CN113318531A - Miniature pipeline filter - Google Patents

Miniature pipeline filter Download PDF

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Publication number
CN113318531A
CN113318531A CN202110683553.1A CN202110683553A CN113318531A CN 113318531 A CN113318531 A CN 113318531A CN 202110683553 A CN202110683553 A CN 202110683553A CN 113318531 A CN113318531 A CN 113318531A
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CN
China
Prior art keywords
filter
cavity
opening
shell
pipe joint
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Pending
Application number
CN202110683553.1A
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Chinese (zh)
Inventor
沈彦利
陈玲
叶伟强
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Meier China Environmental Technology Co ltd
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Meier China Environmental Technology Co ltd
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Publication date
Application filed by Meier China Environmental Technology Co ltd filed Critical Meier China Environmental Technology Co ltd
Priority to CN202110683553.1A priority Critical patent/CN113318531A/en
Publication of CN113318531A publication Critical patent/CN113318531A/en
Pending legal-status Critical Current

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D46/00Filters or filtering processes specially modified for separating dispersed particles from gases or vapours
    • B01D46/56Filters or filtering processes specially modified for separating dispersed particles from gases or vapours with multiple filtering elements, characterised by their mutual disposition
    • B01D46/62Filters or filtering processes specially modified for separating dispersed particles from gases or vapours with multiple filtering elements, characterised by their mutual disposition connected in series
    • B01D46/64Filters or filtering processes specially modified for separating dispersed particles from gases or vapours with multiple filtering elements, characterised by their mutual disposition connected in series arranged concentrically or coaxially
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D46/00Filters or filtering processes specially modified for separating dispersed particles from gases or vapours
    • B01D46/52Particle separators, e.g. dust precipitators, using filters embodying folded corrugated or wound sheet material
    • B01D46/521Particle separators, e.g. dust precipitators, using filters embodying folded corrugated or wound sheet material using folded, pleated material

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  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Filtering Of Dispersed Particles In Gases (AREA)

Abstract

The invention provides a micro pipeline filter, which comprises filter paper, a first shell and a second shell, wherein the first shell and the second shell are identical in structure and are symmetrically connected, the first shell comprises a first cavity, the second shell comprises a second cavity, and the filter paper is clamped between the first shell and the second shell at intervals and between the first cavity and the second cavity; the first shell comprises a first hard pipe joint which is communicated with the first cavity; the second shell comprises a second hard pipe joint which is communicated with the second cavity; the first hard pipe joint, the first cavity, the second cavity and the second hard pipe joint are communicated to form a communication passage penetrating through the filter paper. The invention has simple manufacturing process, less raw materials, no need of sealing elements, high mass production efficiency, simple and convenient use, low manufacturing cost, effective gas filtration, large filtration area and low resistance, can be directly connected with a pipeline by a self-provided pipe joint, and can protect equipment, personnel and environment safety by matching with the pipeline of harmful gas.

