PL132833B2 - Apparatus for magnetization of liquids - Google Patents

Description

The subject of the invention is a device for the magnetization of fluids with variable flow rates, where the source of the magnetic field are permanent magnets. The devices for magnetization of fluids are used to treat liquids that tend to form boiler scale, as well as to reduce the degree of aggressiveness in terms of corrosion. such devices are of two kinds: with the use of solid manges and with the use of electromagnets. Construction devices with permanent magnets, known, inter alia, from the Polish patent description No. 63,621 and the Czech patent description No. 116,618, are characterized as devices mounted in a pipeline. They consist of a body inside which magnets are permanently placed vertically or horizontally. The stream of liquid flows through the lines of magnetic fields. In order to give a higher flow velocity, a tapered section is used. This results in a greater degree of magnetization of the flowing fluid. A common disadvantage of the known devices is the fact that the degree of magnetization of the fluids is dependent on the flow rate. The object of the present invention is to make a device which allows to maintain a constant degree of magnetization regardless of the intensity of the flow of the fluid. as well as the time of its interaction with the fluid is of significant importance for the efficiency of the magnetization effect. This goal was achieved by making a device consisting of a body ending in inlet and outlet throats. Inside the body there are distance sleeves made of a non-magnetic material, between which magnets in the shape of a half-ring are embedded - forming a slit between the poles of different poles, along the entire length of the magnet. The spacer sleeve on the outlet side has holes which allow the fluid to flow freely concentrically. A float made of a non-magnetic material is placed in the space created by the half-ring-shaped magnets. In specific cases, it may have the shape of a sphere. Spacer sleeves are attached to the throat through plates with holes, these plates also limit the maximum position of the float. The body is terminated with flanges with holes facilitating the assembly and disassembly of the pipeline device.2 132833 The subject of the invention in an exemplary embodiment is shown in the drawing, in which Fig. 1 shows a longitudinal section, and Fig. 2 shows a cross section of the device along the line AA. it contains permanent magnets which are the source of the lines of force of the magnetic fields. The magnetic field, acting perpendicular to the direction of the fluid flow, prevents the formation of a dense limescale deposit and also reduces the coordinating action of the fluid. The device is made of permanent magnets 4 in the form of a pipe section (Fig. 2), whose opposite poles are separated by a slot 5 along the axis devices. Along the slit 5, a fluid flows perpendicular to the force line of the magnetic field. The length of the slot 5 is regulated by the position of the float 3 at a given moment. This position is conditioned by the balance between the buoyancy forces and the gravity of the float 3, which should be made of a non-magnetic material. The loading of the float 3 is also done in the lower part 12 with a non-magnetic material. In the event of a device running, where its position will deviate from the vertical, the float 3 can be made in the form of a ball. Magnets 4 are attached to distance sleeves 7 and 10 made of non-magnetic material. The distance sleeve 7 has holes in its body that allow the fluid to flow from the space between the body. 6 and with magnets 4 to the outlet mouths 8. Spacer 7 is attached to outlet 8 through hole plate 9, and spacer 10 is fastened to inlet throat 1 and plate 2 with holes. The function of the plates 2 and 9 is also to limit the movement of the float 3 in the minimum flow position, plate 2 and maximum fluid flow. Plate 9. The inlet 1 and the outlet 8 are terminated with flanges 11 enabling easy assembly and disassembly of the pipeline device. The constant and most effective interaction of the magnetic field on the fluid is achieved by maintaining constant parameters such as the transverse dimension of the aperture 5, the intensity and strength of the megnetic field created by the permanent magnets 4 and the constant velocity of the fluid flow perpendicular to the magnetic field force line. A constant speed is maintained by placing the float at a given height, conditioned by a balance of buoyancy and gravity. The most advantageous position of the device in the installation is vertical, but if such an arrangement is not possible, a float 3 in the form of a ball should be installed. Patent claims 1. Device for magnetizing fluids with variable flow rates with permanent magnets, characterized by the fact that the magnets (4) are permanent in the form of a segment the pipes are attached to distance sleeves (7 and 10) made of non-magnetic material, of which the spacer sleeve (7) has holes in its body in order to allow the fluid to flow from the space between the body (6) of the device with permanent magnets (4) to the outlet throat (8) ), whose opposing poles are separated by a slot (5) with a length adjusted by the position of the float (3) made of a non-magnetic material with the possibility of weighting it in the lower part (12), while the distance sleeves (7 and 10) are attached to the body (6) through the plates (2 and 9) with holes limiting the extreme position of the float (3). 2. Device according to claim 1, characterized in that the float (3) has the shape of a ball. 132833 11 lHi, \ | l / JM Fig. 1 EN

Claims (2)

Claims 1. Device for magnetizing fluids with variable flow rates with permanent magnets, characterized in that the permanent magnets (4) in the form of a pipe section are attached to distance sleeves (7 and 10) made of non-magnetic material, of which the distance sleeve (7) it has openings in its body to allow the flow of fluid from the space between the body (6) of the device with permanent magnets (4) to the outlet throat (8), the different poles of which are separated by a slot (5) with a length adjusted by the position of the float (3) made of material non-magnetic with the possibility of weighting it in the lower part (12), while the distance sleeves (7 and 10) are attached to the body (6) through plates (2 and 9) with holes limiting the extreme position of the float (3). 2. Device according to claim 1, characterized in that the float (3) has the shape of a ball. 132833 11 lHi, \ | l / JM Fig. 1 EN