CN109847949B

CN109847949B - Convertible runner structure of multi-functional dish formula separating centrifuge of convertible multithread way

Info

Publication number: CN109847949B
Application number: CN201910313686.2A
Authority: CN
Inventors: 徐飞; 刘岩岩; 李福宝; 许增金; 舒德龙
Original assignee: Shenyang University of Technology
Current assignee: Shenyang University of Technology
Priority date: 2019-04-18
Filing date: 2019-04-18
Publication date: 2021-05-11
Anticipated expiration: 2039-04-18
Also published as: CN109847949A

Abstract

The invention relates to a convertible runner structure of a multifunctional disc separator with a convertible multi-runner, wherein a locking screw cap is positioned at the upper end of a disc bracket base, the locking screw cap is screwed on external threads at the top of a central shaft, the locking screw cap is pressed on the disc bracket base, the disc bracket base is sleeved on an external conical surface of a lower body of a rotary drum, the lower body of the rotary drum is sleeved on the external conical surface at the top of the central shaft, a disc bracket is matched at the upper side of the disc bracket base, a plurality of runners are enclosed between the disc bracket base and the disc bracket, a detachable plug is fixed at the lower end of the runner, a plurality of layers of discs with gaps are sleeved on the disc bracket, the discs are tightly pressed through disc glands at the uppermost side, the disc bracket is provided with double rows of lower cone through holes, and the discs are provided with single rows of upper through holes communicated with the. The invention can realize various flow passages.

Description

Convertible runner structure of multi-functional dish formula separating centrifuge of convertible multithread way

Technical Field

The invention belongs to the field of fluid machinery, relates to a flow channel of a disc separator, and particularly relates to a changeable flow channel structure of a multifunctional disc separator with multiple changeable flow channels.

Background

At present, the disc separator has various types and models, but generally only can realize one flow channel, so that the disc separator has single function and narrow application range, and can not realize multiple purposes of one type. It is impossible to realize a machine capable of simultaneously realizing liquid-liquid two-phase separation and purification, solid-liquid two-phase separation and purification and liquid-solid three-phase separation.

In addition, the disc tray of the existing disc separator is generally of an integral structure, and the flow channel in the disc tray is complex in structure, easy to clog, difficult to clean and manufacture, and not beneficial to realizing various flow channels.

Moreover, the conventional disc type separator generally has only one disc, has a single structure and is not beneficial to realizing various flow passages.

Disclosure of Invention

Object of the Invention

In order to realize multiple functions and multiple purposes of one machine type, the invention designs a changeable runner structure of a disc type separator with multiple changeable runners, which can realize multiple runners. The disc separator with three flow channels can realize liquid-liquid two-phase separation and purification, solid-liquid two-phase separation and purification, and also can realize liquid-solid three-phase separation, thereby realizing multiple purposes of one machine.

Technical scheme

The utility model provides a convertible runner structure of multi-functional dish formula separating centrifuge of convertible multithread way which characterized in that: the disc tray comprises a rotary drum lower body, a locking screw cover, a disc tray base, a disc tray, a disc pressing cover and a plug, wherein the locking screw cover is positioned at the upper end of the disc tray base, the locking screw cover is provided with internal threads and screwed on external threads at the top of a central shaft through the internal threads, the locking screw cover is pressed on the disc tray base, the peripheral surface of the matching part of the rotary drum lower body and the disc tray base is a conical surface, the disc tray base is sleeved on an external conical surface of the rotary drum lower body through an internal conical hole, the rotary drum lower body is sleeved on the external conical surface at the top of the central shaft through the internal conical hole, the disc tray base is matched with the disc tray on the upper side, the upper end of an inner cavity of the disc tray is used for inserting a feeding pipe, a plurality of flow channels are formed between the disc tray base and the disc tray, the detachable plug, the inner diameter of the central hole of the disc is larger than the outer diameter of the part sleeved by the disc bracket, the key groove formed on the inner wall of the central hole of the disc is matched with the outer rib of the disc bracket, the disc is tightly pressed by the disc gland on the uppermost side, the disc bracket is provided with double rows of lower cone through holes, and the disc is provided with a single row of upper through holes communicated with the lower cone through holes of the disc bracket or a single row of lower through holes communicated with the lower cone through holes of the disc bracket or.

