RU180892U1 - INSTALLATION FILTER MODULAR - Google Patents

Abstract

We propose a filtering module installation according to a utility model, comprising an inlet pipe, a vapor trap, a heating section, sections in the form of a separate module, arranged in a technological sequence along the cleaned air stream and connected to each other by means of hermetic connections, containing a housing with the possibility of organizing air flow without air leaks past the filter material, the first and second filter bags, while the first filter bag contains a section Of the high-performance filtering material installed tightly on the contact surface with the housing, and the pre-cleaning section installed in front of the highly-efficient cleaning section, the second filter package contains a sorption-filtering multilayer material placed in two sections. The technical result when using the utility model is to simplify the design, increase ease of use and manufacturability of the manufacture of filters, reducing material consumption and cost of the product. 3 ill.

Description

The utility model relates to filtering devices for the combined purification of technological air environments, which can be used in the nuclear, chemical, and medical industries for gas purification from aerosols, molecular iodine and its compounds, for example, in air ventilation systems at nuclear power plants and radiochemical plants.

Known aerosol filter (RU No. 61585, IPC B01D 46/54, publ. 10.03.2007), comprising a housing and a high-performance filter material made of pleated sheet with micro folds and installed tightly on the contact surface with the housing, a preliminary section is installed in front of the highly efficient cleaning section. cleaning, while the ratio of the areas of the filtering surfaces of the sections of highly efficient and pre-treatment is in the range from 3: 1 to 80: 1.

A disadvantage of the known aerosol filter is that it is mainly intended only for preliminary and fine purification of process air from the most penetrating particles without performing complex cleaning, including iodine in its various modifications.

A known filter for cleaning gaseous media from aerosols, molecular iodine and its compounds according to the patent "Sorption-filtering multilayer material and filter containing it" (RU No. 2487745, IPC B01D 39/00, G21F 9/02, publ. 07.20.2013), comprising a housing provided with means for entering and exiting the gaseous medium and a sorption-filtering multilayer material, which is placed in the filter housing in the form of two modules, the first module comprising a layer made of highly porous fiberglass non-woven material, a layer of fibrous activated carbon carbon material and a layer of fibrous carbon impregnated material, and the second module contains a layer of fine fiber glass paper or a layer of non-woven fibrous material obtained by electroforming from a solution of polyamide.

A disadvantage of the known aerosol filter is that it is intended mainly for cleaning iodine in its various modifications.

A known system for cleaning radioactive gas emissions from a nuclear power plant, including a holding chamber, drying units, adsorbers (RU No. 2168778, G21F 9/02, published June 10, 2001), is designed to clean the resulting contaminated gaseous products at nuclear power plants and nuclear plants. whose gas emissions contain radioactive or other environmentally harmful components.

The disadvantages of the known system for cleaning radioactive gas emissions are complexity, cumbersome, high capital costs for the manufacture and operation.

Known mobile installation for air purification in enclosed spaces, containing a means of transportation, a means of control, pumping and pumping gas ducts, gas purification units from toxic substances and aerosol particles, interconnected by pipelines with the ability to switch through bypass (RU No. 2232439, IPC V08V 15 / 00, G21F 9/02, publ. 12/27/2003).

The disadvantages of the known mobile installation for air purification are complexity, cumbersome due to spaced and interconnected pipelines of gas purification units and other components.

Closest to the technical nature of the claimed object is a combined filter installation for air purification (RU No. 85101, MPK8 B01D 50/00, published July 27, 2009), containing an inlet pipe installed in the technological sequence along the course of the cleaned air stream, a droplet separator section, a heating section, a coarse cleaning section, inside the housing of which a coarse filter material is placed, a fine and highly efficient cleaning section, an adsorber with a sorbent inside the housing, adjacent to section for high-efficiency cleaning to the adsorber, in the housing of which there is a filter material of high-efficiency cleaning, and an outlet pipe connected to it

The known installation, providing effective air purification from various types of contaminants, has at the same time a number of disadvantages, namely: the presence of a large number of different sections and, correspondingly, the same number of connections ensuring the organization of air flow through the installation, which complicates the design and operation, which is complicated and material-intensive design of the adsorber, which degrades performance and increases material consumption due to the large length of the sections, low manufacturability due to the inability to unify lshogo number of different sections.

