RU2766220C1 - Universal container for granular fillers for the treatment of atmospheric air - Google Patents

Abstract

FIELD: air cleaning.SUBSTANCE: invention relates to technologies for the treatment of atmospheric air for cleaning it from various volatile impurities or for saturating it with various volatile substances using granular fillers impregnated with functional substances or without them, in particular, to containers and/or cartridges containing such granular fillers. The universal container includes a box-type container with a bottom, front, back and side walls and a lid with holes made in them for air passage through them. Wherein the container lid is made with the ability to access the inside of the container, holes are made only in the lid and in the bottom of the container, on one side of the container - in the lid or in the bottom - all holes are made in the form of funnels of the same shape and size, these holes are evenly distributed over the surface. In this case, these holes are oriented with a narrow part inside the container, their total number is such that their total area on the outer side of the lid or bottom would be from 15 to 35% of the total area of ​​the lid, the largest transverse dimension of the funnel-shaped openings d1 and the smallest transverse dimension of the funnel-shaped openings d2 are related to each other in accordance with the formula d1:d2=1:0.2-0.4, wherein the largest transverse dimension of the funnels d2 is less than the average size of the filler granule, and on the other side of the container - in the lid or in the bottom - the holes are made in the form of straight cylinders of the same size and shape with the largest transverse dimension d3, less than or equal to d2, they are also distributed evenly on the surface, and their total number is not less than the number of funnel-shaped holes on the other side of the container.EFFECT: creation of a universal reusable container for filling granular filler, which would allow intensifying the processes of purification and/or saturation of atmospheric air, for example, simultaneously reducing air humidity and purifying it from ethylene, as well as the ability to quickly assemble prefabricated cartridges with multifunctional capabilities from separate containers.5 cl, 1 tbl, 6 ex

Description

The invention relates to technologies for processing atmospheric air for its purification from various volatile impurities, drying, etc., or for saturating it with various volatile substances (for example, for the purpose of flavoring it) using granular fillers impregnated with functional substances or without them, in particular, to containers and/or cartridges containing such granular excipients.

The claimed technical solution can be used to increase the shelf life of fruits and vegetables in domestic and industrial refrigerators, to dry and aromatize air in various containers or rooms, to rid rooms and containers of unpleasant odors, dampness, etc. In addition, the proposed universal container with granular fillers placed in it can be used to saturate the atmosphere with fungicides or texicides in fruit stores, as well as in wardrobes and wardrobes when storing woolen and fur products, bedding, etc.

A large number of various technical solutions are devoted to the tasks of removing certain impurities from the atmospheric air, or saturating the air with various substances. Thus, a device and a method are known for maintaining a certain humidity regime inside the cavity of various products. The technical solution provides for the placement of a special drying unit on the outer side of the product, which contains cassettes with silica gel granules, and the communication of the protected cavity with the drying unit is carried out by an air duct. The absorption of moisture from the air occurs due to free circulation between the atmospheric air and the internal cavity [1, 2]. The disadvantage of this technical solution is the inability to achieve a high degree of drying.

In the field of storage of fruits and vegetables in refrigerators, great importance is attached to technologies that allow cleaning the air in the chambers from the so-called. exogenous ethylene, which is released during respiration by various menopausal fruits, as well as from ethylene, which enters the premises during the operation of forklifts powered by natural gas. Thus, methods are known for removing ethylene from chambers through the use of ultraviolet light irradiation of special catalytic cells, or through the use of ozone, which is generated in the chamber by special devices. There is also a method for removing ethylene from the atmosphere of a fruit store by oxidizing it in an apparatus with a heterogeneous catalyst with atmospheric oxygen [3].