The disc comprises a bottom disc, a plurality of middle discs and a top disc, wherein the main body of the bottom disc is conical, and the bottom disc, the middle discs and the top disc are the same in overall dimension and are sequentially overlapped from bottom to top; the top structures of the bottom layer disc, the middle layer disc and the top layer disc are central holes which are inwards horizontally folded, key grooves are uniformly distributed on the inner ring edge of the central holes, and the bottom structures of the bottom layer disc, the middle layer disc and the top layer disc are outwards horizontally folded bottom edges; the side wall of the bottom layer disc main body is provided with no hole or a circle of uniformly distributed bottom layer disc upper row holes or a circle of uniformly distributed bottom layer disc lower row holes, and the side wall of the middle layer disc main body is simultaneously provided with uniformly distributed middle layer disc upper row holes, uniformly distributed middle layer disc lower row holes and uniformly distributed support ribs; the side walls of the top layer disc and the bottom layer disc are provided with the same hole, and the side wall of the top layer disc main body is provided with no hole or a circle of uniformly distributed top layer disc upper row holes or a circle of uniformly distributed top layer disc lower row holes; the positions of the row holes on the bottom layer disc, the row holes on the middle layer disc and the row holes on the top layer disc are corresponding; the positions of the bottom layer disc lower row hole, the middle layer disc lower row hole and the top layer disc lower row hole are corresponding; the supporting ribs are uniformly distributed, a row of middle disc upper-row holes and a row of middle disc lower-row holes are clamped between every two supporting ribs, and the middle disc upper-row holes and the middle disc lower-row holes of the outer conical surface of the middle disc are divided into a plurality of single-row vertical-row holes on a plain line by the supporting ribs.

The disc tray comprises an upper column part and a lower cone part which are integrated, the outer peripheral surface of the upper column part is a cylindrical surface or a small-taper conical surface with the upper diameter smaller than the lower diameter, outer ribs are protruded on the outer peripheral surface of the upper column part and used for clamping discs, the inner diameter of a central hole of each disc is larger than the outer diameter of the upper column part, the upper part of an inner cavity of the upper column part is a section of smooth cylindrical surface without the inner ribs, the lower part of the inner cavity of the upper column part is uniformly provided with the inner ribs, the outer peripheral surface and the inner peripheral surface of the lower cone part are conical surfaces, the lower cone part is simultaneously provided with an upper row of lower cone part through holes and a lower row of lower cone part through holes, the inner peripheral surface of the lower cone part is also provided with an inner convex key matched.

The side wall of the outer surface of the main body of the disc tray base is a conical surface, the conical surface of the outer surface is uniformly provided with groove-shaped runners, the outer conical surface is also provided with a groove-shaped key groove a which is used for being matched and installed with an inner convex key on the disc tray, the side wall of the inner surface of the main body is provided with an upper conical surface cavity and a lower conical surface cavity, the upper conical surface cavity is a small-taper conical surface hole with the taper smaller than that of the lower conical surface cavity, and the lower end of the inner wall of the upper conical surface cavity is provided with a notch-shaped key groove b which is matched.

The half-cone angle of the peripheral conical surface of the lower cone part of the disc bracket is 20-50 degrees, and the half-cone angle of the disc is the same as the half-cone angle of the peripheral conical surface of the lower cone part of the disc bracket.

The tail end of the groove-shaped flow passage is provided with a necking structure for installing and closing the plug of the flow passage.

The top layer disk and the bottom layer disk are also provided with the same supporting ribs as the middle layer disk.

Advantages and effects

(1) The invention can realize various flow passages by matching different combinations of discs with the disc bracket, the disc bracket base and the plug, can ensure that the disc type separator realizes liquid-liquid two-phase separation and purification, solid-liquid two-phase separation and purification, can also realize liquid-solid three-phase separation, and realizes multiple purposes of a machine.

(2) The novel structure that the disc bracket is separated from the disc bracket base is adopted, so that the blocking is not easy to occur, the blocking is convenient to clean, the processing and the manufacturing are convenient, and the assembly is convenient.

