CN114405129A - Multilateral vortex accommodating cavity and filtering device thereof - Google Patents

Multilateral vortex accommodating cavity and filtering device thereof Download PDF

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Publication number
CN114405129A
CN114405129A CN202210028979.8A CN202210028979A CN114405129A CN 114405129 A CN114405129 A CN 114405129A CN 202210028979 A CN202210028979 A CN 202210028979A CN 114405129 A CN114405129 A CN 114405129A
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China
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vortex
accommodating cavity
multilateral
section
cavity
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CN202210028979.8A
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CN114405129B (en
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黄国爱
钟振海
林启涨
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Global Zhejiang Environmental Protection Technology Co ltd
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Global Zhejiang Environmental Protection Technology Co ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D35/00Filtering devices having features not specifically covered by groups B01D24/00 - B01D33/00, or for applications not specifically covered by groups B01D24/00 - B01D33/00; Auxiliary devices for filtration; Filter housing constructions

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  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
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Abstract

The invention discloses a polygonal vortex containing cavity and a filtering device thereof, and relates to the technical field of filtering equipment. When in use, the two connecting channels can be communicated, and the other connecting channels can be communicated.

Description

Multilateral vortex accommodating cavity and filtering device thereof
Technical Field
The invention relates to the technical field of filtering equipment, in particular to a polygonal vortex containing cavity and a filtering device thereof.
Background
Existing filtration devices use either a water pumping system or a liquid lead pumping system to create a vortex chamber. The pumping system in some of these systems is based on the concept of bathtub vortices, in which a vortex chamber is formed as a result of a chamber formed by pumping liquid tangentially into a compression vessel and discharging the liquid from an orifice located on the bottom of such a vessel
These approaches have been identified as problematic,
1. in the case where the vortex chamber extends through the entire vessel and into the discharge tube, the interface of the entire vessel lacks smoothness, i.e., the continued presence of high frequency surface undulations, while there is a strong vertical shear layer near the interface.
2. The vortex chamber extends through the entire height of the container, contacting the stationary wall at the top of the container and entering the discharge hole at the bottom of the container. When the swirl chamber extends into the discharge orifice, it can block a significant portion of the discharge area, which can result in a significant increase in vertical velocity (and shear) near the swirl interface, which in turn can cause instability of the swirl.
Disclosure of Invention
The invention aims to provide a polygonal vortex containing cavity and a filtering device thereof, which are used for solving the technical problem.
A multilateral vortex containing chamber comprises
The vortex containing cavity is formed among the first containing cavity, one section of each first through groove is communicated with the first containing cavity, the horizontal diameter of the first containing cavity is larger than the horizontal diameter of the through hole, the vertical height of the first containing cavity is larger than the vertical height of the first through groove, and a vortex containing cavity is formed among the first containing cavity, the through hole and the first through grooves; a mounting groove is formed in the lower section and is positioned below the first accommodating cavity; two sides of the lower section are respectively provided with a second through groove, the two second through grooves are respectively communicated with the mounting grooves, the through holes and the first accommodating cavity are decomposed into smaller-diameter through a plurality of through holes, and due to the centrifugal effect generated by the rotation of air flow in the spiral pipe, the air flow in the vortex accommodating cavity enters the first accommodating cavity and then is intensively distributed near the cavity wall, so that a stronger air flow layer is formed around the pipe wall.
As a further preference, the vertical height of the lower section is higher than the vertical height of the upper section.
Preferably, the axes of the middle parts of the first through grooves are all located on the same horizontal line.
As a further preferred option, the bottom of the first accommodating cavity is located below the bottom of the first through groove, and a buffer zone is formed by a height difference between the first accommodating cavity and the bottom of the first through groove.
Preferably, the body is integrally formed.
As a further preferred option, the first accommodating cavity is arranged in a ring shape, and the first accommodating cavity and the first through groove are arranged concentrically.
As a further preference, in a direction from the first accommodating cavity to the first through groove, a width of each of the first through grooves gradually increases.
As a further preference, wherein the upper and middle sections are cylindrical and wherein the transverse cross-section of the barrel is circular or hexagonal.
A filter device comprises the polygonal vortex containing cavity, the filter pipe is of a cylindrical structure, and the polygonal vortex containing cavity is arranged at the output end of the filter pipe.
The technical scheme has the following advantages or beneficial effects:
(1) according to the invention, the first vortex containing cavity is used for storing the filtered water, and when the filtering operation is carried out and the filtered water is extracted, the vortex containing cavity can enable the filtered water to form a vortex, so that the flowability of the filtered water is improved, and the impact in the vortex containing cavity is reduced.
(2) In the invention, the buffer area is arranged, so that the impact of the water filter on the main body in the filtering process can be reduced, the impact of water pressure is reduced, and the service life of the main body is prolonged.
(3) According to the multilateral vortex containing cavity for the filtering device, the through grooves in the main body are communicated with the through holes through the first containing cavity, the flow water pressure is controlled through the buffer area, and different connecting channels are connected through different through grooves, so that three connecting channels can be communicated with each other, two connecting channels can be communicated with each other, and other connecting channels can be communicated with each other.
Drawings
FIG. 1 is a schematic diagram of the construction of a multilateral vortex containment chamber of the present invention;
FIG. 2 is a cross-sectional view of a multilateral vortex containment chamber of the present invention;
FIG. 3 is a front view of a polygonal vortex containment chamber of the present invention;
figure 4 is a top view of a polygonal vortex containment chamber of the present invention.
In the figure: 1. a main body; 2. an upper section; 3. a middle section; 4. a lower section; 5. a first accommodating chamber; 6. a first through groove; 7. a first accommodating chamber; 8. mounting grooves; 9. a second through groove; 10. a buffer area; 11. a vortex receiving cavity.
