UA27997U - Centrifuge for separation of suspensions - Google Patents

Abstract

A centrifuge for separation of suspensions includes a housing, a rotor installed in it, which consists of cylindrical and conical parts, a reducer located in the jacket and connected to cylindrical part of the rotor, a worm conveyor coaxially located inside the rotor and made in the form of a hollow drum with turns of spiral fastened on it, the worm conveyor is equipped with loading windows, in conical part of the rotor unloading windows for solid phase are located, and in the cylindrical part of the rotor openings for discharge of centrifuge effluent are located, supply pipe located inside the drum of worm conveyor, shaft for removal of solid phase. The ratio of the length of rotor to its diameter is equal to 2.1 2.57, the ratio of the length of conical part of the rotor to the length of cylindrical part of the rotor makes from 1:1 to 1:3, in this case the taper angle of conical part of the rotor is equal to 6 DEGREE 9 DEGREE 30'. The turns of spiral and loading window of worm conveyor are protected by abrasive resistant material.

Description

Description of the invention

A useful model refers to devices for separating suspensions and can be used to separate 2 the solid phase from the liquid, for example, when cleaning drilling fluids.

A centrifuge for separation of suspensions is known, which contains a housing, a rotor installed in it, which consists of cylindrical and conical parts, an auger located inside the rotor coaxially with the latter.

The auger is made in the form of a hollow drum with spiral turns fixed on it. The centrifuge is equipped with a feed pipe, a shaft for removing the solid phase. At the same time, the ratio of the length of the rotor to 70 of its diameter is equal to 3.0. |D.E. Shkoropad "Centrifuges for chemical production", Moscow, "Mashinostroenie", 1975, p. 201.).

The disadvantages of this centrifuge include the fact that such a large difference between the length of the rotor and its diameter causes high energy costs for transporting the solid phase. This design of the centrifuge ensures the separation of mainly finely dispersed solid phase. 19 The closest analogue of the claimed device is a centrifuge for separation of suspensions, which includes a housing, a rotor installed in it, which has a cylindrical and conical part, a reducer placed in the casing and connected to the cylindrical part of the rotor, a screw coaxially located inside the rotor, made in the form of a hollow drum with spiral turns fixed on it, the auger is equipped with loading windows, in the conical part of the rotor there are windows for discharging the solid phase, and in the cylindrical part of the rotor 20 holes are made for draining fugat. The centrifuge also has a feed pipe and a shaft for the removal of the solid phase. At the same time, the ratio of the length of the rotor to its diameter is equal to 1.86. (Catalog "Industrial Centrifuges", TSYNTIKHIMNEFTEMASH, Moscow, 1986, p. 16.).

The disadvantages of the closest analogue include the low performance of the centrifuge in separating the finely dispersed solid phase. This is due to the small difference in values between the values of the length 25 of the rotor and its diameter. In addition, during the operation of such a centrifuge, wear of the screw spiral and windows in the screw loading occurs due to the friction of the solid phase against these surfaces. Which, in the end, also causes a decrease in the performance of the centrifuge.

The basis of a useful model is the technical task of creating such a centrifuge for separation of suspensions, in which, due to the use of new structural elements, it would be possible to increase the degree of separation of the solid phase and, ultimately, to increase the performance of the centrifuge. Gee!

The technical result, which is achieved, consists in increasing the productivity of the centrifuge.

This technical result is achieved by the fact that the centrifuge for separation of suspensions, which includes a housing, a rotor installed in it, which consists of cylindrical and conical parts, a reducer, placed in the casing and connected to the cylindrical part of the rotor, is located inside the rotor coaxially with a screw , performed in

In the form of a hollow drum with spiral turns fixed on it, the auger is equipped with loading windows, in the conical part of the rotor there are windows for unloading the solid phase, and in the cylindrical part of the rotor there are holes for draining fugat, a feed pipe placed inside the auger drum, a shaft for draining solid phases, according to the invention, the ratio of the length of the rotor to its diameter is 2.1-2.57, the ratio of the length of the conical part of the rotor to the length of the cylindrical part of the rotor is from 1:11 to 1:3, while the angle of conicity of the conical part of the rotor is 6bo-9230, spiral turns and auger loading windows are protected by abrasion-resistant material. In addition, ceramic plates are used as an abrasive-resistant material.

At the same time, a hard alloy is used as an abrasive-resistant material.

In addition, the inner surface of the gear housing and the solid phase shaft are lined with rubber. t 15 In addition, the auger loading windows have a round shape.

The comparison analysis with the closest analogue shows that the claimed centrifuge differs in that -| that the ratio of the length of the rotor to its diameter is 2.1-2.57, the ratio of the length of the conical part of the rotor to the length of the cylindrical part of the rotor is from 1:11 to 1:3, while the conic angle of the conical part of the rotor is 6b2-:9230, spiral turns and auger loading windows are protected by abrasion-resistant material. "M In addition, ceramic plates are used as an abrasive-resistant material.

At the same time, a hard alloy is used as an abrasive-resistant material.

In addition, the inner surface of the gear housing and the solid phase shaft are lined with rubber.

In addition, the auger loading windows have a round shape.

The essence of the useful model is explained by graphic material, where in Fig. a general view of a centrifuge for separation of suspensions is shown.

The centrifuge for separation of suspensions includes a body 1, a rotor 2 is installed in it, which consists of a cylindrical part C and a conical part 4. The reducer 5, placed in the casing 6, is connected to the cylindrical part C of the rotor 2. Inside the rotor 2, a screw is coaxially located 7, made in the form of a hollow drum 8 with spiral turns 9 fixed on it. The auger 7 is equipped with loading windows 10.