(3) The mounting size of each layer of discs is the same as the main structure and size, and the discs in the middle layer have only one structure, so that when three flow channels and multiple functions are required to be realized, the production quantity of the discs can be greatly reduced, the production cost can be greatly reduced, and the discs are convenient to assemble, replace and mount.

(4) The outer peripheral surface of the upper column part of the disc bracket is provided with an outer rib which is matched with the key groove on the inner wall of the central hole of each layer of discs for installation, so that power can be transmitted, mutual dislocation between the discs can be prevented, and blockage of a flow channel between the discs of each layer caused by dislocation can be prevented.

(5) The inner surface of the lower cone of the disc tray is provided with an inner convex key which is matched and installed with a groove-shaped key groove on the outer surface of the disc tray base, so that the rotary power can be transmitted, and the disc tray base can be prevented from being mutually dislocated.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention using an upper flow channel;

FIG. 2 is a schematic view of the overall structure of the present invention using a lower flow passage;

FIG. 3 is a schematic view of the overall structure of the present invention using a flow channel between a disc tray and a disc tray base;

FIG. 4 is an overall structure of a disk set when the side walls of the bottom layer disk and the top layer disk have only lower row holes;

FIG. 5 shows the overall structure of the disc set when the side walls of the bottom layer disc and the top layer disc have only upper row holes;

FIG. 6 is an overall structure of the disc stack when the side walls of the bottom and top discs have no holes;

FIG. 7 is a schematic view of a structure of a bottom disc or a top disc without holes on its sidewalls;

FIG. 8 is a schematic diagram of a bottom disc with only upper rows of holes on its sidewall;

FIG. 9 is a schematic view of a bottom disc with only bottom row holes on its sidewall;

FIG. 10 is a schematic view of a middle layer disc;

FIG. 11 is a schematic view of a top-layer disk with only top row holes on its sidewall;

FIG. 12 is a schematic view of the top disk with only bottom row of holes on its sidewall;

FIG. 13 is a sectional view of the disc tray;

FIG. 14 is a perspective view of the disc tray;

FIG. 15 is a cross-sectional view of the base of the disc tray;

FIG. 16 is a front view of the disc tray base;

FIG. 17 is a top view of the disc tray base;

FIG. 18 is a bottom view of the disk tray base.

Description of reference numerals: 1-central shaft, 2-rotary drum lower body, 3-locking screw cap, 4-disc bracket base, 5-disc bracket, 6-disc, 7-disc gland, 8-feed pipe, 9-sealing ring, 10-bottom disc upper row hole, 11-bottom disc lower row hole, 12-middle disc upper row hole, 13-middle disc lower row hole, 14-supporting rib, 15-top disc upper row hole, 16-top disc lower row hole, 17-upper column part, 18-lower cone part, 19-smooth cylindrical surface, 20-inner rib, 21-lower cone part through hole, 22-inner convex key, 23-annular sealing ring groove, 24-outer rib, 25-groove-shaped flow passage, 26-necking structure, 27-key groove a, 28-keyway b, 29-block, 601-bottom disc, 602-middle disc, 603-top disc.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1

