CN111389092A - Combined solid-liquid efficient separation device - Google Patents

Abstract

The invention discloses a combined solid-liquid efficient separation device which comprises a main hollow shell. The invention combines the filter screen filtering principle with the centrifugal force filtering principle, can separate the mixture mixed with solid and liquid, in addition, the centrifugal force filtration utilizes a spiral pipeline, and utilizes the high-speed rotation generated when water flow enters rapidly to form a vortex state, so that the liquid with the tiny solids can create a centrifugal effect that forces the solids to move towards the edges, while the liquid is close to the center, so that the liquid can be discharged and a part of the filtered mixture can be circulated, so that the filtering efficiency is strong, and, the device is provided with a structural limit placing type folding iron wire filtering mechanism, can realize preliminary filtering effect by utilizing a filter screen, reduces the influence of large-scale solids on a centrifugal part, and in addition, the device has the effective actuating mechanism of turbine rotation installation formula liquid rivers, can form the drive to inside rivers under rotatory effect.

Description

Combined solid-liquid efficient separation device

Technical Field

The invention relates to the technical field of solid-liquid separation, in particular to a combined type solid-liquid efficient separation device.

Background

At present, solid and liquid are required to be separated in a plurality of places so as to obtain required morphological substances, the existing separation devices comprise two types, one type is a filtering type device which is simple in structure and low in manufacturing cost, but fine substances cannot be filtered, so that the filtering efficiency is poor, and the other type is a centrifugal type device which is high in filtering efficiency, but the manufacturing cost is high generally, and the structure is very complex.

Disclosure of Invention

The invention aims to provide a combined type solid-liquid efficient separation device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a combined type solid-liquid efficient separation device comprises a main hollow shell, wherein a driving motor installation shell is installed at the bottom of one side of the main hollow shell through a bolt, a driving motor is installed inside the driving motor installation shell, a motor spindle in the driving motor is installed inside the main hollow shell through a main bearing, a mixture storage space is arranged at the top center of one side of the main hollow shell, a conical space is arranged at the bottom of the mixture storage space, a structure limiting and placing type folded iron wire filtering mechanism is placed at the top of the conical space, a first liquid through hole is formed in the bottom of the conical space, a turbine rotation installation type liquid water spindle effective driving mechanism is installed at the bottom of the first liquid through hole, one end face of the turbine rotation installation type liquid water spindle effective driving mechanism is fixedly connected with the end portion of the motor, the bottom center of the turbine rotation installation type liquid water flow effective driving mechanism is provided with a second liquid through hole, the bottom of the second liquid through hole is provided with a bottom seal installation type liquid transfer impurity storage mechanism installation space, a bottom seal installation type liquid transfer impurity storage mechanism is installed inside the bottom seal installation type liquid transfer impurity storage mechanism installation space, a spiral pipeline hole is formed in one side, located in the mixture storage space, of the inside of the main hollow shell, a third liquid through hole communicated with the bottom seal installation type liquid transfer impurity storage mechanism installation space and the bottom of the spiral pipeline hole is formed in the inside of the main hollow shell, a center liquid discharge hole is formed in the center, located in the spiral pipeline hole, of the inside of the main hollow shell, the spiral pipeline hole is communicated with the center liquid discharge hole through the fourth liquid through hole at the upper part of the spiral pipeline hole, the top of main cavity shell is provided with rather than the main liquid drainage pipeline of integral type structure, just main liquid drainage pipeline intercommunication center outage, the inside of main cavity shell is provided with the flushing hole that feeds through its top space and spiral pipeline hole top, a plunger is installed at the top of flushing hole, the inside of main cavity shell is provided with the circulation hole that feeds through flushing hole middle part and mixture storage space side top.

Further, the structure limit placing type folded iron wire filtering mechanism comprises an annular hollow plate for the structure limit placing type folded iron wire filtering mechanism, a conical structure for the structure limit placing type folded iron wire filtering mechanism, an embedded ring clamping groove structure for the structure limit placing type folded iron wire filtering mechanism, a liquid through hole for the structure limit placing type folded iron wire filtering mechanism, an embedded ring for the structure limit placing type folded iron wire filtering mechanism, a folded iron wire embedding groove structure for the structure limit placing type folded iron wire filtering mechanism, a folded iron wire for the structure limit placing type folded iron wire filtering mechanism and a filtering space for the structure limit placing type folded iron wire filtering mechanism; the bottom of the annular hollow plate for the structure-limiting placing type folded iron wire filtering mechanism is provided with a conical structure for the structure-limiting placing type folded iron wire filtering mechanism which is integrated with the annular hollow plate, the inner centers of the annular hollow plate for the structure-limiting placing type folded iron wire filtering mechanism and the conical structure for the structure-limiting placing type folded iron wire filtering mechanism are respectively provided with an embedded ring clamping groove structure for the structure-limiting placing type folded iron wire filtering mechanism and a liquid through hole for the structure-limiting placing type folded iron wire filtering mechanism which are communicated, the embedded ring for the structure-limiting placing type folded iron wire filtering mechanism is arranged in the embedded ring clamping groove structure for the structure-limiting placing type folded iron wire filtering mechanism, the center of the embedded ring for the structure-limiting placing type folded iron wire filtering mechanism is provided with a filtering space for the structure-limiting placing type folded iron wire filtering mechanism, the inner ring of the embedding ring for the structure limiting placement type folded iron wire filtering mechanism is provided with a structure limiting placement type folded iron wire embedding groove structure for the folded iron wire filtering mechanism, and the structure limiting placement type folded iron wire filtering mechanism is embedded with a structure limiting placement type folded iron wire for the folded iron wire filtering mechanism in the folding iron wire embedding groove structure.