Description

Miniature pipeline filter
Technical Field
The invention relates to the technical field of filters, in particular to a micro pipeline filter.
Background
The pipeline filter mainly comprises a connecting pipe, a cylinder body, a filter basket, a flange cover, a fastener and the like. The device is arranged on a pipeline and can remove larger solid impurities in fluid, so that machine equipment (including a compressor, a pump and the like) and instruments can normally work and operate, the technical process is stabilized, and the safety production is guaranteed.
The traditional pipeline filter is mainly applied to a hydraulic system, and for the air pipeline filter, the pipeline filter for compressed air widely exists in the market at present, the size of the pipeline filter is relatively large, the pipeline filter is usually multi-stage filtration, the production and manufacturing cost is high, the shape of the pipeline filter is cylindrical, the pipeline filter occupies large space when being configured on a small pipeline, and the price of the pipeline filter is high. Is not suitable for being used on a common ventilation pressure difference detection pipeline.
Disclosure of Invention
The invention aims to solve the defects in the prior art and provides the method.
In order to achieve the purpose, the invention adopts the following technical scheme:
a micro pipeline filter comprises filter paper and a first shell and a second shell which are identical in structure and are symmetrically connected, wherein the first shell comprises a first cavity, the second shell comprises a second cavity, and the filter paper is clamped between the first shell and the second shell at intervals and between the first cavity and the second cavity; the first housing includes a first hard pipe joint in communication with the first cavity; the second housing includes a second hard pipe joint in communication with the second cavity; the first hard pipe joint, the first cavity, the second cavity and the second hard pipe joint are communicated to form a communicated passage penetrating through the filter paper.
Preferably, the first shell further comprises a first reducing flange, and the first reducing flange is wrapped outside the first cavity; the first reducing flange comprises a first opening and a second opening which are opposite, and the first hard pipe joint is connected with the first opening in a sealing mode; the second shell comprises a second reducing flange, the second reducing flange is wrapped outside the second cavity and comprises a third opening and a fourth opening which are opposite, the second hard pipe joint is connected with the third opening in a sealing mode, and the first reducing flange is identical to the second reducing flange in structure.
Preferably, the caliber of the first opening is smaller than that of the second opening, the caliber of the third opening is smaller than that of the fourth opening, the second opening and the fourth opening are in sealed butt joint with each other, and the filter paper is clamped between the second opening and the fourth opening at intervals.
Preferably, a high-strength adhesive glue is coated among the second opening, the filter paper and the fourth opening.
Preferably, the outer side of the joint of the second opening and the fourth opening is coated with sealing glue.
Preferably, the filter paper has a filter particle size of less than 0.3 microns.
Preferably, a second filter layer is further disposed in each of the first cavity and the second cavity.
Preferably, the second filter layer is zigzag and detachably fixed in the corresponding first cavity and the second cavity.
Preferably, the second filter layer is of a detachable chevron structure, the second filter layer is formed by folding a filter plate and comprises an inlet, the inlet of the second filter layer positioned in the first cavity is butted with the first opening, and the inlet of the second filter layer positioned in the second cavity is butted with the third opening.
Preferably, the surface of the second filter layer is in a wave-shaped folded structure.
Compared with the prior art, the invention has the beneficial effects that: the manufacturing process is simple, only partial welding and gluing processes are needed, raw materials are few, sealing elements are not needed, the large-scale production efficiency is high, the pipe joint can be directly connected to a pipeline, the use is simple and convenient, the manufacturing cost is low, and the cost of the shell is almost only needed to be considered. But the filter is very effective for gas filtration, has large filtration area and low resistance, and can protect equipment, personnel and environment safety when being matched with a pipeline of harmful gas. Meanwhile, the second filter layer is arranged, so that the filtering area can be further increased, the filtering effect is improved, the service life of the filter is effectively prolonged, the replacement frequency of a filter element of the filter is reduced, and the cost of workers for maintaining the pipeline is also reduced; the glue sealing is adopted, so that the installation and the sealing are convenient, and the disassembly operation can be completed simply and conveniently by only using the debonding agent; the surface of the second filter layer is wavy, so that the filter area is further enlarged, and the roughness of the surface of the second filter layer is improved, so that dust particles can be attached conveniently.
Drawings
FIG. 1 is a schematic view of the overall structure of a micro duct filter according to the present invention;
FIG. 2 is a side view of a second filter layer and filter paper of a micro duct filter according to the present invention.
Fig. 3 is a schematic overall structure diagram of two embodiments of a micro duct filter according to the present invention.
Detailed Description
In order to further understand the objects, structures, features and functions of the present invention, the following embodiments are described in detail.
Referring to fig. 1 and 2 in combination, the present invention provides a micro duct filter, which includes a filter paper 5, and a first housing 1 and a second housing 2 that have the same structure and are symmetrically connected, wherein the first housing 1 includes a first cavity 3, the second housing 2 includes a second cavity 4, the filter paper 5 is clamped between the first housing 1 and the second housing 2 at intervals, and is spaced between the first cavity 3 and the second cavity 4; the first shell 1 comprises a first hard pipe joint 6, and the first hard pipe joint 6 is communicated with the first cavity 3; the second shell 2 comprises a second hard pipe joint 7, and the second hard pipe joint 7 is communicated with the second cavity 4; the first hard pipe joint 6, the first cavity 3, the second cavity 4 and the second hard pipe joint 7 are communicated to form a communication passage passing through the filter paper 5.