As shown in fig. 1, fig. 5, fig. 8, fig. 10, fig. 11, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17 and fig. 18, a convertible flow channel structure of a convertible multi-flow channel multifunctional disk type separator comprises a drum lower body 2, a locking screw cap 3, a disk bracket base 4, a disk bracket 5, a disk 6, a disk gland 7 and a plug 29, wherein the locking screw cap 3 is positioned at the upper end of the disk bracket base 4, the locking screw cap 3 is provided with internal threads and is screwed on the external threads at the top of a central shaft 1 through the internal threads, the locking screw cap 3 is pressed on the disk bracket base 4, the outer peripheral surface at the matching part of the drum lower body 2 and the disk bracket base 4 is a conical surface, the disk bracket base 4 is sleeved on the outer conical surface of the drum lower body 2 through an internal conical hole, the drum 2 is sleeved on the outer conical surface at the top of the central shaft 1 through the internal conical hole, the upper side, the upper end of the inner cavity of the disc bracket 5 is used for inserting a feeding pipe 8, a plurality of flow passages are defined between the disc bracket base 4 and the disc bracket 5, a detachable plug 29 is fixed at the lower end of the flow passages, the disc bracket 5 is provided with outer ribs 24, a plurality of layers of discs 6 with gaps are sleeved on the disc bracket 5, the inner diameter of the central hole of each disc 6 is larger than the outer diameter of the sleeved part of the disc bracket 5, key grooves formed in the inner wall of the central hole of each disc 6 are matched with the outer ribs 24 of the disc bracket 5, each disc 6 is tightly pressed through the disc gland 7 at the uppermost side, the disc bracket 5 is provided with double-row lower cone-shaped through holes 21, and each disc 6 is provided with a single-. The disc 6 comprises a bottom disc 601 with a conical main body, a plurality of middle layer discs 602 and a top layer disc 603, wherein the bottom disc 601, the middle layer discs 602 and the top layer disc 603 have the same size and are sequentially overlapped from bottom to top; the top structures of the bottom layer disc 601, the middle layer disc 602 and the top layer disc 603 are central holes with inward horizontal folded edges, key grooves are uniformly distributed on the inner ring edge of the central holes, and the bottom structures of the bottom layer disc 601, the middle layer disc 602 and the top layer disc 603 are outward horizontal folded edges; the side wall of the main body of the bottom layer disc 601 is provided with a circle of uniformly distributed upper row holes 10 of the bottom layer disc, and the side wall of the main body of the middle layer disc 602 is simultaneously provided with uniformly distributed upper row holes 12 of the middle layer disc, uniformly distributed lower row holes 13 of the middle layer disc and uniformly distributed support ribs 14; the side walls of the top layer disc 603 and the bottom layer disc 601 are provided with the same opening, and the side wall of the main body of the top layer disc 603 is provided with a circle of uniformly distributed top layer disc upper row holes 15; the positions of the hole rows 10 on the bottom layer disc, the holes rows 12 on the middle layer disc and the holes rows 15 on the top layer disc are corresponding; the supporting ribs 14 are uniformly distributed, a row of upper row holes 12 of the middle-layer disk and lower row holes 13 of the middle-layer disk are clamped between every two supporting ribs 14, and the upper row holes 12 of the middle-layer disk and the lower row holes 13 of the middle-layer disk of the outer conical surface of the middle-layer disk 602 are divided into a plurality of single-row vertical row holes on a plain line by the supporting ribs 14.

The disc bracket 5 comprises an upper column part 17 and a lower cone part 18 which are integrated, the outer peripheral surface of the upper column part 17 is a cylindrical surface or a small-taper conical surface with the upper diameter smaller than the lower diameter, outer ribs 24 are protruded on the outer peripheral surface of the upper column part 17 and used for clamping discs, the inner diameter of a central hole of a disc 6 is larger than the outer diameter of the upper column part 17, the upper part of an inner cavity of the upper column part 17 is a section of smooth cylindrical surface 19 without the inner ribs, inner ribs 20 are uniformly distributed on the lower part of the inner cavity of the upper column part 17, the outer peripheral surface and the inner peripheral surface of the lower cone part 18 are both conical surfaces, the lower cone part 18 is simultaneously provided with an upper row of lower cone part through holes 21 and a lower row of lower cone part through holes 21, the inner peripheral surface of the lower cone part 18 is also provided with an inner convex key 22 matched with the disc. The side wall of the outer surface of the main body of the disc tray base 4 is a conical surface, the conical surface of the outer surface is uniformly provided with groove-shaped runners 25, and the tail end of the groove-shaped runner 25 is provided with a necking structure 26 for installing a plug 29 for sealing the runner. The outer conical surface is also provided with a groove-shaped key groove a 27 which is used for being matched and installed with the inner convex key 22 on the disc bracket 5, the side wall of the inner surface of the main body is provided with an upper conical surface cavity and a lower conical surface cavity, the upper conical surface cavity is a conical hole with small taper compared with the lower conical surface cavity, and the lower end of the inner wall of the upper conical surface cavity is provided with a notch-shaped key groove b 28 which is matched and installed with the lower rotary drum body 2. The half cone angle of the peripheral conical surface of the disc tray lower tapered portion 18 is 20 to 50 DEG, and the half cone angle of the disc 6 is the same as the half cone angle of the peripheral conical surface of the disc tray lower tapered portion 18.