Further, the structural dimensions of the annular hollow plate for the structural limit placing type folded iron wire filtering mechanism and the structural size of the conical structure for the structural limit placing type folded iron wire filtering mechanism are respectively the same as the structural dimensions of the mixture storage space and the conical space.

Further, the annular hollow plate for the structure limit placing type folding iron wire filtering mechanism and the conical structure for the structure limit placing type folding iron wire filtering mechanism are respectively placed in the mixture storage space and the conical space.

Further, the turbine rotation mounting type liquid water flow effective driving mechanism comprises a turbine mounting shell for the turbine rotation mounting type liquid water flow effective driving mechanism, a turbine mounting space for the turbine rotation mounting type liquid water flow effective driving mechanism, a liquid inlet hole for the turbine rotation mounting type liquid water flow effective driving mechanism, a liquid outlet hole for the turbine rotation mounting type liquid water flow effective driving mechanism, a rotating shaft for the turbine rotation mounting type liquid water flow effective driving mechanism, a sealing ring for the turbine rotation mounting type liquid water flow effective driving mechanism, a bearing for the turbine rotation mounting type liquid water flow effective driving mechanism and a turbine for the turbine rotation mounting type liquid water flow effective driving mechanism; the turbine installation shell for the turbine rotation installation type liquid water flow effective driving mechanism is internally provided with a turbine installation space for the turbine rotation installation type liquid water flow effective driving mechanism, the inside of the turbine installation shell for the turbine rotation installation type liquid water flow effective driving mechanism is provided with a liquid inlet hole for the turbine rotation installation type liquid water flow effective driving mechanism and a liquid outlet hole for the turbine rotation installation type liquid water flow effective driving mechanism, which are communicated with the outside and are arranged at two ends of the turbine installation space for the turbine rotation installation type liquid water flow effective driving mechanism, the center of the turbine installation shell for the turbine rotation installation type liquid water flow effective driving mechanism is penetrated by the rotation shaft for the turbine rotation installation type liquid water flow effective driving mechanism, and the rotation shaft for the turbine rotation installation type liquid water flow effective driving mechanism is provided with a sealing ring for the turbine rotation installation type liquid water flow effective driving mechanism and a turbine rotation installation type liquid water flow effective driving mechanism at the penetrating part And the rotating shaft for the turbine rotation installation type liquid water flow effective driving mechanism is provided with a turbine for the turbine rotation installation type liquid water flow effective driving mechanism on a shaft body positioned in the turbine installation space for the turbine rotation installation type liquid water flow effective driving mechanism.

Further, the turbine installation shell for the turbine rotation installation type liquid water flow effective driving mechanism is installed in the main hollow shell, and one end of the rotating shaft for the turbine rotation installation type liquid water flow effective driving mechanism is fixedly connected with the end part of the motor spindle.

Further, the liquid discharge hole for the turbine rotation mounting type liquid water flow effective driving mechanism and the rotating shaft for the turbine rotation mounting type liquid water flow effective driving mechanism are respectively connected with the first liquid through hole and the second liquid through hole.

Further, the bottom seal installation type liquid transfer impurity storage mechanism comprises a hollow shell for the bottom seal installation type liquid transfer impurity storage mechanism, a vertical plate structure for the bottom seal installation type liquid transfer impurity storage mechanism, a force application rod for the bottom seal installation type liquid transfer impurity storage mechanism, a first annular groove structure for the bottom seal installation type liquid transfer impurity storage mechanism, a second annular groove structure for the bottom seal installation type liquid transfer impurity storage mechanism, a first sealing ring for the bottom seal installation type liquid transfer impurity storage mechanism, a second sealing ring for the bottom seal installation type liquid transfer impurity storage mechanism, a hollow structure for the bottom seal installation type liquid transfer impurity storage mechanism and a liquid discharge hole for the bottom seal installation type liquid transfer impurity storage mechanism; the bottom of the hollow shell for the bottom seal installation type liquid transfer impurity storage mechanism is provided with two opposite vertical plate structures for the bottom seal installation type liquid transfer impurity storage mechanism, an application force rod for the bottom seal installation type liquid transfer impurity storage mechanism is installed between the two vertical plate structures for the bottom seal installation type liquid transfer impurity storage mechanism, the side surface of the hollow shell for the bottom seal installation type liquid transfer impurity storage mechanism is provided with a first annular groove structure for the bottom seal installation type liquid transfer impurity storage mechanism and a second annular groove structure for the bottom seal installation type liquid transfer impurity storage mechanism, and a first sealing ring for the bottom seal installation type liquid transfer impurity storage mechanism and a bottom seal installation type liquid for the bottom seal installation type liquid transfer impurity storage mechanism are respectively installed inside the first annular groove structure and the second annular groove structure for the bottom seal installation type liquid transfer impurity storage mechanism The second sealing ring for the transfer impurity storage mechanism, the hollow structure for the bottom seal installation type liquid transfer impurity storage mechanism is provided with a hollow shell communicated with the upper part of the hollow shell in the bottom seal installation type liquid transfer impurity storage mechanism, and the side surface of the hollow shell for the bottom seal installation type liquid transfer impurity storage mechanism is located at the position between the first annular groove structure for the bottom seal installation type liquid transfer impurity storage mechanism and the second annular groove structure for the bottom seal installation type liquid transfer impurity storage mechanism.

