RU189832U1 - DEVICE FOR SEPARATION OF LIQUIDS ON DENSITY - Google Patents

Abstract

The utility model relates to the food industry, namely, the separation of liquids by density, for example, by increasing or decreasing the concentration of valuable nutrients contained in the wash water during processing of vegetable raw materials. A device for separating liquids by density includes a bath casing, two rigidly fastened together mounting racks with mounted on them collecting tray, lower and upper hollow squeezing and transporting rollers, with an elastic porous tape placed on them, while the lower p rolls Yes, they are placed in such a way that one of the pairs of rollers with their axes is installed along the top section of the detachable layer with the placement of an elastic porous tape in the gap, the second pair, in the direction of movement of the elastic porous tape, is placed to ensure full immersion of the elastic porous tape in the upper liquid layer, and the third installed at the exit of the elastic porous tape from the liquid symmetrically the first relative to the vertical axis of the device, while additionally at the exit of the elastic porous tape from the density-separating liquid a scraper is installed, except In addition, there are two floats in the bathroom, each of which is rigidly fixed along one of the mounting racks. The technical result consists in increasing the efficiency of phase separation. 2 of FIG.

Description

The proposed utility model relates to the food industry, namely, the separation of liquids by density, for example, when increasing or decreasing the concentration of valuable nutrients contained in the wash water during processing of vegetable raw materials.

One of the main problems of oil and fat production is waste disposal. The most important reason for the compulsory utilization of vegetable oils and fats is their insolubility in water. Therefore, the primary task of waste disposal is considered to be the maximum reduction of environmental damage.

The possibility of recycling purified water can successfully contribute to solving crisis situations existing in regions with insufficient water resources. And, as a result, the technical solution that promotes the purification of water for its further reuse, as well as the reduction of the release of fat-containing waste into the environment, become extremely important.

It is also worth noting that the use of waste oil and fat production, namely fat-containing emulsions can be used to increase the yield of the target product, as well as to obtain new products, for example, technical lubricating oils. This would lead to a more complete use of valuable plant materials and reduce costs.

The special literature describes a device for separating liquids by density, including a chute for removing the light fraction, as well as transporting and squeezing rollers in the upper and lower parts of the installation, installed in pairs through springs connecting them, with an elastic porous tape placed on them [RF Patent №2239485 , IPC B01D 17/00, A device for the separation of liquids, 10.11.2004].

A device for separating fat-containing emulsions is known, comprising a bath, upper and lower squeezing and transporting rolls, of which the upper transporting roll is made hollow and perforated, with an elastic porous tape placed on them, two squeeze rolls hinged on the bath body are supported on the upper transporting roll by means of racks, moreover, these racks are interconnected by a calibrated replaceable spring, and the squeezing roller located, on the side of the crowding of the elastic porous tape, is heated th [RF Patent No. 142481, IPC 01D 17/022, Device for separating fat-containing emulsions, December 6, 2013].

The advantage of the known device is to facilitate the "extraction" of an elastic porous tape filled with a detachable light fraction of the liquid due to its heating by one of the rolls.

However, it should be noted that the installation of only one pair of rolls for compressing the elastic porous tape across the top of the detachable layer prevents the entire pores of the tape from filling. Since after a single passage of the tape through a pair of rollers, due to the high density of the oil and fat emulsion, it is immediately covered with a film, this does not allow the air remaining in it to be freed, thereby not allowing the tape to be saturated as much as possible, which reduces the amount of collected light fraction.

Closest to the claimed is a device for the separation of fat-containing emulsions, including the body of the bath, collecting tray, upper and lower squeezing and transporting rolls, of which the upper transporting roller is hollow and perforated, placed on them with an elastic porous tape supported on the upper transporting roller with two squeezing rolls, hinged to the body of the bath by means of racks, and performing a roll located on the side of the crowded elastic porous tape heated, while and squeezing rolls supported on the upper transporting roller are provided with internal openings in the form of truncated cones and are made perforated, the heated squeezing roller having a large opening diameter to the left along the belt running and the opposite sizing roller are each provided with a protrusion relative to the end of the upper transporting roll, in addition, these protrusions are directed in opposite directions with the placement above the collecting tray [RF Patent №2570673, IPC 01D 17/022, Device for the separation of fat-containing emulsions, 10.12.2015].

This design of the device partially solves the problem of fluid removal in the layers adjacent to the upper transporting roll, although the fluid located closer to the squeeze rolls, especially in the middle section of the width of the roll, due to the significant hydrodynamic resistance of the pores of the elastic tape remains in it, not wringing into the collecting tray .

In addition, the level of the upper detachable layer in the body of the bath, can constantly change, due to a decrease or increase in the volume of fluid. Thus, this leads to the fact that the elastic porous tape is immersed in the upper detachable layer not at a given angle, or immersed below the layer of the light fraction, or does not touch it at all.