Example 2

As shown in fig. 2, fig. 4, fig. 9, fig. 10, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17 and fig. 18, a convertible flow channel structure of a convertible multi-flow channel multifunctional disk type separator comprises a drum lower body 2, a locking screw cap 3, a disk bracket base 4, a disk bracket 5, a disk 6, a disk gland 7 and a plug 29, wherein the locking screw cap 3 is positioned at the upper end of the disk bracket base 4, the locking screw cap 3 is provided with internal threads and is screwed on the external threads at the top of a central shaft 1 through the internal threads, the locking screw cap 3 is pressed on the disk bracket base 4, the outer peripheral surface at the matching part of the drum lower body 2 and the disk bracket base 4 is a conical surface, the disk bracket base 4 is sleeved on the outer conical surface of the drum lower body 2 through an internal conical hole, the drum 2 is sleeved on the outer conical surface at the top of the central shaft 1 through the internal conical hole, the upper side, the upper end of the inner cavity of the disc bracket 5 is used for inserting a feeding pipe 8, a plurality of flow passages are defined between the disc bracket base 4 and the disc bracket 5, a detachable plug 29 is fixed at the lower end of the flow passages, the disc bracket 5 is provided with outer ribs 24, a plurality of layers of discs 6 with gaps are sleeved on the disc bracket 5, the inner diameter of the central hole of each disc 6 is larger than the outer diameter of the sleeved part of the disc bracket 5, key grooves formed in the inner wall of the central hole of each disc 6 are matched with the outer ribs 24 of the disc bracket 5, each disc 6 is tightly pressed through the disc gland 7 at the uppermost side, the disc bracket 5 is provided with double-row lower cone-shaped through holes 21, and each disc 6 is provided with a single-. The disc 6 comprises a bottom disc 601 with a conical main body, a plurality of middle layer discs 602 and a top layer disc 603, wherein the bottom disc 601, the middle layer discs 602 and the top layer disc 603 have the same size and are sequentially overlapped from bottom to top; the top structures of the bottom layer disc 601, the middle layer disc 602 and the top layer disc 603 are central holes with inward horizontal folded edges, key grooves are uniformly distributed on the inner ring edge of the central holes, and the bottom structures of the bottom layer disc 601, the middle layer disc 602 and the top layer disc 603 are outward horizontal folded edges; the side wall of the main body of the bottom layer disc 601 is provided with a circle of uniformly distributed bottom layer disc lower discharge holes 11, and the side wall of the main body of the middle layer disc 602 is simultaneously provided with uniformly distributed middle layer disc upper discharge holes 12, uniformly distributed middle layer disc lower discharge holes 13 and uniformly distributed support ribs 14; the side walls of the top layer disc 603 and the bottom layer disc 601 are provided with the same opening, and the side wall of the main body of the top layer disc 603 is provided with a circle of top layer disc lower discharge holes 16 which are uniformly distributed; the positions of the bottom layer disc lower row hole 11, the middle layer disc lower row hole 13 and the top layer disc lower row hole 16 are corresponding; the supporting ribs 14 are uniformly distributed, a row of upper row holes 12 of the middle-layer disk and lower row holes 13 of the middle-layer disk are clamped between every two supporting ribs 14, and the upper row holes 12 of the middle-layer disk and the lower row holes 13 of the middle-layer disk of the outer conical surface of the middle-layer disk 602 are divided into a plurality of single-row vertical row holes on a plain line by the supporting ribs 14.