Further, the bottom seal installation type liquid transfer impurity storage mechanism is installed in the bottom seal installation type liquid transfer impurity storage mechanism installation space by the hollow shell.

Further, the bottom seal installation type liquid transfer impurity storage mechanism is communicated with the third liquid through hole through a liquid discharge hole.

Compared with the prior art, the invention has the beneficial effects that: the invention combines the filter screen filtering principle with the centrifugal force filtering principle, can separate the mixture mixed with solid and liquid, and the centrifugal force filtering utilizes a spiral pipeline, when water flow enters rapidly, high-speed rotation is generated to form a vortex state, so that the liquid with tiny solid can form a centrifugal effect, the centrifugal effect forces the solid to move to the edge, the liquid is close to the center, so the liquid can be discharged, and the mixture after partial filtering can circulate, so the filtering efficiency is strong, moreover, the device has a structural limit placing type folding iron wire filtering mechanism, can realize preliminary filtering effect by utilizing the filter screen, reduces the influence of large solid on a centrifugal part, in addition, the device has a turbine rotation mounting type liquid water flow effective driving mechanism, can drive the internal water flow under the rotation effect, thereby form the effect of quick rotation, in addition, the device has bottom seal installation formula liquid and shifts impurity storage mechanism, can realize seal installation, can realize the vertical transform of liquid simultaneously, can store impurity simultaneously.

Drawings

FIG. 1 is a schematic diagram of a full-section structure of a combined solid-liquid efficient separation device according to the present invention;

FIG. 2 is a schematic structural view of a folded iron wire filtering mechanism with a limited placement structure in the combined solid-liquid high-efficiency separation device of the invention;

FIG. 3 is a schematic structural diagram of a turbine rotation mounting type liquid water flow effective driving mechanism in a combined type solid-liquid efficient separation device according to the invention;

FIG. 4 is a schematic structural diagram of a bottom-sealing installation type liquid transfer impurity storage mechanism in a combined solid-liquid high-efficiency separation device according to the present invention;

