RU2048206C1 - Centrifuge for separating suspensions - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: centrifuge has housing with collectors for settler and filtrate and rotor mounted inside the housing. The rotor has distributing chamber mounted on the driving shaft and filtering members secured to the outer side of the chamber. The filtering members are constructed as disks and perforated and solid conical shells secured to the disk coaxially and alternatively. The shells define the Z-shaped passageway. The disks are mounted for permitting changing the distance between them. The supplying pipe is arranged so that its outlet part is positioned inside the distributing chamber. EFFECT: enhanced efficiency. 2 cl, 2 dwg

Description

 The invention relates to devices for separating suspensions into solid and liquid fractions in a centrifugal field, namely to centrifuges, and can be used in agriculture for separating manure into fractions, as well as in chemical, mining and other industries.

Known centrifuge containing a housing, a rotor made of blades, a feeding tube and a device for braking sediment, consisting of plates mounted on the rotor at the peripheral part of the blades [1]
A disadvantage of the known centrifuge is the low quality of fractionation, which limits its use.

The closest technical solution in its essence and the achieved effect to the invention is a centrifuge containing a housing with chambers for sediment and filtrate, a rotor in the form of a distribution chamber equipped with a shaft with a separating element mounted on its outer part from perforated walls, equipped with a casing for collecting the filtrate and its drainage into the filtrate chamber, the supply pipe, the output end of which is placed in the distribution chamber [2]
In a known centrifuge, due to the fact that the suspension, when moving along the blades in its path (except for the outlet part), does not experience significant optimal forces, the separation efficiency remains unsatisfactory. However, due to the small separation surface, the required separation quality is also not ensured.

 The purpose of the invention is improving the efficiency of separation of suspensions into fractions.

 This is achieved by the fact that in a centrifuge for separating suspensions containing a housing with filtrate and sediment collectors, a rotor located in the housing, including a distribution chamber mounted on the drive shaft and filter elements mounted on its outer surface and a supply pipe, the outlet section of which is located in the distribution chamber , the filtering elements are made in the form of two disks on which perforated and continuous conical shells are fixed coaxially in an alternating sequence, forming interconnecting zigzag channel, while the disks are mounted with the possibility of changing the distance between them, and the perforated shells of one disk are located opposite the solid shells of the other disk.

 The implementation of the filtering elements in the form of two disks on which perforated and continuous cone-shaped shells are fixed in an alternating sequence, forming a zigzag channel between themselves, unlike the prototype, allows sharply changing the direction of movement of the suspension, thereby ensuring intensive mixing of the layers and thereby increasing the efficiency of separation liquid fraction.

 Mounting disks with the ability to change the distance between them, unlike the prototype, allows you to adjust the width of the zigzag channel depending on the moisture content of the initial suspension and provides the most efficient mode of operation of the centrifuge.

 The installation of perforated shells of one disk opposite the solid shells of another disk, unlike the prototype, allows maximum use of squeezing forces created by centrifugal force, thereby increasing the efficiency of the process of separation of the suspension into fractions.

 Thus, the proposed combination of features provides, in contrast to the prototype, an increase in the efficiency of separation of the suspension into fractions due to the emerging ability to sharply change the direction of movement of the suspension by adjusting the width of the zigzag channel depending on the moisture content of the initial suspension, due to the emerging ability to maximize the use of squeezing forces created by centrifugal by force.

 From the foregoing, we can conclude that the proposed set of essential features of the invention is not obvious from the achieved technical level and, therefore, the proposed technical solution meets the criterion of "Inventive step".

 When conducting a search for the novelty of the proposed facility, a centrifuge for separating suspensions according to the stated formula, it was concluded that the proposed technical solution is new.

 Analysis of the interaction of the features of the proposed device when it is used in a production environment allows us to conclude industrial applicability.

 In FIG. 1 shows a centrifuge diagram for separating suspensions, a general view; figure 2 section aa in figure 1.

 The centrifuge for separating suspensions contains a housing 1 with collectors 2 and 3 for sediment and filtrate, located in the housing 1 of the rotor 4, including a distribution chamber 6 mounted on the drive shaft 5 and filter elements 7 mounted on its outer surface, a supply pipe 8, the outlet section of which placed in the distribution chamber 6. The filter elements 7 are made in the form of two disks 9 and 10, which are mounted with the possibility of changing the distance between them and on which are fixed coaxially in an alternating sequence s perforated and solid conical shell 11 and 12 forming a zig-zag between the channel 13. Thus the perforated shroud 11 located opposite one disc continuous sidewalls 12 of another disk. The distribution chamber 6 is made of two bushings 14 and 15, rigidly mounted on the disks 9 and 10, respectively. Moreover, the sleeve 14 is made of a larger diameter than the sleeve 15, which allows them to move relative to each other when adjusting the gap between the disks 9 and 10. The bushings 14 and 15 are made with slots 16 for the passage of the initial suspension. The cavities between the shells 11, 12 and the disks 9, 10 respectively communicate with the collector 3 of the filtrate through the holes 17.

 A centrifuge for separating suspensions operates as follows.

 The initial suspension is fed through a pipe 8 to the distribution chamber 6, from where it enters the pressure zigzag channel 13 between the disks 9 and 10 through the slits 16, where under the action of centrifugal force pressing the suspension against the perforated conical shells 11, the filtrate is separated, which through the perforation of the shells 11 flows into the cavity between the shells 11, 12 and the disks 9, 10, respectively, then through the holes 17 into the filtrate collector 3. The precipitate is discharged by centrifugal forces into the collection tank 2 and discharged to the outside. During its movement in the radial direction in the space between the disks 9 and 10, the suspension flow due to the execution of the channel in a zigzag manner is intensively mixed, which contributes to the effective separation of the liquid fraction. When the moisture content of the suspension changes, the gap between the disks changes. For example, with increasing humidity, this gap decreases. In this case, the disk 10 moves towards the disk 9, the sleeve 15 of the distribution chamber 6 enters the inside of the sleeve 14 and is fixed in a predetermined position.

Claims (2)

 1. CENTRIFUGE FOR SEPARATION OF SUSPENSIONS, comprising a housing with filtrate and sediment collectors, a rotor located in the housing, including a distribution chamber mounted on the drive shaft and filter elements mounted on its outer surface, and a supply pipe, the discharge section of which is located in the distribution chamber, characterized in that the filtering elements are made in the form of two disks on which perforated and continuous conical shells are formed coaxially in alternating sequence, forming there is a zigzag channel between each other, while the disks are mounted with the possibility of changing the distance between them.  2. The centrifuge according to claim 1, characterized in that the perforated shells of one disk are located opposite the continuous shells of another disk.

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