Example 3

As shown in fig. 3, fig. 6, fig. 7, fig. 10, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17 and fig. 18, a variable flow channel structure of a variable multi-flow channel multifunctional disk separator comprises a rotary drum lower body 2, a locking screw cap 3, a disk tray base 4, a disk tray 5, a disk 6, a disk gland 7 and a plug 29, wherein the locking screw cap 3 is positioned at the upper end of the disk tray base 4, the locking screw cap 3 has internal threads and is screwed on the external threads at the top of a central shaft 1 through the internal threads, the locking screw cap 3 is pressed on the disk tray base 4, the outer peripheral surface of the matching part of the rotary drum lower body 2 and the disk tray base 4 is a conical surface, the disk tray base 4 is sleeved on the outer conical surface of the rotary drum lower body 2 through an internal conical hole, the rotary drum lower body 2 is sleeved on the outer conical surface at the top of the central shaft 1 through the internal conical hole, the, the upper end of the inner cavity of the disc bracket 5 is used for inserting a feeding pipe 8, a plurality of flow channels are defined between the disc bracket base 4 and the disc bracket 5, the disc bracket 5 is provided with outer ribs 24, a plurality of layers of discs 6 with gaps are sleeved on the disc bracket 5, the inner diameter of the central hole of each disc 6 is larger than the outer diameter of the sleeved part of the disc bracket 5, the inner wall of the central hole of each disc 6 is provided with a key groove matched with the outer ribs 24 of the disc bracket 5, each disc 6 is tightly pressed by the disc gland 7 at the uppermost side, the disc bracket 5 is provided with double-row lower-cone-shaped through holes 21. The disc 6 comprises a bottom disc 601 with a conical main body, a plurality of middle layer discs 602 and a top layer disc 603, wherein the bottom disc 601, the middle layer discs 602 and the top layer disc 603 have the same size and are sequentially overlapped from bottom to top; the top structures of the bottom layer disc 601, the middle layer disc 602 and the top layer disc 603 are central holes with inward horizontal folded edges, key grooves are uniformly distributed on the inner ring edge of the central holes, and the bottom structures of the bottom layer disc 601, the middle layer disc 602 and the top layer disc 603 are outward horizontal folded edges; the side wall of the main body of the bottom layer disc 601 is nonporous, and the side wall of the main body of the middle layer disc 602 is simultaneously provided with a middle layer disc upper row hole 12, a middle layer disc lower row hole 13 and a supporting rib 14 which are uniformly distributed; the top disc 603 has the same side wall as the bottom disc 601, and the side wall of the body of the top disc 603 is non-porous; the supporting ribs 14 are uniformly distributed, a row of upper row holes 12 of the middle-layer disk and lower row holes 13 of the middle-layer disk are clamped between every two supporting ribs 14, and the upper row holes 12 of the middle-layer disk and the lower row holes 13 of the middle-layer disk of the outer conical surface of the middle-layer disk 602 are divided into a plurality of single-row vertical row holes on a plain line by the supporting ribs 14.

Description of the principle:

the invention designs three changeable flow passage structures of the multifunctional disc separator with changeable multiple flow passages, as shown in figure 1, figure 2 and figure 3.

As shown in fig. 1, fig. 5, fig. 8, fig. 10 and fig. 11, when the first flow channel is needed, a plug 29 is installed at the end of the channel-shaped flow channel 25 of the disc tray base 4, so that the feed material entering the fluid channel enclosed by the disc tray base 4 and the disc tray 5 cannot flow out from the end of the channel-shaped flow channel of the disc tray base 4. The bottom layer disc 601 adopts a disc with a bottom layer disc upper row hole 10 and no supporting ribs, the top layer disc 603 also adopts a disc with a top layer disc upper row hole 15 and no supporting ribs, which are the same as the bottom layer disc 601, the middle layer disc 602 adopts a disc with a middle layer disc upper row hole 12 and a middle layer disc lower row hole 13, and supporting ribs 14, the feeding material enters the upper row hole of the disc bracket 5 from a fluid channel enclosed by the disc bracket base 4 and the disc bracket 5 and then enters the disc upper row hole, and enters each layer of discs through the upper row hole of each layer of discs to separate phase components. Under the stirring of the discs rotating at high speed, the feed materials between the discs are separated under the action of centrifugal force, gravity, fluid resistance, friction force on the surfaces of the discs and the like, light liquid moves upwards between the discs, and heavy liquid and solid particles move downwards between the discs for separation.