in the figure: 1, a main hollow housing, 2, a driving motor mounting housing, 3, a driving motor, 4, a main bearing, 5, a motor main shaft, 6, a mixture storage space, 7, a structural limit placing type folded iron wire filtering mechanism, 71, a structural limit placing type folded iron wire filtering mechanism annular hollow plate, 72, a structural limit placing type folded iron wire filtering mechanism conical structure, 73, a structural limit placing type folded iron wire filtering mechanism embedded ring clamping groove structure, 74, a structural limit placing type folded iron wire filtering mechanism liquid through hole, 75, a structural limit placing type folded iron wire filtering mechanism embedded ring, 76, a structural limit placing type folded iron wire filtering mechanism folded iron wire embedded groove structure, 77, a structural limit placing type folded iron wire filtering mechanism folded iron wire, 78, a structural limit placing type folded iron wire filtering mechanism filtering space, 8, a first liquid passing hole, 9, a turbine rotation installation type liquid water flow effective drive mechanism, 91, a turbine installation housing for the turbine rotation installation type liquid water flow effective drive mechanism, 92, a turbine installation space for the turbine rotation installation type liquid water flow effective drive mechanism, 93, a liquid inlet hole for the turbine rotation installation type liquid water flow effective drive mechanism, 94, a liquid outlet hole for the turbine rotation installation type liquid water flow effective drive mechanism, 95, a rotation shaft for the turbine rotation installation type liquid water flow effective drive mechanism, 96, a seal ring for the turbine rotation installation type liquid water flow effective drive mechanism, 97, a bearing for the turbine rotation installation type liquid water flow effective drive mechanism, 98, a turbine for the turbine rotation installation type liquid water flow effective drive mechanism, 10, a second liquid passing hole, 11, a bottom seal installation type liquid transfer impurity storage mechanism installation space, 12, a bottom seal-mounted liquid-transferred impurity storage mechanism, 121, a hollow housing for the bottom seal-mounted liquid-transferred impurity storage mechanism, 122, a vertical plate structure for the bottom seal-mounted liquid-transferred impurity storage mechanism, 123, a force application rod for the bottom seal-mounted liquid-transferred impurity storage mechanism, 124, a first annular groove structure for the bottom seal-mounted liquid-transferred impurity storage mechanism, 125, a second annular groove structure for the bottom seal-mounted liquid-transferred impurity storage mechanism, 126, a first sealing ring for the bottom seal-mounted liquid-transferred impurity storage mechanism, 127, a second sealing ring for the bottom seal-mounted liquid-transferred impurity storage mechanism, 128, a hollow structure for the bottom seal-mounted liquid-transferred impurity storage mechanism, 129, a drain hole for the bottom seal-mounted liquid-transferred impurity storage mechanism, 13, a third drain hole, 129, 14, spiral pipeline holes, 15, central liquid discharge holes, 16, main liquid discharge pipelines, 17, fourth liquid discharge holes, 18, flushing holes, 19, circulating holes, 20, plungers, 21 and conical spaces.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention: the device comprises a main hollow shell 1, wherein a driving motor installation shell 2 is installed at the bottom of one side of the main hollow shell 1 through a bolt, a driving motor 3 is installed inside the driving motor installation shell 2, a motor spindle 5 in the driving motor 3 is installed inside the main hollow shell 1 through a main bearing 4, a mixture storage space 6 is arranged at the top center of one side of the main hollow shell 1, a conical space 21 is arranged at the bottom of the mixture storage space 6, a structure limiting and placing type folding iron wire filtering mechanism 7 is placed at the top of the conical space 21, a first liquid through hole 8 is formed in the bottom of the conical space 21, a turbine rotation installation type liquid water flow effective driving mechanism 9 is installed at the bottom of the first liquid through hole 8, and one end face of the turbine rotation installation type liquid water flow effective driving mechanism 9 is fixedly connected with the end part of the motor spindle 5, a second liquid through hole 10 is formed in the center of the bottom of the turbine rotation installation type liquid water flow effective driving mechanism 9, a bottom seal installation type liquid transfer impurity storage mechanism installation space 11 is formed in the bottom of the second liquid through hole 10, a bottom seal installation type liquid transfer impurity storage mechanism 12 is installed inside the bottom seal installation type liquid transfer impurity storage mechanism installation space 11, a spiral pipeline hole 14 is formed in one side, located in the mixture storage space 6, of the inside of the main hollow shell 1, a third liquid through hole 13 communicating the bottom seal installation type liquid transfer impurity storage mechanism installation space 11 with the bottom of the spiral pipeline hole 14 is formed in the inside of the main hollow shell 1, a central liquid discharge hole 15 is formed in the center, located in the spiral pipeline hole 14, of the spiral pipeline hole 14 is communicated with the central liquid discharge hole 15 through the fourth liquid through hole 17 at the upper portion, the top of the main hollow shell 1 is provided with a main liquid drainage pipeline 16 which is integrated with the main hollow shell 1, the main liquid drainage pipeline 16 is communicated with a central liquid drainage hole 15, the inside of the main hollow shell 1 is provided with a flushing hole 18 communicated with the space above the main hollow shell and the top end of the spiral pipeline hole 14, the top of the flushing hole 18 is provided with a plunger 20, and the inside of the main hollow shell 1 is provided with a circulating hole 19 communicated with the middle part of the flushing hole 18 and the top of the side surface of the mixture storage space 6.

Referring to fig. 2, the structural position-limiting placing type folded iron wire filtering mechanism 7 includes a structural position-limiting placing type folded iron wire filtering mechanism annular hollow plate 71, a structural position-limiting placing type folded iron wire filtering mechanism conical structure 72, a structural position-limiting placing type folded iron wire filtering mechanism embedded ring clamping groove structure 73, a structural position-limiting placing type folded iron wire filtering mechanism liquid through hole 74, a structural position-limiting placing type folded iron wire filtering mechanism embedded ring 75, a structural position-limiting placing type folded iron wire filtering mechanism folded iron wire embedding groove structure 76, a structural position-limiting placing type folded iron wire filtering mechanism folded iron wire 77 and a structural position-limiting placing type folded iron wire filtering mechanism filtering space 78; the bottom of the annular hollow plate 71 for the structural limit placing type folded iron wire filtering mechanism is provided with a conical structure 72 for the structural limit placing type folded iron wire filtering mechanism which is integrated with the annular hollow plate, the inner centers of the annular hollow plate 71 for the structural limit placing type folded iron wire filtering mechanism and the conical structure 72 for the structural limit placing type folded iron wire filtering mechanism are respectively provided with an embedded ring clamping groove structure 73 for the structural limit placing type folded iron wire filtering mechanism and a liquid through hole 74 for the structural limit placing type folded iron wire filtering mechanism which are communicated, the inner part of the embedded ring clamping groove structure 73 for the structural limit placing type folded iron wire filtering mechanism is provided with a structural limit placing type embedded ring 75 for the structural limit placing type folded iron wire filtering mechanism, the center of the embedded ring 75 for the structural limit placing type folded iron wire filtering mechanism is provided with a filtering space 78 for the structural limit placing type folded iron wire filtering mechanism, the inner ring of the inlaying ring 75 for the structure limit placing type folded iron wire filtering mechanism is provided with a structure limit placing type folded iron wire inlaying groove structure 76 for the folded iron wire filtering mechanism, and a structure limit placing type folded iron wire 77 for the folded iron wire filtering mechanism is inlaid in the structure limit placing type folded iron wire inlaying groove structure 76 for the structure limit placing type folded iron wire filtering mechanism; the structural dimensions of the annular hollow plate 71 for the structural limit placing type folded iron wire filtering mechanism and the structural dimension of the conical structure 72 for the structural limit placing type folded iron wire filtering mechanism are respectively the same as the structural dimensions of the mixture storage space 6 and the conical space 21; the annular hollow plate 71 for the structure-spacing-placing type folded iron wire filtering mechanism and the conical structure 72 for the structure-spacing-placing type folded iron wire filtering mechanism are respectively placed in the mixture storage space 6 and the conical space 21, and the main functions are as follows: the filtering function of filter screen formula can be carried out, can take out simultaneously, conveniently discharges inside debris.