The task the utility model is aimed at is to create a modular filter installation in which these shortcomings are eliminated, namely, the design is optimized by the number of assembly modules, by geometric dimensions, by material consumption, structural elements are unified, operation is facilitated.

These tasks are solved in the installation of a filter module according to a utility model, which contains an inlet pipe, a vapor trap, a heating section, sections of coarse, fine and high-efficiency cleaning, a section for cleaning from gas impurities located in the technological sequence along the cleaned air flow and interconnected by means of tight connections , including from radioactive iodine, a highly efficient cleaning section and an outlet pipe, in which coarse, fine and highly efficient cleaning sections and made in the form of a separate module containing a housing, inside which is placed with the possibility of organizing air flow without air leakage past the filter material, the first filter bag containing a section of high-performance filter material installed tightly on the contact surface with the housing, and a preliminary section installed in front of the highly efficient cleaning section purification section for purification from gas impurities, including from radioactive iodine, and a section for highly efficient cleaning in the form of a separate module containing a housing, inside which is installed with the possibility of organizing an air flow without air leakage past the filter material, a second filter bag containing a sorption-filtering multilayer material placed in two sections, while in the first filter bag the porosity of the filter materials is coarse, thin and high-efficiency cleaning is performed with decreasing along the cleaned air flow, high-performance filtering material is made of pleated sheet with micro folds, pre-treatment section, the ratio of the areas of the filtering surfaces of the sections of high-performance and preliminary treatment is in the range from 3: 1 to 80: 1, the sorption-filtering multilayer material of the second filter package contains a layer made of highly porous fiberglass nonwoven fabric, a layer of fibrous activated carbon material, a layer of fibrous carbon impregnated material and a layer of tone glass fiber paper or a layer of non-woven fibrous material obtained by electroforming from a polyamide solution, the housing of a separate module is the same for each of the individual modules and contains a filter chamber with a hinged door on the side wall, fixed to the chamber through seals by means of clamping devices, clamping devices to provide tightly securing the filter bag and pipe to control the tightness of this connection.

The essence of the utility model is that the implementation of the coarse, fine and high-efficiency cleaning sections is made in the form of a separate module containing a housing, inside which the first two-section filter bag made of preliminary and high-efficiency filtering material is arranged to organize the air flow without air leaks past the filter material, without reducing the cleaning characteristics of the installation, it will allow to reduce the number of modules from three to one, simplify the design, reduce the dimensions and material consumption Th. Similarly, the implementation of the cleaning section for gas impurities, including radioactive iodine, and the high-efficiency cleaning section in the form of a separate module containing a housing, inside which is placed with the possibility of organizing air flow without air leaks past the filter material, a second filter packet containing sorption-filtering multilayer material placed in the form of two sections will also allow, without reducing the cleaning characteristics of the installation, reduce the number of modules from two to one, simplify the design, reduce the size Rita and material. The presence of two modules facilitates assembly technology, facilitates operation and reduces installation costs. The presence of identical structural elements increases the level of unification. In addition, the equipment is easily mounted and dismantled, while various installation options are possible.

The applicant is not aware of the design of the filter module installation, which has essential features in the independent claim of the utility model formula, which confirms the compliance of the claimed utility model with the patentability criterion of “novelty”.

The proposed utility model is illustrated by drawings, where in FIG. 1 shows a general view of a filter module installation; FIG. 2 - a module with a first filter packet, in FIG. 3 - module with a second filter pack.