An alternative to the use of ozone and ultraviolet light is the use of special devices in which ethylene is oxidized by passing air from the refrigerator through a cartridge with a filler, which is a granular adsorbent filler obtained from diatomite or other porous raw materials with a layer of potassium permanganate, a strong oxidizing agent. The air flow in the device is created by forced suction through the air cartridge by a pump or fan. As a variation, cylindrical cartridges are also produced, which are recommended to be hung in places where the internal air flows in the chamber are most intense, for example, at the point where the cooled air flow is injected from the chamber cooler. In this case, the cartridge is a filler filled into a cylinder made of a thin porous material, which is protected from damage from above by a polymer mesh. The cartridge is replaced as the active substance - potassium permanganate - is activated as ethylene is oxidized [4].

The closest in technical essence and the achieved result are box-type cartridges with granular filler filled inside with applied potassium permanganate, which can be used both as part of a device for oxidizing ethylene contained in the air, and separately from such a device. In the latter case, air gets inside the cartridge due to free convection. The rigidity of the cartridge gives its body, and the air enters it through the surface with fine gratings that prevent spillage of granular filler [5, prototype].

The disadvantage of the known technical solution is the low rate of purification of atmospheric air. Further, the cartridge must be placed in the zone of maximum air flow, for which it is best to hang it under a stream of cool air that enters from above the chamber, which has a height of 5-10 meters. This is extremely inconvenient. And when the cartridge is located on the floor, the speed of air flows blowing the cartridge is very low, and the design of the cartridge does not increase the intensity of the air flow inside it. In addition, as follows from the description of the well-known cartridge, it is disposable and must be disposed of after use.

The task is to create a universal container for filling granular filler, which would allow to intensify the processes of purification and/or saturation of atmospheric air, for example, simultaneously reduce air humidity and purify it from ethylene.

In addition, it would be useful if it were possible to quickly assemble prefabricated cartridges with multifunctional capabilities from separate containers, and thirdly, it would be reusable, allowing quick and convenient reloading.

The problem is solved by the claimed universal container for granular fillers for assembling multifunctional cartridges for atmospheric air processing, including a box-type container with a bottom, front, back and side walls and a lid with holes made in them for the passage of air through them, characterized in that the holes are made only in the lid and in the bottom of the container, on one side of the container - in the lid or in the bottom - all holes are funnel-shaped of the same size, these holes are evenly distributed over the surface, and these holes are oriented with a narrow part inside the container, their total number is such that the total area holes on the outer side of the lid or bottom is from 15 to 35% of the total area of the lid, the largest transverse dimension of the funnel-shaped holes d1 and the smallest transverse dimension of the funnel-shaped holes d2 are related to each other in accordance with the formula d1:d2 = 1:0.2-0, 4, with the largest transverse the funnel size d2 is smaller than the average size of the filler granule, and on the other side of the container - in the lid or in the bottom - the holes are cylindrical in shape with a transverse size d3 less than or equal to d2, they are also evenly distributed over the surface, and their total number is not less than the number of funnel-shaped holes on the other side of the container, and the side walls of the container on the outside have devices for attaching individual containers to each other.

Preferably, the lid of the universal container is hinged and provided with hooks for locking in the closed state, and for convenience, it has tabs for opening.

The claimed universal container is very easy to manufacture and use on an industrial scale, as well as use in everyday life. To make it, you only need to know the average size of the filler granules, which are a guideline when choosing the size of the holes on the lid and bottom of the container.

The body of the container and its lid can be made, but without limiting the possibilities of the claimed technical solution, by stamping, casting, gluing or screwing from various parts, as well as assembly by connecting the bottom, walls, etc. by fastening such as "thorn-groove" or "dovetail nest" or in some other way. Holes in the lid and bottom can also be made during casting, drilled, stamped, etc.

The shape of the holes in the lid and in the bottom of the container - both funnel-shaped and straight cylindrical - can be, but without limiting the possibilities of the container, round, square, oval, rectangular and any other, it is only important that they have the same shape and size, so as not to violate correctly organized flows of air flowing in and out of the container. In this case, on one side of the container, the shape of the holes can be, for example, oval or triangular, and on the other, round or rectangular, or have other possible combinations, and can also repeat the shape on the first side.