Referring to fig. 3, the turbine rotation-mounted type liquid water flow effective drive mechanism 9 includes a turbine mounting case 91 for the turbine rotation-mounted type liquid water flow effective drive mechanism, a turbine mounting space 92 for the turbine rotation-mounted type liquid water flow effective drive mechanism, a liquid inlet hole 93 for the turbine rotation-mounted type liquid water flow effective drive mechanism, a liquid outlet hole 94 for the turbine rotation-mounted type liquid water flow effective drive mechanism, a rotation shaft 95 for the turbine rotation-mounted type liquid water flow effective drive mechanism, a seal ring 96 for the turbine rotation-mounted type liquid water flow effective drive mechanism, a bearing 97 for the turbine rotation-mounted type liquid water flow effective drive mechanism, and a turbine 98 for the turbine rotation-mounted type liquid water flow effective drive mechanism; effective actuating mechanism of turbine rotation installation formula liquid rivers is inside to be provided with the effective actuating mechanism of turbine rotation installation formula liquid rivers and uses turbine installation space 92 for the shell 91 of turbine installation for the effective actuating mechanism of turbine rotation installation formula liquid rivers, the inside of the effective actuating mechanism of turbine installation shell 91 of turbine installation formula liquid rivers is provided with feed liquor hole 93 and the effective actuating mechanism of turbine rotation installation formula liquid rivers for effective actuating mechanism of turbine rotation installation formula liquid rivers 92 both ends of intercommunication external world and turbine rotation installation formula liquid rivers and uses outage 94, the center quilt of the effective actuating mechanism of turbine rotation installation formula liquid rivers for the effective actuating mechanism of turbine rotation installation formula liquid rivers is run through with rotation axis 95, just the effective actuating mechanism of turbine rotation installation formula liquid rivers is installed at the position of running through with rotation axis 95 for the effective actuating mechanism of turbine rotation installation formula liquid rivers and is installed effective actuating mechanism of turbine rotation for sealing washer 96 and a mounting type bearing 97 for a liquid water flow effective drive mechanism, in which a turbine 98 for a turbine rotation mounting type liquid water flow effective drive mechanism is mounted on a shaft body located in the turbine mounting space 92 for the turbine rotation mounting type liquid water flow effective drive mechanism by the rotation shaft 95 for the turbine rotation mounting type liquid water flow effective drive mechanism; the turbine mounting shell 91 for the turbine rotation mounting type liquid water flow effective driving mechanism is mounted in the main hollow shell 1, and one end of the rotating shaft 95 for the turbine rotation mounting type liquid water flow effective driving mechanism is fixedly connected with the end part of the motor spindle 5; the liquid discharge hole 94 for the turbine rotation installation type liquid water flow effective driving mechanism and the rotating shaft 95 for the turbine rotation installation type liquid water flow effective driving mechanism are respectively communicated with the first liquid through hole 8 and the second liquid through hole 10, and the main functions are as follows: the turbine 98 for the turbine rotation mounting type liquid water flow effective drive mechanism can be driven by the drive motor 3, thereby generating a pushing action on the passing liquid.