As shown in fig. 2, 4, 9, 10 and 12, when the second flow channel is needed, a plug 29 is installed at the end of the channel-shaped flow channel 25 of the disc tray base 4, so that the feed material entering the fluid channel enclosed by the disc tray base 4 and the disc tray 5 cannot flow out from the end of the channel-shaped flow channel 25 of the disc tray base 4. The bottom layer disc 601 adopts a bottom layer disc lower row hole 11 and a rib-free disc, the top layer disc 603 also adopts a top layer disc lower row hole 16 and a rib-free disc which are the same as the bottom layer disc 601, the middle layer disc 602 adopts a disc with a middle layer disc upper row hole 12 and a middle layer disc lower row hole 13 and supporting ribs 14, the feeding material enters the lower row hole of the disc bracket 5 from a fluid channel enclosed by the disc bracket base 4 and the disc bracket 5 and then enters the disc lower row hole, and enters each layer of discs through the lower row hole of each layer of discs to separate phase components. Under the stirring of the discs rotating at high speed, the feed materials between the discs are separated under the action of centrifugal force, gravity, fluid resistance, friction force on the surfaces of the discs and the like, light liquid moves upwards between the discs, and heavy liquid and solid particles move downwards between the discs for separation.

As shown in fig. 3, 6, 7 and 10, when the third flow channel is needed, the bottom disc 601 is a non-porous and non-ribbed disc, the top disc 603 is a non-porous and non-ribbed disc similar to the bottom disc 601, the middle disc 602 is a disc with middle disc upper row holes 12 and middle disc lower row holes 13 and supporting ribs 14, and the feed cannot enter the holes of the disc tray 5 from the fluid channel enclosed by the disc tray base 4 and the disc tray 5 due to the blocking of the bottom and top non-porous discs. The end of the groove-shaped flow channel 25 of the disc tray base 4 is not provided with a block 29, so that the feed entering into the fluid channel enclosed by the disc tray base 4 and the disc tray 5 flows out from the end of the groove-shaped flow channel 25 uniformly distributed on the disc tray base 4 and enters into the drum space outside the disc. And then enters the space between the discs through the outer edge gap of the discs to separate the phase components. Under the stirring of the discs rotating at high speed, the feed materials between the discs are separated under the action of centrifugal force, gravity, fluid resistance, friction force on the surfaces of the discs and the like, light liquid moves upwards between the discs, and heavy liquid and solid particles move downwards between the discs for separation.

The supporting ribs 14 on the middle disc 602 serve to support and space the upper disc 603, and also reduce the flow of the feed material between the two discs, thereby improving the separation efficiency. The double-row hole structure can be used by replacing the bottom disc 601 and the top disc 603, so that the feeding has three flow channels. Top disc 603 and bottom disc 601 preferably do not have support ribs 14, and top disc 603 and bottom disc 601 may also be provided with support ribs 14 identical to middle disc 602.

The surfaces of the disc tray base 4, the disc tray 5 and the disc 6 can be plated with films to improve the hydrophobicity and oleophobicity of the surfaces of the disc tray base, the disc tray and the disc, further improve the anti-clogging capability and separation efficiency of the separator, and also improve the corrosion resistance of the disc tray base, the disc tray and the disc.

Claims

1. The utility model provides a convertible runner structure of multi-functional dish formula separating centrifuge of convertible multithread way which characterized in that: the disc tray comprises a rotary drum lower body, a locking screw cover, a disc tray base, a disc tray, a disc pressing cover and a plug, wherein the locking screw cover is positioned at the upper end of the disc tray base, the locking screw cover is provided with internal threads and screwed on external threads at the top of a central shaft through the internal threads, the locking screw cover is pressed on the disc tray base, the peripheral surface of the matching part of the rotary drum lower body and the disc tray base is a conical surface, the disc tray base is sleeved on an external conical surface of the rotary drum lower body through an internal conical hole, the rotary drum lower body is sleeved on the external conical surface at the top of the central shaft through the internal conical hole, the disc tray base is matched with the disc tray on the upper side, the upper end of an inner cavity of the disc tray is used for inserting a feeding pipe, a plurality of flow channels are formed between the disc tray base and the disc tray, the detachable plug, the inner diameter of the central hole of the disc is larger than the outer diameter of the part sleeved by the disc bracket, the key groove formed on the inner wall of the central hole of the disc is matched with the outer rib of the disc bracket, the disc is pressed by the disc pressing cover at the uppermost side, and the disc bracket is provided with double rows of lower cone-shaped through holes; the disc comprises a conical bottom disc body, a plurality of middle layer discs and a top disc body, wherein the side wall of the bottom disc body is provided with no hole or a circle of uniformly distributed bottom disc upper row holes or a circle of uniformly distributed bottom disc lower row holes, and the bottom disc upper row holes and the bottom disc lower row holes are communicated with the lower cone through hole.