The technical problem to be solved in the claimed technical solution consists in eliminating the described drawbacks, for which the device for separating liquids by density, including two assembly racks rigidly fastened to each other, with mounted collecting tray, lower and upper hollow squeezing and transporting rollers, with on them elastic porous tape, while the rolls of the lower row are placed so that one of the pairs of rollers with their axes is set at a cut of the upper detachable layer with an elastic pore in the gap the second tape, in the direction of movement of the elastic porous tape, is placed to ensure full immersion of the elastic porous tape in the upper liquid layer, and the third is installed at the exit of the elastic porous tape from the liquid symmetrically to the first pair about the vertical axis of the device, while the roller of the third pair, placed on the outer side of the tape is replaced by a scraper, the edge of which is set relative to the roll at a constant distance equal to the thickness of the porous tape, in addition the mounting racks are installed on two floats, JCOMM connected by a common frame.

The technical effect is implemented in the proposed device due to the fact that the rolls of the lower row compress the elastic tape, squeezing out air bubbles from it, since they are placed so that one of the pairs of rollers with their axes is set along the top of the upper detachable layer. The second pair, in the direction of movement of the elastic porous ribbon, is placed so that the elastic porous ribbon is completely immersed in the upper liquid layer, which allows, in the absence of contact of the elastic ribbon with air, to “press” the remaining bubbles in it, while the third is installed at the exit of the elastic porous ribbon from liquid symmetrically first about the vertical axis of the device. At the same time, due to the additionally installed at the outlet of an elastic porous tape, particles of the separable fraction adhering from above are removed from the density-separated liquid of the scraper, which, when exposed to the upper squeeze rolls, can again "roll" into the structure of the tape, reducing its effectiveness. The required level of arrangement of the lower rolls relative to the mirror of the divided liquid is provided by two floats, rigidly connected by a common frame, on each of them they are fixedly mounted on one of the mounting racks.

The invention is illustrated FIG. 1, fig. 2, where the general scheme of the device and its profile view are shown. The device is placed on the water surface, over which the contaminating liquid 1 installed at the inlet and outlet of it, the lower squeeze rolls 2, fastened with springs 3, with the lower transporting rollers 4, and placed on them with elastic porous tape 5, is poured in the form of a film. Above the surface a collector 6 is installed and the upper hollow transporting rollers 7, fastened with a hollow squeeze roll 8, springs 9. A scraper 10 is installed at the exit of the liquid of the elastic porous tape 10. Floats 11 connected by the frame are located on the edges of the installation s fixed mounting racks 12.

The device works as follows. Installation is placed on the water surface 1 with a light fraction on it, which must be collected. The installation is supported by the construction of its floats 11 located at the edges with mounting racks fixed to them 12. Floats control the depth of immersion of the lower: squeeze 2 and transporting 4 rolls fastened together by springs 3 into the liquid to maintain the required angle of entry into the upper detachable layer elastic porous tape 5. In the area of the lower: squeezing 2 and transporting 4 rolls, comes the porous elastic tape 5, where under the action of the lower springs 3 is deformed (compressed). When it is compressed, the air there is removed from the individual pores, since the surfaces of the tape do not experience any additional effect. Moving to the water surface 1 with a detachable contaminating liquid, the tape, due to its elastic properties, begins to restore its geometric shape, incorporating this liquid as a lighter fraction. Moving further tape experiences additional compression of the second pair of lower rolls 2 and 4, which are in the liquid. This contributes to the release of the remaining internal air bubbles, for maximum absorption of the light fraction. Having a strictly specified thickness, the tape affects only a certain layer of liquid to be removed, without mixing it with others. At the outlet of the liquid with elastic porous tape 5 is removed, not absorbed excess light fraction using a scraper 10. Coming as it moves in contact with the upper conveying 7 and squeezing 8 rollers, fastened together by springs 9 placed above the surface 1, porous tape 5 it is again deformed, freeing its pores from the light fraction collected from the surface. The collected light fraction flows into the collection tray 6, which is located under the upper conveying 7 and squeezing 8 rollers, and is then removed for further processing. In the subsequent described cycle of deformation of the elastic tape with the absorption of the removed fraction is repeated.

The use of the described device allows you to quite simply and accurately separate the individual fractions of liquids of different density, while ensuring high installation performance and continuous process time due to the additionally installed lower rolls, scraper and floats.

[1] Patent of the Russian Federation No. 2239485, IPC B01D 17/00, A device for the separation of liquids, 10.11.2004

[2] Patent of the Russian Federation No. 142481, IPC 01D 17/022, Device for separating fat-containing emulsions, 6.12.2013

[3] Patent of the Russian Federation No. 2570673, IPC 01D 17/022, Device for separating fat-containing emulsions, 12/10/2015

Claims (1)

A device for separating liquids according to density, including a bath casing, two assembly racks rigidly fastened to each other with a collection tray mounted on them, lower and upper hollow squeezing and conveying rollers, with an elastic porous tape placed on them, characterized in that the lower rows of rollers are placed so that one of the pairs of rollers with their axes is mounted over the top section of the detachable layer with the placement of an elastic porous tape in the gap, the second pair, in the direction of movement of the elastic porous tape, is placed with full immersion of the elastic porous tape in the upper liquid layer, and the third is installed at the exit of the elastic porous tape from the liquid symmetrically with the first relative to the vertical axis of the device, while additionally at the exit of the elastic porous tape from the density-divided liquid a scraper is installed; float, on each of which are rigidly fixed on one of the mounting racks.

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