Referring to fig. 4, the bottom-sealing-mounted liquid-to-impurity transfer mechanism 12 includes a hollow housing 121 for the bottom-sealing-mounted liquid-to-impurity transfer mechanism, a vertical plate structure 122 for the bottom-sealing-mounted liquid-to-impurity transfer mechanism, a force-applying rod 123 for the bottom-sealing-mounted liquid-to-impurity transfer mechanism, a first annular groove structure 124 for the bottom-sealing-mounted liquid-to-impurity transfer mechanism, a second annular groove structure 125 for the bottom-sealing-mounted liquid-to-impurity transfer mechanism, a first sealing ring 126 for the bottom-sealing-mounted liquid-to-impurity transfer mechanism, a second sealing ring 127 for the bottom-sealing-mounted liquid-to-impurity transfer mechanism, a hollow structure 128 for the bottom-sealing-mounted liquid-to-impurity transfer mechanism, and a drain hole 129 for the bottom-sealing-mounted liquid-to-impurity transfer mechanism; the bottom of the hollow shell 121 for the bottom seal installation type liquid transfer impurity storage mechanism is provided with two opposite vertical plate structures 122 for the bottom seal installation type liquid transfer impurity storage mechanism, a force application rod 123 for the bottom seal installation type liquid transfer impurity storage mechanism is installed between the two vertical plate structures 122 for the bottom seal installation type liquid transfer impurity storage mechanism, the side surface of the hollow shell 121 for the bottom seal installation type liquid transfer impurity storage mechanism is provided with a first annular groove structure 124 for the bottom seal installation type liquid transfer impurity storage mechanism and a second annular groove structure 125 for the bottom seal installation type liquid transfer impurity storage mechanism, and a first sealing ring 126 for the bottom seal installation type liquid transfer impurity storage mechanism is respectively installed inside the first annular groove structure 124 for the bottom seal installation type liquid transfer impurity storage mechanism and the second annular groove structure 125 for the bottom seal installation type liquid transfer impurity storage mechanism And a second seal ring 127 for a bottom seal-mounted liquid-transfer impurity storage mechanism, wherein a hollow structure 128 for a bottom seal-mounted liquid-transfer impurity storage mechanism communicating with the upper side thereof is provided inside the hollow housing 121 for a bottom seal-mounted liquid-transfer impurity storage mechanism, and a drain hole 129 for a bottom seal-mounted liquid-transfer impurity storage mechanism is provided on the side surface of the hollow housing 121 for a bottom seal-mounted liquid-transfer impurity storage mechanism at a position between the first annular groove structure 124 for a bottom seal-mounted liquid-transfer impurity storage mechanism and the second annular groove structure 125 for a bottom seal-mounted liquid-transfer impurity storage mechanism; the hollow shell 121 for the bottom seal installation type liquid transfer impurity storage mechanism is installed inside the installation space 11 for the bottom seal installation type liquid transfer impurity storage mechanism; bottom seal installation formula liquid shifts impurity for storage mechanism drain hole 129 and third liquid through hole 13 intercommunication, its main function is: can carry out vertical conversion to the liquid of process, when out of work, can store the impurity of omission simultaneously, conveniently take out.

The specific use mode is as follows: in the work of the invention, the mixture is poured into the mixture storage space 6, then the main liquid drainage pipeline 6 is connected with a pipeline, the driving motor 3 is opened, under the action of the driving motor 3, the turbine rotates the mounting type liquid water flow effective driving mechanism 9 to drive the mixture inside to form flow, the flow enables the mixture to be filtered by the structural limit placing type folding iron wire filtering mechanism 7, the mixture of fine substances and the liquid passes through the spiral pipeline hole 14, after entering the spiral pipeline hole 14, the mixture can form a vortex state, the vortex state can enable the mixture to form centrifugal force, thereby enabling the liquid with tiny solids to form centrifugal effect, the centrifugal effect forces the solids to move to the edge, and the liquid is close to the center, so the liquid can be discharged through the central liquid drainage hole 15, and the partially filtered mixture can enter the circulating liquid drainage hole 19, and (6) circulating.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a modular solid-liquid high-efficient separator, includes main cavity shell (1), its characterized in that: the utility model discloses a hollow shell, including main cavity shell (1), motor, main cavity shell (1), motor main shaft (5) in driving motor (3), the inside of main cavity shell (1) is installed through base bearing (4) in the inside installation driving motor (3) of main cavity shell (2), the top center of main cavity shell (1) one side is provided with mixture storage space (6), the bottom of mixture storage space (6) is provided with toper space (21), the top of toper space (21) is placed a structure and is spacing formula folding shape iron wire filter mechanism (7) of placing, the bottom of toper space (21) is provided with first logical liquid hole (8), the effective actuating mechanism (9) of rotatory installation formula liquid rivers of turbine is installed to the bottom of first logical liquid hole (8), a terminal surface and the motor main shaft (5) end of the effective actuating mechanism (9) of rotatory installation formula liquid rivers of turbine A second liquid through hole (10) is formed in the center of the bottom of the turbine rotation installation type liquid water flow effective driving mechanism (9), a bottom sealing installation type liquid transfer impurity storage mechanism installation space (11) is formed in the bottom of the second liquid through hole (10), a bottom sealing installation type liquid transfer impurity storage mechanism (12) is installed inside the bottom sealing installation type liquid transfer impurity storage mechanism installation space (11), a spiral pipeline hole (14) is formed in one side, located on the mixture storage space (6), of the inside of the main hollow shell (1), a third liquid through hole (13) communicated with the bottoms of the bottom sealing installation type liquid transfer impurity storage mechanism installation space (11) and the spiral pipeline hole (14) is formed in the inside of the main hollow shell (1), a central liquid discharge hole (15) is formed in the center, located on the spiral pipeline hole (14), of the inside of the main hollow shell (1), the spiral pipeline hole (14) is located at the upper portion of the main hollow shell and is communicated with a central liquid discharge hole (15) through a fourth liquid through hole (17), a main liquid discharge pipeline (16) of an integrated structure with the main hollow shell is arranged at the top of the main hollow shell (1), the main liquid discharge pipeline (16) is communicated with the central liquid discharge hole (15), a flushing hole (18) communicated with the space above the main hollow shell and the top end of the spiral pipeline hole (14) is formed in the main hollow shell (1), a plunger (20) is installed at the top of the flushing hole (18), and a circulating hole (19) communicated with the middle of the flushing hole (18) and the top of the side face of the mixture storage space (6) is formed in the main hollow shell (1).