In one embodiment, the hard pipe joint mainly has the function of being directly connected to a metal pipeline and is made of metal, so that the hard pipe joint has strong corrosion resistance and can keep structural stability under the corrosion of toxic and harmful gases, and the service life of the filter is ensured. The first cavity 3 and the second cavity 4 are convenient for toxic and harmful gas in the pipeline to gather into the cavities and filter through the filter paper 5. The first shell 1 and the second shell 2 are made of metal materials, and the filter paper 5 covers and is arranged between the first shell 1 and the second shell 2 at intervals, so that the filter paper 5 can be effectively protected from being damaged, and the filtering capacity of the filter is ensured. Because the first shell 1 and the second shell 2 have the same structure, the filter can be installed at will when in use without considering the installation direction, thereby ensuring that the filter is more convenient to install. In practical use, the hard pipe joint and the shell are welded together by adopting a full-welding process, so that the hard pipe joint and the shell are hermetically connected; therefore, different hard pipe joints can be welded according to different pipelines, and the manufacturing is simple and convenient. The first hard pipe joint 6, the first cavity 3, the second cavity 4 and the second hard pipe joint 7 form a passage, so when the filter paper is used, poisonous and harmful gas can enter the first cavity 3 through the first hard pipe joint 6, passes through the second cavity 4 and the second hard pipe joint 7 after being filtered by the filter paper 5, flows into the downstream through the second hard pipe joint 7, or flows into the downstream from the second hard pipe joint 7 and flows out from the first hard pipe joint 6, and the filtration of the poisonous and harmful gas is realized.
Preferably, the first shell 1 further comprises a first reducing flange 8, and the first reducing flange 8 is wrapped outside the first cavity 3; the first reducing flange 8 comprises a first opening 10 and a second opening 11 which are opposite, and the first hard pipe joint 6 is connected with the first opening 10 in a sealing mode; the second shell 2 comprises a second reducing flange 9, the second reducing flange 9 is wrapped outside the second cavity 4, the second reducing flange 9 comprises a third opening 12 and a fourth opening 13 which are opposite to each other, the second hard pipe joint 7 is connected with the third opening 12 in a sealing mode, and the first reducing flange 8 is identical to the second reducing flange 9 in structure. Furthermore, the caliber of the first opening 10 is smaller than that of the second opening 11, the caliber of the third opening 12 is smaller than that of the fourth opening 13, the second opening 11 and the fourth opening 13 are in sealed butt joint with each other, and the filter paper 5 is clamped between the second opening 11 and the fourth opening 13 at intervals.
Adopt first reducing flange 8 and second reducing flange 9, the little open end and the hard tube coupling with reducing flange are connected, the butt joint of these two big open ends of second opening 11 and fourth opening 13, the area of filter paper 5 is not less than the bore of second opening 11 and fourth opening 13, use through reducing flange, the effective filtration area of filter paper 5 has been increased, thereby improve filtration efficiency, reducing flange is the metal material simultaneously, hard wear-resisting corrosion-resistant, can effectively protect filter paper 5 can't be destroyed as the shell.
Preferably, a high-strength adhesive glue 14 is coated between the second opening 11, the filter paper 5 and the fourth opening 13. The filter paper 5 is sealed in the two reducing flanges by using the high-strength adhesive glue 14, so that the filter paper is simple and convenient to install and has a good sealing effect. Furthermore, the high-strength adhesive 14 is AB glue, so that metal can be effectively adhered and fixed, disconnection of the joint is avoided, and the cost is low.
Utilize fixed reducing flange of glue and filter paper 5, fixed simple and convenient on the one hand, on the other hand can effectively fill in the concatenation department of first reducing flange 8 and second reducing flange 9 to can play good sealed effect when fixed, avoid two reducing flange concatenations department to reveal poisonous and harmful gas.
The reason why the invention uses glue for fixing is that the invention has small volume, and the adoption of screws and the like for fixing not only causes troublesome operation, but also easily causes the breakage of the shell such as a flange and the like, increases the breakage rate of the shell, reduces the production efficiency and improves the product cost. Simultaneously, one screw screwing operation is complicated, so that the problems can be effectively avoided by using glue for fixation, and the operation is simple and convenient.
Preferably, the outer side of the joint of the second opening 11 and the fourth opening 13 is coated with sealing glue. Sealing glue is also coated on the outer side of the joint of the second opening 11 and the fourth opening 13, so that the sealing effect can be further achieved, meanwhile, air leakage caused by the fact that the outer edge of the joint is cracked due to the fact that the micro pipeline filter is exposed in the air or corroded by the external environment when the micro pipeline filter is outdoors is prevented, and a good protection effect is achieved.
In addition, when the filtering effect of the micro pipeline filter is reduced, the glue can be dissolved by the glue dissolving agent, so that the shell of the micro pipeline filter can be directly opened, the filter paper 5 is replaced, and then the micro pipeline filter is fixed and sealed by the glue, and the operation is simple and convenient.
In the use, first hard pipe joint 6 and second hard pipe joint 7 branch are connected on the pipeline that corresponds, if need change filter paper 5, only need remove the gluing from the butt joint department of first reducing flange 8 and second reducing flange 9, change filter paper 5 can, need not dismantle the joint at both ends and the being connected of pipeline, make the change more convenient.
Preferably, the filtering particle size of the filter paper 5 is less than 0.3 micron, which can effectively filter 0.3 micron particles, and the filtering efficiency is above 99.999%.