In the claimed technical solution, the term "straight cylindrical holes" describes the shape of the holes bounded by bases parallel to each other, and the bases themselves are limited by a closed line of various types, and from the sides of the holes are limited by a surface formed by this closed line and located perpendicular to the bases. This line can be a circle, oval, triangle, square, rhombus, rectangle, or any polygon. Thus, holes in the form of any straight prism are a special case of holes in the form of a straight cylinder.

If the container is made with internal sections, then it itself can be a multifunctional cartridge, and its sections are designed to be filled with granular fillers of various purposes. At the same time, multi-section containers can also be joined to each other if fasteners are provided on its side walls. Section sizes can be either the same or different.

Devices on the side walls of the container, designed to fasten individual containers to each other, can be of various design solutions, the most common of which, but without limiting the capabilities of the claimed container, is preloaded fasteners on the side walls of the container of the "groove-thorn" type ”, also called the “swallow's nest”. Then on one side wall of the container from the outside, for example, on the left wall, enclosing one or more grooves are made with an expansion into the inside of the groove, and on the opposite wall from the outside, for example, on the right wall, a spike or several spikes are made corresponding to the grooves along form and in appropriate quantities. It is also possible to have a combination of studs and grooves on one side and a corresponding combination of grooves and studs on the other side, as well as other devices known to the person skilled in the art, for example devices in the form of snap fasteners used in clothing.

The possibility of access inside the container from the side of the lid in practice means, but without limiting the possibilities of the claimed technical solution, that either the lid is made completely removable, or it is made sliding along the guide slide, or it leans to the side, or it has an opening access window inside the container. The specialist can offer any other options for accessing the inside of the container from the side of the lid to fill it with granular filler, or to replace the spent filler.

If the container lid is hinged, then the simplest variant of its manufacture, but without limiting the capabilities of the declared container, is to make the lid hinges by refining the material along the fold line.

The dimensions of the container are selected according to the task, depending on the planned period of its operation and the cubic capacity of the treated room, the type of granular filler, its bulk weight and its absorption and/or excretion abilities. The amount of impurities in the air to be removed is also important for selecting the size of the container, which, in turn, depends on the type of stored product, the intensity of its breathing, varietal characteristics, the degree of its maturity when stored, and other factors.

The container is used either separately or a single common cartridge is assembled from separate containers, each element of which can be filled with either the same granular filler or different ones, which ensures the versatility of the assembled cartridge. When assembling the cartridge, use the fasteners on the outer side walls of the containers, if provided.

The universal container or the cartridge assembled from individual containers is placed in places of the strongest air movement, usually, but without limitation, vertically on the floor of the chamber in order to facilitate access of air to the bottoms and lids of the containers, thus turning the lower side wall of the first container into prefabricated cartridge in its base. It is desirable to orient the individual containers and the cartridges assembled from them in such a way that the internal air currents arrive at an angle close to a right angle with respect to the funnels on the outer surfaces of the containers.

It is also possible to place individual containers and the cartridges assembled from them suspended at a certain height, orienting them in space in such a way that the internal air flows come at an angle close to a right angle with respect to the funnels on the outer surface of the containers. To this end, they can be located in space both vertically and horizontally, as well as at an angle, best of all - in the immediate vicinity of the cooling device inside the chamber, which pumps cooled air into the chamber.

However, the inventive container will work quite effectively even when located indoors away from the formed flow of cooled air, or in the absence of such organized flows, because the shape of the holes on its surface and their distribution contribute to the flow of air into the container - similar to how deflectors work on roofs of buildings to create a continuous air flow for ventilation of attics under the influence of wind flowing around the deflector from any side. However, there is no complete analogy here, since the deflectors are not included in the design of the claimed container, and the result obtained is not obvious. Moreover, the narrowing of the holes in the path of the air flow through the container, at first glance, should impede the access of air to the filler, but in reality everything happens exactly the opposite. This allows us to consider the claimed technical solution as corresponding to the criteria of "Novelty" and "Inventive Step".