2. The combined type solid-liquid efficient separation device according to claim 1, characterized in that: the structure limiting placement type folded iron wire filtering mechanism (7) comprises an annular hollow plate (71) for the structure limiting placement type folded iron wire filtering mechanism, a conical structure (72) for the structure limiting placement type folded iron wire filtering mechanism, an embedded ring clamping groove structure (73) for the structure limiting placement type folded iron wire filtering mechanism, a liquid through hole (74) for the structure limiting placement type folded iron wire filtering mechanism, an embedded ring (75) for the structure limiting placement type folded iron wire filtering mechanism, a folded iron wire embedding groove structure (76) for the structure limiting placement type folded iron wire filtering mechanism, a folded iron wire (77) for the structure limiting placement type folded iron wire filtering mechanism and a filtering space (78) for the structure limiting placement type folded iron wire filtering mechanism; the utility model discloses a folded shape iron wire filtering mechanism of formula is placed to spacing formula of placing of structure is with annular hollow plate (71) bottom is provided with rather than the structure of integral type structure spacing formula of placing of structure folding iron wire filtering mechanism and is used toper structure (72), the structure spacing formula of placing folding iron wire filtering mechanism is with annular hollow plate (71) and the structure spacing formula of placing folding iron wire filtering mechanism of structure spacing formula of placing of structure folding iron wire filtering mechanism is with toper structure (72) inside center be provided with respectively that the intercommunication is spacing formula of placing of structure folding iron wire filtering mechanism for inlay ring joint groove structure (73) and the structure spacing formula of placing folding iron wire filtering mechanism for liquid through hole (74), the structure spacing formula of placing folding iron wire filtering mechanism of placing for inlay ring (75) of the internally mounted structure spacing formula of placing of inlaying ring joint groove structure (73), the structure spacing formula of placing folding iron wire filtering mechanism of placing is inlayed with ring (75) the center be provided with the structure spacing formula of placing folding iron wire filtering mechanism of folding The mechanism is with filter space (78), the inner ring of the formula folding iron wire filter mechanism of placing with the inlay ring (75) is provided with the formula folding iron wire of placing with the structure is spacing to place and inlays groove structure (76) with the folding iron wire, the formula folding iron wire filter mechanism of placing with the structure is spacing to place and inlays groove structure (76) with the folding iron wire of placing with the structure inside inlay a formula folding iron wire filter mechanism of placing with the structure and fold shape iron wire (77) for the filter mechanism of placing with the structure.

3. The combined type solid-liquid efficient separation device according to claim 2, characterized in that: the structure sizes of the annular hollow plate (71) for the structure limiting placement type folded iron wire filtering mechanism and the conical structure (72) for the structure limiting placement type folded iron wire filtering mechanism are respectively the same as the structure sizes of the mixture storage space (6) and the conical space (21).

4. The combined type solid-liquid efficient separation device according to claim 2, characterized in that: the annular hollow plate (71) for the structure limiting placement type folded iron wire filtering mechanism and the conical structure (72) for the structure limiting placement type folded iron wire filtering mechanism are respectively placed in the mixture storage space (6) and the conical space (21).

