITED” 607C 18 × 40 V = 320 ± 4 cm ³ and a second filter washer; the fact that in the holder of the corner connecting node the vertical bar for sliding interaction with the guide is made with flanges; the fact that the holder of the corner connecting unit is made of plastic.

Figure 1 shows a General view of the device, where the frame 1 with installed cleaning modules 2, connected to the input and output blocks 3, 4 of the connection with the channels of supply and drainage of water; figure 2 shows the frame 1, made in the form of a wall 5, in which the slots 6 are made with the supports 7 installed in them and the corresponding pairs of elastic holders 8 of the cleaning modules, the upper and lower guides 9 are installed for the input and output blocks 3, 4, 10, at the level of the guides 9, 10, ledges 11, 12 are made for supporting the cleaning modules 2; Figures 3 and 4 show the design of the input or output unit 3, 4 of the connection of the cleaning module to the water supply and drain channels, where the box 13 is indicated with the angled connecting unit 14 (not shown in Fig. 4) inscribed in it with a vertically oriented part 15 and horizontally oriented part 16, the box 13 contains a continuous vertical bar 17, made with the possibility of sliding interaction with the guides 9 or 10, the box 13 contains an upper horizontal bar 18, which is mounted vertically to a face 19 with thrust elements 20, 21 for lowering and raising the parallelepiped 13, the vertical bar 17 is made with a flange 22. The filter module consists of a cover and a housing connected by friction welding (see the Handbook “Welding of Polymer Materials” ./ Ed. K. I. Zaitseva, Moscow, Mechanical Engineering, 1986, section “Friction welding”), a cleaning unit is installed in the housing, the inner surface of the lid is made in the form of a dome, the diameter of which is almost equal to the diameter of the cleaning unit. The filtering modules carry out various functions and, accordingly, the different execution of the cleaning blocks. In the first stage, the cleaning unit is made of sprayed polypropylene of variable density. In the second stage, the cleaning unit is made of pressed activated carbon. In the third stage, the cleaning unit is made in the form of a reverse osmosis membrane. The last stage cleaning bag is made in the form of the first filtering washer arranged in series along the water, an active carbon mixture AG3N 18 × 40 (steam-activated granular silver-containing carbon made from coconut shells, supplier - NORIT Nederland BV company) V = 80 ± 1 cm ³ and activated carbon 607C 18 × 40 (activated carbon, supplier - Sutcliffe Speakman - Chemviron Carbon Company, United Kingdom) V = 320 ± 4 cm ³ and a second filter washer.

The device operates as follows.

The input blocks 3 and the output blocks 4 of the connection are installed respectively on the guides 9, 10. The cleaning modules 2 are mounted on the supports 7 in the holders 8 and rest on the ledges 11, 12. Connect the input blocks 3 and the output blocks 4 of the connection with the cleaning modules 2. act on the thrust elements 20, 21 of the rings 19 of blocks 3 and 4 and, respectively, lower and raise the parallelepipeds 13, thereby lowering and raising the corner connecting nodes 14. The parallelepipeds 13 slide with vertical bars 17 along the guides 9, 10. The vertical parts 15 of the corner soy of the heating units 14 are connected to the inlet and outlet fittings of the cleaning modules 2. The vertical parts 15 of the corner connecting nodes 14 are connected to the supply and exhaust channels of the cleaning modules 2. The purified water is supplied and it is cleaned sequentially in the cleaning modules 2. Inner domed surfaces of the inlet covers the modules allow water to be distributed over the entire surface of the cleaning unit, and it enters the cleaning packages of the cleaning modules 2. The inner domed surfaces of the outlet caps allow collect and send the filtered water to the outlet channels of the cleaning modules 2. In the first module, the water is purified from mechanical impurities, in the second module - from chloride compounds, in the third - from salts and microorganisms, after which it enters the storage tank for storage, which ensures uninterrupted supply water regardless of the throughput of the cleaning modules. The fourth stage serves to condition the water after storing it in a storage tank. From the fourth stage, water enters through the outlet pipe of the purified liquid to a tap with a shut-off valve.

The replacement of spent cleaning modules 2 is as follows. Stop the water supply to the device and after a while disconnect the input blocks 3 and output blocks 4 of the connection from the cleaning modules 2. In this case, they act on the stop elements 20, 21 of the rings 19 of blocks 3 and 4 and, accordingly, the parallelepipeds 13 are raised and lowered, thereby raising and lowering the corner connecting nodes 14. The parallelepipeds 13 slide with vertical strips 17 along the guides 9, 10. The vertical parts 15 of the corner connecting nodes 14 are disconnected from the input and output fittings of the cleaning modules 2. Spent cleaning modes whether 2 are removed from the holders 8 and replaced with new ones. New modules are connected as described.

Thus, the use of cleaning modules for various purposes can improve the quality of the water obtained, in addition, it increases the convenience of operation by accelerating and simplifying the process of replacing cleaning modules with input units 3 and output units 4 of the connection of the corresponding design that does not require the use of a special tool.

Claims (5)

1. A modular device for water purification, including a frame with a vertical wall with cleaning modules installed in it, connected in series with the current of the water being cleaned, and pairs of elastic holders are installed on the wall for each cleaning module, and the frame is made with the possibility of installing a protective cover, characterized the fact that in the frame on a vertical wall there are guides for input and output blocks connecting each of the cleaning modules to the water supply and drain channels, while the input and output blocks with Unions are made in the form of a holder of an angular connecting unit, which is a parallelepiped with an angled connecting unit inscribed in it, one part of which is oriented vertically and the second part is oriented horizontally, a continuous vertical strip of the parallelepiped is made with the possibility of sliding interaction with the guide, while on the upper horizontal strip parallelepiped mounted vertical ring with thrust elements for lowering and raising the holder of the corner connecting evil. 2. The modular device for water purification according to claim 1, characterized in that the slots are made in the vertical bearing wall, in which pairs of elastic holders of the cleaning modules and supports for the cleaning modules are installed. 3. The modular device for water purification according to claim 1, characterized in that in the input or output unit for connecting each of the cleaning modules to the water supply and drain channels, the vertical part of the corner connecting unit is designed to connect to the input or output of the cleaning module, and the horizontal part The corner connecting unit is designed to connect to the water supply or drain channel. 4. The modular device for water purification according to claim 1, characterized in that in the holder of the corner connecting node the vertical bar for sliding interaction with the guide is made with flanges. 5. The modular device for water purification according to claim 1, characterized in that the holder of the corner connecting node is made of plastic.

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