Preferably, a second filter layer 15 is also provided in each of the first cavity 3 and the second cavity 4. The setting of second filter layer 15 can further improve miniature pipeline filter's filtration efficiency, simultaneously because the increase of the number of filter layers, can effectively prolong the live time of filter, reduced filter paper 5 and changed the frequency to the maintenance cost has been reduced.
Preferably, the second filter layer 15 is fixed removably in the corresponding first and second cavities 3, 4 in a zigzag shape. The zigzag second filter layer 15 can further increase the filter area on the premise of not blocking the first cavity 3 and the second cavity 4, ensure that gas can smoothly circulate while being filtered, and avoid that the gas pressure in the pipeline is increased due to overhigh density of the filter, so that the service life of the pipeline is shortened due to overlarge pressure. Therefore, the zigzag second filter layer 15 can improve the filtering effect and prolong the service life of the filter, and simultaneously has good gas transmission effect. Meanwhile, the second filter layer 15 is detachably fixed in the cavity, so that the filter layer can be replaced by directly opening the filter when the second filter layer 15 loses the filtering effect, and the integral recycling of the micro pipeline filter is realized.
The zigzag second filter layer 15 is approximately parallel to the filter paper 5, so that harmful gas sequentially passes through each folded surface of the zigzag second filter layer 15 when being filtered by the second filter layer, and the gas is filtered by multiple layers, thereby not only improving the filtering efficiency, but also improving the filtering precision of the filter.
As shown in fig. 3, preferably, the second filter layer 15 is a detachable chevron structure, the second filter layer 15 is formed by folding a filter sheet and includes an inlet 17, the inlet 17 of the second filter layer 15 located in the first cavity 3 is butted against the first opening 10, and the inlet 17 of the second filter layer 15 located in the second cavity 4 is butted against the third opening 12.
The second filter layer 15 of the chevron structure is perpendicular to the filter paper 5, the opening of the second filter layer is butted with the inlet 17 of the filter, so that when gas enters the filter from the first opening 10 or the third opening 12, the gas directly enters the second filter layer 15 of the chevron structure and passes through the second filter layer 15 after being filtered to flow to the filter paper 5, the second filter layer 15 of the chevron structure greatly increases the filtering area, the filtering is more sufficient, and the filtering speed is very high. At this moment, two second filter layers 15 in the filter and filter paper 5 cooperate to form 3-component filtration, which can ensure high-speed filtration and better filtration precision.
Preferably, the surface of the second filter layer 15 is a wave-shaped folding structure 16, which can further increase the effective filtering area of the second filter layer 15 and further prolong the service life of the filter; meanwhile, the wave-shaped folding structure 16 can effectively increase the roughness of the surface of the second filter layer 15, and is more convenient for particles to attach to the surface of the second filter layer.
In addition, the filter paper 5 also adopts the wave-shaped folding structure 16, so that the effective filtering area of the filter paper 5 is increased. Meanwhile, the periphery of the filter paper 5 is hermetically connected with the inner side walls of the second opening 11 and the fourth opening 13, so that gas is prevented from flowing out of the filter without being filtered.
It should be noted that, there is a gap between the second filter layer 15 and the inner side wall of the first cavity 3 and the second cavity 4, so that most of particles with high active ingredients can be intercepted first by the second filter layer 15, and then the remaining particles which are not filtered are filtered by the filter paper 5, so as to avoid that the whole filter loses filtering capability after the second filter layer 15 loses filtering capability, and the filter can be opened and the second filter layer 15 and the filter paper 5 can be replaced until the second filter layer 15 and the filter paper 5 have no filtering capability.
When the micro pipeline filter is used, the first hard pipe joint 6 and the second hard pipe joint 7 are respectively and correspondingly connected in a pipeline, then gas flows into the micro pipeline filter from one end, wherein for example, the gas flows into the micro pipeline filter from the first hard pipe joint 6, toxic and harmful gas flows in from the first hard pipe joint 6, is filtered by the second filter layer 15 in the first cavity 3, then flows through the filter paper 5, passes through the filter paper 5, then passes through the second filter layer 15 in the second cavity 4, then flows out from the second hard pipe joint 7 and enters the pipeline, so that particles with high active ingredients can be intercepted in the micro pipeline filter, and clean air continuously flows.
From the above, the micro pipeline filter disclosed by the invention is simple in manufacturing process, only needs partial welding and gluing processes, is few in raw materials, does not need a sealing element, is high in large-scale production efficiency, can be directly connected to a pipeline by a self-contained pipe joint, is simple and convenient to use, is low in manufacturing cost, and almost only needs to consider the cost of a shell. But the filter is very effective for gas filtration, has large filtration area and low resistance, and can protect equipment, personnel and environment safety when being matched with a pipeline of harmful gas. Meanwhile, the second filter layer is arranged, so that the filtering area can be further increased, the filtering effect is improved, the service life of the filter is effectively prolonged, the replacement frequency of a filter element of the filter is reduced, and the cost of workers for maintaining the pipeline is also reduced; the glue sealing is adopted, so that the installation and the sealing are convenient, and the disassembly operation can be completed simply and conveniently by only using the debonding agent; the surface of the second filter layer is wavy, so that the filtering area is further enlarged, the roughness of the surface of the second filter layer is improved, attachment of particles is facilitated, and active particles are filtered out more quickly.
The present invention has been described in relation to the above embodiments, which are only exemplary of the implementation of the present invention. It should be noted that the disclosed embodiments do not limit the scope of the invention. Rather, it is intended that all such modifications and variations be included within the spirit and scope of this invention.