5. The combined type solid-liquid efficient separation device according to claim 1, characterized in that: the turbine rotation mounting type liquid water flow effective driving mechanism (9) comprises a turbine mounting shell (91) for the turbine rotation mounting type liquid water flow effective driving mechanism, a turbine mounting space (92) for the turbine rotation mounting type liquid water flow effective driving mechanism, a liquid inlet hole (93) for the turbine rotation mounting type liquid water flow effective driving mechanism, a liquid outlet hole (94) for the turbine rotation mounting type liquid water flow effective driving mechanism, a rotating shaft (95) for the turbine rotation mounting type liquid water flow effective driving mechanism, a sealing ring (96) for the turbine rotation mounting type liquid water flow effective driving mechanism, a bearing (97) for the turbine rotation mounting type liquid water flow effective driving mechanism and a turbine (98) for the turbine rotation mounting type liquid water flow effective driving mechanism; effective actuating mechanism of turbine rotation installation formula liquid rivers is inside to be provided with turbine installation space (92) for the effective actuating mechanism of turbine rotation installation formula liquid rivers for turbine installation shell (91), the inside of the effective actuating mechanism of turbine rotation installation formula liquid rivers for turbine installation shell (91) is provided with outside and the effective actuating mechanism of turbine rotation installation formula liquid rivers for turbine installation space (92) both ends of turbine rotation installation formula liquid rivers feed liquor hole (93) and the effective actuating mechanism of turbine rotation installation formula liquid rivers for outage (94), the center of the effective actuating mechanism of turbine rotation installation formula liquid rivers for turbine installation shell (91) is run through by the effective actuating mechanism of turbine rotation installation formula liquid rivers for rotation axis (95), just the effective actuating mechanism of turbine rotation installation formula liquid rivers for rotation axis (95) is installed turbine rotation installation formula liquid rivers at the position of running through The seal ring (96) for the flow effective drive mechanism and the bearing (97) for the turbine rotation installation type liquid water flow effective drive mechanism, wherein the turbine rotation installation type turbine (98) for the liquid water flow effective drive mechanism is installed on a shaft body positioned in the turbine installation space (92) for the turbine rotation installation type liquid water flow effective drive mechanism by the rotation shaft (95) for the turbine rotation installation type liquid water flow effective drive mechanism.

6. The combined type solid-liquid efficient separation device according to claim 5, characterized in that: the turbine mounting shell (91) for the turbine rotation mounting type liquid water flow effective driving mechanism is mounted in the main hollow shell (1), and one end of the rotating shaft (95) for the turbine rotation mounting type liquid water flow effective driving mechanism is fixedly connected with the end of the motor spindle (5).

7. The combined type solid-liquid efficient separation device according to claim 5, characterized in that: and the liquid discharge hole (94) for the turbine rotation mounting type liquid water flow effective driving mechanism and the rotating shaft (95) for the turbine rotation mounting type liquid water flow effective driving mechanism are respectively communicated with the first liquid through hole (8) and the second liquid through hole (10).

8. The combined type solid-liquid efficient separation device according to claim 1, characterized in that: the bottom seal installation type liquid transfer impurity storage mechanism (12) comprises a hollow shell (121) for the bottom seal installation type liquid transfer impurity storage mechanism, a vertical plate structure (122) for the bottom seal installation type liquid transfer impurity storage mechanism, a force application rod (123) for the bottom seal installation type liquid transfer impurity storage mechanism, and a first annular groove structure (124) for the bottom seal installation type liquid transfer impurity storage mechanism, a second annular groove structure (125) for a bottom seal installation type liquid transfer impurity storage mechanism, a first sealing ring (126) for the bottom seal installation type liquid transfer impurity storage mechanism, a second sealing ring (127) for the bottom seal installation type liquid transfer impurity storage mechanism, a hollow structure (128) for the bottom seal installation type liquid transfer impurity storage mechanism and a liquid discharge hole (129) for the bottom seal installation type liquid transfer impurity storage mechanism; the bottom of the hollow shell (121) for the bottom seal installation type liquid transfer impurity storage mechanism is provided with two opposite vertical plate structures (122) for the bottom seal installation type liquid transfer impurity storage mechanism, a force application rod (123) for the bottom seal installation type liquid transfer impurity storage mechanism is installed between the two vertical plate structures (122) for the bottom seal installation type liquid transfer impurity storage mechanism, the side surface of the hollow shell (121) for the bottom seal installation type liquid transfer impurity storage mechanism is provided with a first annular groove structure (124) for the bottom seal installation type liquid transfer impurity storage mechanism and a second annular groove structure (125) for the bottom seal installation type liquid transfer impurity storage mechanism, and the first annular groove structure (124) for the bottom seal installation type liquid transfer impurity storage mechanism and the second annular groove structure (125) for the bottom seal installation type liquid transfer impurity storage mechanism are internally provided with a bottom seal installation respectively Formula liquid shifts impurity and stores mechanism and uses first sealing washer (126) and bottom seal installation formula liquid and shifts impurity and store mechanism and use second sealing washer (127), the inside of bottom seal installation formula liquid shifts impurity and store mechanism and use hollow structure (128) with hollow shell (121) is provided with the bottom seal installation formula liquid that communicates its top and shifts impurity and store mechanism, the side of bottom seal installation formula liquid shifts impurity and store mechanism and is lieing in bottom seal installation formula liquid shifts impurity and store the position between mechanism and use first annular groove structure (124) and bottom seal installation formula liquid and shift impurity and store mechanism and use second annular groove structure (125) and be provided with bottom seal installation formula liquid and shift impurity drain hole (129) for the mechanism.

9. The combined type solid-liquid efficient separation device according to claim 8, characterized in that: the bottom seal installation type liquid transfer impurity storage mechanism is installed in the installation space (11) of the bottom seal installation type liquid transfer impurity storage mechanism through the hollow shell (121).

10. The combined type solid-liquid efficient separation device according to claim 8, characterized in that: and the bottom seal installation type liquid transfer impurity storage mechanism is communicated with the third liquid through hole (13) through a liquid discharge hole (129).

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