The filtering module installation contains an inlet pipe 1, a droplet eliminator 2, a heating module 3, module 4 with a first filter bag (rough, fine and highly efficient cleaning), module 5 with a second filter bag (cleaning from gas impurities, including radioactive iodine, and high-efficiency cleaning ) and the outlet pipe 6, which are mounted on the supporting farm 7. Module 4 contains a housing 8 and a first filter package 9 containing a section 10 of high-performance filter material installed tightly over the contact surface innovations with the housing, and the pre-cleaning section 10 installed in front of the high-efficiency cleaning section 11. Module 5 contains the same housing 8 and a second filter bag 12 containing layers of filter material 13 made of highly porous fiberglass non-woven material, fibrous activated carbon material, fibrous carbon impregnated material, and from thin-fiber glass paper or from non-woven fibrous material obtained by electroforming from a solution of polyamide. The housing 8 comprises a filter chamber 14 with a door 15 mounted on the side wall through seals (not shown conventionally) by means of clamping devices 16, and a clamping device 17 for tightly securing the filter packets 1 and 2 and a pipe 18 for monitoring the tightness of this connection.

Installation filter modular works as follows.

The cleaned air through the inlet pipe is introduced into the installation, sequentially passed through the inlet pipe, atomizer, heating module, module with the first filter package (coarse, fine and highly efficient cleaning), located in the technological sequence along the cleaned air stream and connected to each other by means of tight connections a module with a second filter pack (purification from gas impurities, including radioactive iodine, and highly ineffective purification) and through the outlet pipe odaetsya to external ventilation system or discharged to the atmosphere. During operation, if the background radiation, aerodynamic resistance and cleaning quality are higher than the normative values, the filter packets 9 and 12 must be replaced, for which clamping devices 16 are fastened, the door 15 is removed, freeing access to the filter packets 9 and 12, the clamping device 17 is loosened and removed filter packs 9 and 12, and fresh ones are installed in their place with all the actions performed in the reverse order. The removed filter bags 9 and 12 are sent for disposal.

The technical result when using the utility model is to simplify the design, increase ease of use and manufacturability of filter manufacturing, reduce material consumption and cost of the product.

Claims (5)

1. The filtering unit is modular, containing an inlet pipe, a vapor trap, a heating section, a coarse, fine and high-efficiency cleaning section, a section for cleaning from gas impurities, including those located in the technological sequence along the cleaned air stream and interconnected by tight connections radioactive iodine, a high-efficiency cleaning section and an outlet pipe, characterized in that the coarse, fine and high-efficiency cleaning sections are made as a separate module comprising a housing, inside which is arranged with the possibility of organizing an air flow without air leakage past the filter material, a first filter bag containing a section of high-performance filter material installed tightly on the surface of contact with the housing, and a pre-cleaning section installed in front of the highly efficient cleaning section, a gas cleaning section impurities, including from radioactive iodine, and a highly efficient cleaning section are made in the form of a separate module containing o the case, inside of which is installed with the possibility of organizing an air flow without air leakage past the filter material, a second filter package containing a sorption-filtering multilayer material placed in two sections. 2. The filtering unit modular according to claim 1, characterized in that in the first filter packet, the porosity of the filter materials of coarse, fine and highly efficient cleaning is performed with decreasing along the stream of cleaned air flow. 3. The filtering unit modular according to claim 2, characterized in that the highly efficient filtering material is made of pleated sheet with micro folds formed into macro folds, a pre-cleaning section is installed in front of the high-efficiency cleaning section, while the ratio of the areas of the filtering surfaces of the high-efficiency and preliminary cleaning sections is ranging from 3: 1 to 80: 1. 4. The filtering unit modular according to claim 1, characterized in that the sorption-filtering multilayer material of the second filter packet contains a layer made of highly porous fiberglass nonwoven material, a layer of fibrous activated carbon material, a layer of fibrous carbon impregnated material and a layer of thin fiber glass paper or a layer of non-woven fibrous material obtained by electrospinning from a solution of polyamide. 5. The filtering installation modular according to claim 1, characterized in that the housing of the individual module is the same for each of the individual modules and contains a filter chamber with a door on the side wall fixed to the chamber through the seals by means of clamping devices, a clamping device for ensuring tight sealing of the filter -packet and pipe to control the tightness of this connection.

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