Claims (10)

1. A miniature pipeline filter which characterized in that: the filter paper is clamped between the first shell and the second shell at intervals, and the filter paper is arranged between the first cavity and the second cavity at intervals; the first housing includes a first hard pipe joint in communication with the first cavity; the second housing includes a second hard pipe joint in communication with the second cavity; the first hard pipe joint, the first cavity, the second cavity and the second hard pipe joint are communicated to form a communicated passage penetrating through the filter paper.
2. The micro duct filter of claim 1, wherein: the first shell further comprises a first reducing flange, and the first reducing flange is wrapped outside the first cavity; the first reducing flange comprises a first opening and a second opening which are opposite, and the first hard pipe joint is connected with the first opening in a sealing mode; the second shell comprises a second reducing flange, the second reducing flange is wrapped outside the second cavity and comprises a third opening and a fourth opening which are opposite, the second hard pipe joint is connected with the third opening in a sealing mode, and the first reducing flange is identical to the second reducing flange in structure.
3. The micro duct filter of claim 2, wherein: the caliber of the first opening is smaller than that of the second opening, the caliber of the third opening is smaller than that of the fourth opening, the second opening and the fourth opening are in sealed butt joint with each other, and the filter paper is clamped between the second opening and the fourth opening at intervals.
4. The micro duct filter of claim 3, wherein: and high-strength adhesive glue is coated among the second opening, the filter paper and the fourth opening.
5. The micro duct filter of claim 4, wherein: the outer side of the splicing part of the second opening and the fourth opening is coated with sealing glue.
6. The micro duct filter of claim 1, wherein: the filter paper has a filter particle size of less than 0.3 micron.
7. The micro duct filter of claim 1, wherein: and second filter layers are respectively arranged in the first cavity and the second cavity.
8. The micro duct filter of claim 7, wherein: the second filter layer is zigzag and detachably fixed in the corresponding first cavity and the second cavity.
9. The micro duct filter of claim 7, wherein: the second filter layer is of a detachable herringbone structure, the second filter layer is formed by folding a filter plate and comprises an inlet, the inlet of the second filter layer positioned in the first cavity is in butt joint with the first opening, and the inlet of the second filter layer positioned in the second cavity is in butt joint with the third opening.
10. The micro duct filter of claim 7, wherein: the surface of the second filter layer is of a wave-shaped folding structure.
CN202110683553.1A 2021-06-21 2021-06-21 Miniature pipeline filter Pending CN113318531A (en)

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CN202110683553.1A CN113318531A (en) 2021-06-21 2021-06-21 Miniature pipeline filter

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Cited By (1)

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Publication number Priority date Publication date Assignee Title
CN115999273A (en) * 2023-01-14 2023-04-25 无锡市华威石化通用设备有限公司 Pipeline filter for fine pipeline

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Cited By (2)

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Publication number Priority date Publication date Assignee Title
CN115999273A (en) * 2023-01-14 2023-04-25 无锡市华威石化通用设备有限公司 Pipeline filter for fine pipeline
CN115999273B (en) * 2023-01-14 2024-02-09 无锡市华威石化通用设备有限公司 Pipeline filter for fine pipeline

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