Ease of manufacture, simplicity and efficiency of application of the claimed container in industrial and/or domestic chambers for various purposes, as well as the ease of its recharging, which consists in simply pouring out the spent filler and replacing it with a fresh one, allow us to consider the claimed technical solution as meeting the "Industrial applicability" criterion.

The claimed generic container and its use is illustrated by the following examples:

Example 1

Several universal containers are made with the aim of their further use in a relatively small chamber of an industrial refrigerator. Containers are designed for filling granular filler with granule size from 3.5 to 10 mm. Container material - textolite, assembly method - gluing, wall thickness - 5.5 mm. The lid of the container is completely removable on latches with additional fixation with bolts and nuts. Devices on the side walls for assembling several containers into a single cartridge - three rows of dovetail-type fasteners. Container dimensions (internal): length - 360 mm, width - 210 mm, depth - 105 mm.

Funnel-shaped holes are made in the lid of the container, straight cylindrical ones - in the bottom, and all the holes are evenly distributed. The shape of the conical holes is round, the shape of the cylindrical holes is square. The number of holes in the lid of the container is 199. The largest transverse dimension of the conical funnel holes d1 on the outer side of the container is 11.0 mm, the largest transverse dimension of the funnel holes on the inner side d2 is 3.3 mm, the ratio d1:d2 is 1:0.30 . The surface area of the container lid is 75600 mm ² . The total open surface area of the funnels on the outer side of the container is about 18911 mm ² , which corresponds to 25% of the total surface of the container lid.

The number of straight cylindrical holes in the bottom of the container is 225, the shape is square, their largest transverse dimension d3 is 3.1 mm.

In the first two containers, 6.5 kg of granular diatomite filler with a granule size of 4.5 mm, containing about 5 wt. % potassium permanganate. 5.2 kg of freshly calcined silica gel "KSKG GOST 3956-76" with a granule size of 4.1 mm is poured into the third container. The lids of the containers are closed with latches, after which all three containers are assembled into a single cartridge.

Then the assembled cartridge is placed on the floor of an industrial refrigerator in a chamber with an internal volume of 340 m ³ , in which 71.4 tons of Spartan apples pre-treated with 1-methylcyclopropene are stored in industrial plastic containers. Chamber operation mode - normal atmosphere, storage temperature +1.0°С.

When the cartridge was inserted into the chamber, the ethylene level measured by the SKY6000 gas analyzer was 1.9 ppm. After placing the cartridge in the chamber, the ethylene level is measured daily, without daily ventilation of the chamber, as required by technology. On the first day of measurements, the ethylene level dropped to 0.4 ppm, and on the following days it fell below the instrument's detection limit of 0.1 ppm. After 18 days of daily measurements, the ethylene level in the chamber begins to rise, indicating that the potassium permanganate reserves in the cartridge have been used up.

After 18 days, the filler in the containers containing potassium permanganate is replaced with a fresh one. At the same time, the silica gel in the third container is also replaced, since the previous filler has taken moisture from the air and has become wet to the touch. The cartridge is then reassembled and the ethylene level is measured daily again. This time, the filler is enough for 21 days of observations.

This example illustrates the industrial performance of the claimed universal containers assembled in a multifunctional cartridge.

Example 2

A universal container is made for use in a conventional household refrigerator with a 450 liter cold chamber volume. Inside the container is divided into three sections of the same size for filling with granular filler with a granule size of 4.0 to 6.0 mm. the internal partitions of the sections are made flush with the longitudinal and side walls of the container and polished. The cover of the container is completely removable, on latches. There are no devices for fastening several containers into a single cartridge. The material for the manufacture of the container is a polyvinyl chloride composition, the manufacturing method is casting, the wall thickness is 4.5 mm. Container dimensions (internal): length - 360 mm, width - 84 mm, depth - 50 mm.