2. The convertible runner structure of a convertible multi-runner multifunctional disk separator as claimed in claim 1, wherein: the bottom layer disc, the middle layer disc and the top layer disc are the same in overall size and are sequentially overlapped from bottom to top; the top structures of the bottom layer disc, the middle layer disc and the top layer disc are central holes which are inwards horizontally folded, key grooves are uniformly distributed on the inner ring edge of the central holes, and the bottom structures of the bottom layer disc, the middle layer disc and the top layer disc are outwards horizontally folded bottom edges; the side wall of the middle layer disc main body is simultaneously provided with evenly distributed middle layer disc upper row holes, evenly distributed middle layer disc lower row holes and evenly distributed supporting ribs; the side walls of the top layer disc and the bottom layer disc are provided with the same hole, and the side wall of the top layer disc main body is provided with no hole or a circle of uniformly distributed top layer disc upper row holes or a circle of uniformly distributed top layer disc lower row holes; the positions of the row holes on the bottom layer disc, the row holes on the middle layer disc and the row holes on the top layer disc are corresponding; the positions of the bottom layer disc lower row hole, the middle layer disc lower row hole and the top layer disc lower row hole are corresponding; the supporting ribs are uniformly distributed, a row of middle disc upper-row holes and a row of middle disc lower-row holes are clamped between every two supporting ribs, and the middle disc upper-row holes and the middle disc lower-row holes of the outer conical surface of the middle disc are divided into a plurality of single-row vertical-row holes on a plain line by the supporting ribs.

3. The convertible runner structure of a convertible multi-runner multifunctional disk separator as claimed in claim 1, wherein: the disc tray comprises an upper column part and a lower cone part which are integrated, the outer peripheral surface of the upper column part is a cylindrical surface or a small-taper conical surface with the upper diameter smaller than the lower diameter, outer ribs are protruded on the outer peripheral surface of the upper column part and used for clamping discs, the inner diameter of a central hole of each disc is larger than the outer diameter of the upper column part, the upper part of an inner cavity of the upper column part is a section of smooth cylindrical surface without the inner ribs, the lower part of the inner cavity of the upper column part is uniformly provided with the inner ribs, the outer peripheral surface and the inner peripheral surface of the lower cone part are conical surfaces, the lower cone part is simultaneously provided with an upper row of lower cone part through holes and a lower row of lower cone part through holes, the inner peripheral surface of the lower cone part is also provided with an inner convex key matched.

4. The convertible runner structure of a convertible multi-runner multifunctional disk separator as claimed in claim 3, wherein: the side wall of the outer surface of the main body of the disc tray base is a conical surface, the conical surface of the outer surface is uniformly provided with groove-shaped runners, the outer conical surface is also provided with a groove-shaped key groove a which is used for being matched and installed with an inner convex key on the disc tray, the side wall of the inner surface of the main body is provided with an upper conical surface cavity and a lower conical surface cavity, the upper conical surface cavity is a small-taper conical surface hole with the taper smaller than that of the lower conical surface cavity, and the lower end of the inner wall of the upper conical surface cavity is provided with a notch-shaped key groove b which is matched.

5. The convertible runner structure of a convertible multi-runner multifunctional disk separator as claimed in claim 3, wherein: the half-cone angle of the peripheral conical surface of the lower cone part of the disc bracket is 20-50 degrees, and the half-cone angle of the disc is the same as the half-cone angle of the peripheral conical surface of the lower cone part of the disc bracket.

6. The convertible runner structure of a convertible multi-runner multifunctional disc separator as claimed in claim 4, wherein: the tail end of the groove-shaped flow passage is provided with a necking structure for installing and closing the plug of the flow passage.

7. The convertible runner structure of a convertible multi-runner multifunctional disc separator as claimed in claim 2, wherein: the top layer disk and the bottom layer disk are also provided with the same supporting ribs as the middle layer disk.