In the conical part 4 of the rotor 2, there are windows for unloading the solid phase 11, and in the cylindrical part Z of the rotor 2 there are holes for draining the fugat 12. The centrifuge has a feed pipe 13, located inside the drum 8 of the auger 7. The device is also equipped with a mine for the removal of the solid phase 14 65 G - length of rotor 2;

Or - rotor diameter 2;

14 - the length of the conical part 4 of the rotor 2; 15 - the length of the cylindrical part C of the rotor 2; о, - The taper angle of the conical part 4 of the rotor 2.

In this centrifuge, the ratio of the length of the rotor 2 to its diameter O is 2.1-2.57.

The ratio of the length 1.4 of the conical part 4 of the rotor to the length 125 of the cylindrical part C of the rotor 2 is from 1:1 to 1:3.

The conicity angle o of the conical part 4 of the rotor 2 is equal to: 9230/.

The centrifuge works as follows.

The suspension to be separated is fed through the feed pipe 13, moves along the drum 8 of the screw 7, passes through the loading windows 10 and enters the rotor 2 of the centrifuge. The rotor 2 and the screw 7 rotate in the same direction, but at different speeds thanks to the gearbox 5, which transmits rotation from the rotor 2 to the screw 7 with the required relative number of revolutions. In rotor 2, under the action of centrifugal forces, which are created by the rotation of rotor 2, the suspension is separated into a solid phase and fugat.

The solid phase is thrown to the walls of the rotor 2. At the same time, the turns of the spiral 9 of the auger 7 move the solid phase from the cylindrical part C of the rotor 2 to the conical part 4 and contribute to its discharge through the windows for discharging the solid phase 11. From the windows for discharging the solid phase 11, the latter falls into solid phase mine 14.

The fugat, which is formed during the separation of the suspension, flows in the opposite direction - to the holes for removing the fugat12.

The ratio of the length of the rotor 2 to its diameter 0, which is equal to 2.1-2.57, was selected experimentally and ensures the maximum performance of the centrifuge.

Provided that this ratio is less than the lower limit value, the performance of the centrifuge for the separation of the finely dispersed solid phase decreases - the solid parts of the coarsely dispersed solid phase are mainly separated.

If this ratio exceeds a higher limit value, the energy consumption for 37Z transportation of the solid phase at the same productivity for the finely dispersed solid phase increases significantly.

The ratio of the length 1.4 of the conical part of the rotor to the length 15 of the cylindrical part of the rotor, which is from 1:1 to 1:3, was also selected experimentally and ensures the achievement of a technical result.

Provided that this ratio is less than 1:1, for example, 1:0.5, the performance of the device is reduced due to significant entrainment of the solid phase with the fugate. F

If this ratio exceeds a value of 1:3, for example, 1:4, the productivity of the solid phase increases, but the energy losses for moving the solid phase increase to a greater extent. (at)

The value of the taper angle of the conical part of the rotor from bo to 9230 was obtained experimentally and ensures the achievement of the technical result, which consists in the fact that, on the one hand, a constant discharge of the finely dispersed solid phase, which has significant fluidity, is ensured, and, on the other hand, the dimensions of the centrifuge along the length c provide satisfactory strength of the rotor.

Provided that this value is less than 62, the length of the rotor will be large, which causes an increase in the size of the entire centrifuge and a decrease in its strength and, accordingly, productivity. "

If this value exceeds 92307, the conditions for transporting the solid phase of suspensions with high fluidity deteriorate, which also affects the reduction of the performance of the centrifuge until the discharge of the solid phase from the rotor stops, and, as a final result, the performance decreases to zero. "z In a separate case, ceramic plates are used as an abrasion-resistant material to protect the spiral turns of the auger 9 and " windows of loading the auger 10.

In another separate case, a hard alloy is used as an abrasion-resistant material to protect the spiral turns of the auger 9 and the loading windows of the auger 10. o In a separate case of implementation, the inner surface of the casing 9 of the reducer 5 and the solid phase shaft 14 -I is lined with rubber.

In yet another embodiment, the auger loading windows 10 have a round shape. se) at 50

Claims (5)

The formula of the invention is that 1. A centrifuge for separation of suspensions, which includes a housing, a rotor installed in it, which consists of cylindrical and conical parts, a reducer placed in the casing and connected to the cylindrical part of the rotor, and a coaxial screw, made in the form of a hollow drum, is located inside the rotor with spiral turns fixed on it, the auger is equipped with loading windows, in the conical part of the rotor there are windows for discharging the solid phase, and in the cylindrical part of the rotor there are holes for draining fugat, a feed pipe placed inside the drum of the auger, a mine for draining the solid phase, which differs in that the ratio of the length of the rotor to its diameter is 2.1 "7 2.57, the ratio of the length of the conical part 60 of the rotor to the length of the cylindrical part of the rotor is from 1:1 to 1:3, while the taper angle of the conical part of the rotor is equal to 7 9230, spiral turns and auger loading windows are protected by abrasion-resistant material. 2. Centrifuge according to claim 1, which differs in that ceramic plates are used as an abrasive-resistant material. for 3. Centrifuge according to claim 1, which differs in that a hard alloy is used as an abrasive-resistant material. 4. Centrifuge according to claim 1, which is characterized by the fact that the inner surface of the reducer casing and the solid phase shaft is lined with rubber. 5. Centrifuge according to claim 1, which is characterized by the fact that the screw loading windows have a round shape. - cha (22) (22) cha s - with . and? ime) -I se) o 50 what s 60 b5