Detailed Description
In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.
In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", and the like, which indicate orientations or positional relationships, are based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.
The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.
With reference to fig. 1-4, in a first embodiment: a multilateral vortex containing chamber comprises
The main body 1 is sequentially provided with an upper section 2, a middle section 3 and a lower section 4 from top to bottom, the middle part of the upper section 2 is provided with a through hole, a first accommodating cavity 5 is arranged in the middle section 3, the through hole penetrates through the upper section 2 to be connected with the first accommodating cavity 5 in the middle section 3, a plurality of first through grooves 6 are arranged around the middle section 3, one section of each first through groove 6 is communicated with the first accommodating cavity 5, the lower section 4 is provided with a mounting groove 8, and the mounting groove 8 is positioned below the first accommodating cavity 5; the horizontal diameter of the first accommodating cavity 5 is larger than that of the through hole, the vertical height of the first accommodating cavity 5 is larger than that of the first through groove 6, and a vortex accommodating cavity 11 is formed among the first accommodating cavity 5, the through hole and the first through grooves 6; the both sides of hypomere 4 are equipped with a second through groove 9 respectively, and two second through grooves 9 switch on each other with mounting groove 8 respectively, and the through-hole holds chamber 5 with first because a plurality of through-holes are decomposed into that the diameter is littleer, because the rotatory centrifugal action that produces of air current in the coil pipe makes the vortex hold the air current in the chamber 11 and gets into first chamber 5 that holds and then concentrated near the chamber wall, forms stronger air current layer around the pipe wall.
Wherein, the upper section 2, the middle section 3 and the lower section 4 can be three independent elements which are assembled together, or the upper section 2, the middle section 3 and the lower section 4 can be integrally formed.
The cross-sectional shape of the upper section 2 may be a circle, a polygon, an ellipse or other geometric shapes, which is not limited in the present invention;
the cross-sectional shape of the middle section 3 may be circular, polygonal, elliptical or other geometric shapes, which the invention is not limited to;
the cross-sectional shape of the lower section 4 may be a circle, a polygon, an ellipse or other geometric shapes, which is not limited by the invention.
The periphery of the middle section 3 is provided with a plurality of first through grooves 6, and one section of each first through groove 6 is communicated with the first accommodating cavity 5, so that when liquid flows in or flows out through the first through grooves 6 on the first accommodating cavity 5, the liquid can automatically form a vortex.
Wherein one of the pipes of the flow system is connectable to the through hole.
Further, as a preferred embodiment, the vertical height of the lower section 4 is higher than the vertical height of the upper section 2.
Wherein, the vertical height of hypomere 4 is height-adjustable, and the user can adjust its hypomere 4's mounting height according to own demand.
Further, as a preferred embodiment, the central axes of the plurality of first through grooves 6 are all located on the same horizontal line. This makes the drainage more stable.
Besides, the first through slots 6 can be arranged in a way that the first through slots are not in the same horizontal line.
Further, as a preferred embodiment, the bottom of the first accommodating cavity 5 is located below the bottom of the first through groove 6, and the height difference between the bottom of the first accommodating cavity 5 and the bottom of the first through groove 6 forms a buffer zone 10.
Further, as a preferred embodiment, the main body 1 is integrally formed.
Further, as a preferred embodiment, the first accommodating cavity 5 is arranged in a ring shape, and the first accommodating cavity 5 and the first through groove 6 are arranged concentrically.
Further, as a preferred embodiment, the width of each first through groove 6 is gradually increased in the direction from the first accommodating chamber 5 to the first through groove 6.
In addition to this, the width of each first through groove 6 gradually decreases in the direction from the first accommodation cavity 5 to the first through groove 6. Or the width of each first through groove 6 is the same in the direction from the first accommodation cavity 5 to the first through groove 6.
Further, as a preferred embodiment, the upper and middle sections 2, 3 are cylindrical, and the barrel is circular or hexagonal in transverse cross-section.
Wherein the through hole 2 is thus in communication with the first receiving chamber 5 and with the environment or the flow system through the first through slot 6.
A multilateral vortex containing cavity 11 for a mixing pipeline comprises a main body 1, a first containing cavity 5 is arranged in the main body 1, connecting pipes are embedded in the left side, the right side and the bottom of a middle section 3 of the main body 1, one end of each connecting pipe is communicated with the first containing cavity 5 through a connecting channel, a second through groove 9 is communicated with two mounting grooves 8, the through holes and the first containing cavity 5 are decomposed into smaller-diameter through holes, the airflow in the vortex containing cavity 11 enters the first containing cavity 5 and then is distributed near the wall of the cavity intensively due to the centrifugal effect generated by the rotation of the airflow in a spiral pipe, a stronger airflow layer is formed around the pipe wall, different connecting channels are connected through grooves of filtrate, and therefore the multilateral vortex containing cavity 11 can be communicated with three connecting channels and two connecting channels, greatly facilitating the mixing and circulation among different liquids in the mixing pipeline.
In this embodiment, the multilateral vortex containing cavity 11 for the filtering device is communicated with the through hole through the first containing cavity 5 by the through groove on the main body 1 and controlling the flow water pressure through the buffer zone 10, and different connecting passages are connected through different through grooves, so that three connecting passages can be communicated with each other, two connecting passages can be communicated with each other, and other connecting passages can be communicated with each other by the multilateral vortex containing cavity 11, thereby greatly facilitating the mixed communication between different liquids in a mixing pipeline.
Example two: the first logical inslot 6 that the chamber 11 was held to multilateral vortex is equipped with detachable and blocks up, blocks up and leads to groove 6 with first for detachable state, and blocks up and be equipped with the sealing washer for prevent that water filtration water from leaking. The user can use the dumet to increase the water pressure of the multilateral vortex containing cavity 11 according to the requirement of the user to accelerate the injection rate.
A filter device comprises any one of the polygonal vortex containing cavities, a filter pipe is of a cylindrical structure, and the polygonal vortex containing cavity is arranged at the output end of the filter pipe.
While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims (9)

