RU2049076C1 - Hydraulic magnetic system for purifying water - Google Patents

Abstract

FIELD: purifying waste. SUBSTANCE: system has an assembly of permanent magnets and step unit made up as separate deflecting members shifted with respect to each other over horizon and vertical and positioned in the flowing passageway at 30-70° to the direction of the flow. The assembly of permanent magnets and step unit are secured to the support and form a rigid construction together. EFFECT: enhanced efficiency. 8 cl, 4 dwg

Description

 The invention relates to the purification of natural and waste water and can be used in the treatment of rivers, canals, industrial effluents by magnetic treatment of water.

A device for magnetic water treatment containing magnetic elements consisting of permanent magnets placed in cassettes [1]
The specified device involves the use of pumping units, and therefore does not find application in pressureless flows.

 Closest to the invention is a device for water purification [2] including a magnetic unit mounted in the flow channel, made in the form of a set of magnetic elements consisting of permanent magnets.

 However, due to the fixed dimensions of the magnetic block, such a device cannot overlap any cross sections of the magnetizable flow. In addition, the device takes directly to the magnetic block the influence of solid objects in the stream and is subject to frequent failure of a particular magnetic element, which requires the dismantling of the entire magnetic block.

 Thus, the technical result of the invention is the expansion of the functionality of the device due to its use for cleaning streams of any cross sections, increasing the reliability of the device and the convenience of its operation, as well as the effectiveness of the magnetic field on the treated water stream by obtaining an oxygen-enriched environment.

The technical result is obtained due to the fact that the hydromagnetic system for water purification comprising mounted in the flow channel a set of magnetic elements consist of permanent magnets is provided with a support and a stepwise cascade placed at an angle of 30-70 ^{° C} to the flow direction and consisting of individual baffle elements mounted offset horizontally and vertically relative to each other, while a set of magnetic elements and a stepped cascade are mounted on a support, forming a rigid structure.

 Magnetic elements can be placed in removable cartridges installed in the mount unit of removable cartridges mounted on a support.

 The hydraulic system can be equipped with a jumper fastened at one end with a support and placed in the flow channel at an angle coinciding with the angle of rotation of the stepped cascade.

 The support and bridge are made of reinforced concrete.

 As a support, a concrete shore of the flow channel can be used.

 Permanent magnets in magnetic elements can be placed in pairs symmetrically relative to the working area of the element and with alternating polarity.

The hydraulic system can be made in the form of several steps located along the length of the flow channel, while the cascades of adjacent steps are deployed relative to each other. The rotation angle of adjacent cascades is 90 ^° .

 In FIG. 1 shows a schematic diagram of a system consisting of two stages; in FIG. 2, section AA in FIG. 1, the location of the reflective elements of the stepped cascade in depth of flow; in FIG. 3 section BB in FIG. 1, a set of magnetic elements housed in removable cartridges; in FIG. 4 embodiment of the placement of permanent magnets in a magnetic element.

 The hydraulic system for water purification contains a set of 2 magnetic elements installed in the flow channel 1, a safety net 3, a step cascade 4 and a support 5. A set of 2 magnetic elements, a safety net 3 and a step cascade 4 are interconnected by a support 5, form a rigid structure and represent one step of the hydraulic system.

The step 4 is made of a cascade of individual reflective elements 6 mounted offset relative to each other horizontally and vertically overlapping one another and arranged in the flow direction and to the support 5 at an angle of ^about 30-70.

The hydraulic system may consist of several steps located along the length of the flow channel 1, while cascades 4 of two adjacent steps are deployed relative to each other and the angle between them is optimally 90 ^° .

 The support 5 can be mounted on the end of the jumper 7 installed in the flow channel 1 at an angle coinciding with the angle of rotation of the step cascade 4. Concrete shore 8 of the flow channel can also be used as support 5 (in Fig. 1, the second stage of the system).

 A set of 2 magnetic elements is placed in removable cartridges 9 installed in the node 10 for mounting removable cartridges on the support 5 (Fig.3).

 Each magnetic element consists of permanent magnets 11 (figure 4), which are located in the body of the magnetic element in pairs symmetrically relative to the working gap and with alternating polarity.

 The system operates as follows.

 The water stream to be cleaned, for example, a canal, river or industrial runoff, falls on a stepped cascade 4, as a result of which solid objects moving in the water stream are delayed by reflective elements 6, slide along them and go into the channel passage, and the water goes to set 2 passing through the latter, it is magnetized and actively enters, together with oxygen dissolved in it, in chemical and biological reactions with water-polluting impurities, oxidizing them, decomposing and disinfecting the bacteriological Wednesday

 In addition, the water stream, falling on the cascade 4 overflows through the reflective elements 6, breaks up on them, forming a turbulent stream mixed with air, and a mass of small water sprays in which oxygen is actively dissolved. Thus obtained oxygenated magnetized air-water mixture even more actively enters into oxidative processes, as a result of which the water is cleaned and disinfected more effectively.

 The hydraulic system for water treatment thus operating, consisting of several steps spaced along the flow channel 1, allows you to treat it with a magnetic field and purify large volumes of water in any sections of the flow channels, and with a sufficient number of magnetic elements and all water in the stream, increasing efficiency water purification in a pressureless flow without the need for blocking the flow channel with a rigid structure.

 The system allows you to clean water flows with any bottom shape, and the ability to change the magnetic elements through removable cassettes allows you to change the parameters of the flow processing by the magnetic field.

 The step cascades with reflective elements installed at an angle to the water flow make it possible to enrich the water flow with oxygen and thereby produce more effective water purification, as well as increase the reliability of magnetic elements; in addition, installation, dismantling and repair of magnetic elements is simplified.

Claims (8)

1. HYDROMAGNETIC SYSTEM FOR PURIFICATION OF WATER, including a set of magnetic elements installed in the flow channel containing permanent magnets, characterized in that it is equipped with a support and a step cascade placed at an angle of 30 70 ^o to the direction of flow and consisting of separate reflective elements installed with displacement relative to each other horizontally and vertically, while a set of magnetic elements and a stepped cascade are mounted on a support, forming a rigid structure.  2. The system according to claim 1, characterized in that it is provided with a mounting unit for removable cartridges located on a support and removable cartridges in which magnetic elements are located.  3. The system according to p. 1, characterized in that it is equipped with a jumper, at the end of which a support is installed, while the jumper is placed in the flow channel at an angle coinciding with the angle of rotation of the stepped cascade.  4. The system of claims. 1 and 5, characterized in that the support and bridge are made of concrete.  5. The system according to claim 1, characterized in that the concrete shore of the flow channel is used as a support.  6. The system according to claim 1, characterized in that the permanent magnets in the magnetic elements are arranged in pairs symmetrically relative to the working area of the elements and with alternating polarity.  7. The system according to p. 1, characterized in that it consists of several steps located along the length of the flow channel, and cascades of adjacent steps are deployed relative to each other. 8. The system of claims. 1 and 7, characterized in that the angle of rotation of adjacent downstream step cascades is 90 ^o .

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