1. A multilateral vortex containing cavity is characterized in that a main body (1) is provided with an upper section (2), a middle section (3) and a lower section (4) from top to bottom in sequence, a through hole is arranged in the middle of the upper section (2), a first accommodating cavity (5) is arranged in the middle section (3), the through hole penetrates through the upper section (2) and is connected with a first accommodating cavity (5) in the middle section (3), a plurality of first through grooves (6) are arranged around the middle section (3), one section of each first through groove (6) is communicated with the first containing cavity (5), the horizontal diameter of the first accommodating cavity (5) is larger than that of the through hole, the vertical height of the first accommodating cavity (5) is larger than that of the first through groove (6), a vortex accommodating cavity (11) is formed among the first accommodating cavity (5), the through hole and the first through grooves (6); a mounting groove (8) is formed in the lower section (4), and the mounting groove (8) is positioned below the first accommodating cavity (5); two sides of the lower section (4) are respectively provided with a second through groove (9), the two second through grooves (9) are respectively communicated with the mounting groove (8), the through holes and the first accommodating cavity (5) are divided into smaller-diameter through a plurality of through holes, and due to the centrifugal effect generated by the rotation of air flow in the spiral pipe, the air flow in the vortex accommodating cavity (11) enters the first accommodating cavity (5) and then is distributed near the wall of the cavity in a centralized manner, so that a stronger air flow layer is formed around the pipe wall.
2. The multilateral vortex containment chamber of claim 1, wherein: the vertical height of the lower section (4) is higher than that of the upper section (2).
3. The multilateral vortex containment chamber of claim 1, wherein: the middle axes of the first through grooves (6) are all positioned on the same horizontal line.
4. The multilateral vortex containment chamber of claim 1, wherein: the bottom of the first accommodating cavity (5) is positioned below the bottom of the first through groove (6), and a buffer area (10) is formed by the height difference between the bottom of the first accommodating cavity (5) and the bottom of the first through groove (6).
5. The multilateral vortex containment chamber of claim 1, wherein: the main body (1) is integrally formed.
6. The multilateral vortex containment chamber of claim 1, wherein: the first chamber (5) that holds is the annular setting, first hold chamber (5) with first logical groove (6) concentric setting.
7. Multilateral vortex housing according to claim 1, characterized in that the width of each of the first through slots (6) increases gradually in the direction from the first housing cavity (5) to the first through slot (6).
8. Multilateral vortex containing chamber according to claim 1, characterized in that the upper section (2) and the middle section (3) are cylindrical and in that the transverse cross section of the barrel is circular or hexagonal.
9. A filter device, wherein the filtering water pipe is provided with a polygonal vortex receiving cavity as claimed in any one of claims 1-8, the filtering water pipe is of a cylindrical structure, and the polygonal vortex receiving cavity is arranged on an output section of the filtering water pipe.
CN202210028979.8A 2022-01-11 2022-01-11 Polygonal vortex accommodating cavity and filtering device thereof Active CN114405129B (en)

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Application Number Priority Date Filing Date Title
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CN114405129B CN114405129B (en) 2023-09-15

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Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2745484Y (en) * 2004-08-23 2005-12-14 李宝珍 Filtering struture of high pressure coffee apparatus
JP2010504856A (en) * 2006-09-28 2010-02-18 ヴァトレコ アーベー Vortex generator
TWM581942U (en) * 2018-08-15 2019-08-11 世引國際有限公司 Micro-bubble obtaining device
CN209333481U (en) * 2018-11-07 2019-09-03 青岛海尔(胶州)空调器有限公司 It is vortexed dehydrator
CN112449552A (en) * 2019-08-28 2021-03-05 讯凯国际股份有限公司 Vortex water tank
CN112973392A (en) * 2021-02-05 2021-06-18 钟佳昊 Water removing device
CN113368718A (en) * 2021-07-21 2021-09-10 杭州老板电器股份有限公司 Micro-nano bubbling mechanism and micro-nano bubble water device

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2745484Y (en) * 2004-08-23 2005-12-14 李宝珍 Filtering struture of high pressure coffee apparatus
JP2010504856A (en) * 2006-09-28 2010-02-18 ヴァトレコ アーベー Vortex generator
TWM581942U (en) * 2018-08-15 2019-08-11 世引國際有限公司 Micro-bubble obtaining device
CN209333481U (en) * 2018-11-07 2019-09-03 青岛海尔(胶州)空调器有限公司 It is vortexed dehydrator
CN112449552A (en) * 2019-08-28 2021-03-05 讯凯国际股份有限公司 Vortex water tank
CN112973392A (en) * 2021-02-05 2021-06-18 钟佳昊 Water removing device
CN113368718A (en) * 2021-07-21 2021-09-10 杭州老板电器股份有限公司 Micro-nano bubbling mechanism and micro-nano bubble water device

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