The funnel-shaped holes are hexagonal in shape and made in the lid of the container, the cylindrical ones are round in shape and made in the bottom, and all the holes are evenly distributed. The number of holes in the lid of the container is 270. The largest transverse dimension of the conical funnel holes d1 on the outer side of the container is 5.0 mm, the largest transverse dimension of the funnel holes on the inner side d2 is 2.0 mm, the ratio d1:d2 is 1:0.40 . The surface area of the container lid is 30240 mm2. The total open surface area of the funnels on the outer side of the container is about 5301 mm ² , which corresponds to 17.5% of the surface area of the container lid.

The number of straight cylindrical holes in the bottom of the container is 330, their largest transverse dimension d3 is 2.0 mm.

In the first section of the container, 380 g of granular diatomite filler with a granule size of 2.5 mm, containing about 5 wt. % potassium permanganate. 85 grams of activated carbon BAU A with a granule size of 4.6 mm is poured into the second section of the container. 340 g of freshly calcined silica gel "KSKG GOST 3956-76" with a granule size of 4.1 mm is poured into the third section of the container.

The lid of the container is closed with latches, after which the filled three-section container is placed on the upper lattice shelf of a regular household refrigerator "Sharp SJ-XG60PMSL" with a refrigerating chamber volume of about 422 liters. A plastic tube with a plug is brought out through the wall of the refrigerator, which allows you to analyze the air inside the refrigerator.

5.5 kg of fresh kiwi, 1.8 kg of avocado and 2.54 kg of Granny Smith apples are placed in the vegetable drawer on the bottom shelf of the refrigerator. Neither kiwifruit nor apples were treated with 1-methylcyclopropene. The storage temperature of fruits in the vegetable drawer of the refrigerator is +3.0°C.

Simultaneously with fruits, other food products are stored in the refrigerator - cheese, cottage cheese, semi-smoked sausage, etc., periodically removing food and replenishing stocks with fresh ones.

After placing the fruits in the refrigerator, daily measurements of the ethylene content in the atmosphere of the refrigerator compartment begin.

During the first 2 days of storage, the ethylene concentration in the refrigerator settled at 4.6 ppm. A week later, the concentration dropped to 1.5 ppm, and a week later it stopped at 0.8 ppm. 45 days after the start of storage, the ethylene concentration began to increase again and after 5 days reached a value of 19.8 ppm, from which it was concluded that the contents of the container, in terms of the efficiency of air purification from ethylene, were enough for 45 days of operation.

After that, the quality of the stored fruits was checked. It turned out that approximately 100% of the apples remained fresh at the beginning, 150 grams of avocado and 230 grams of kiwi began to deteriorate. All good fruits look great, with no signs of mold or other damage. At the same time, there were no extraneous or unpleasant odors in the refrigerator.

This example illustrates that a multi-section container filled with granular fillers of various functional purposes helps to cope with extending the shelf life of fruits in a domestic refrigerator, which makes it possible to recommend the use of universal containers for use not only in industrial, but also in domestic refrigerators.

Example 3

Several universal containers are made for further use in a conventional household refrigerator with a refrigerating chamber volume of up to 330 liters.

Containers are designed for filling granular filler with a granule size of 2.5 to 5 mm. Container material - food-grade plastic based on high-pressure polyethylene, manufacturing method - stamping, wall thickness - 3.5 mm, hinged lid with hooks and tongue, devices on the side walls for assembling several containers into a single cartridge - two rows of dovetail-type fasteners ". Container dimensions (internal): length - 120 mm, width - 84 mm, depth - 50 mm.

The conical funnel-shaped holes are oval in shape and made in the bottom of the container, the cylindrical ones are triangular in shape and made in the lid, all holes being evenly distributed. The number of holes in the bottom of the container is 180. The largest transverse dimension of the conical funnel holes d1 on the outer side of the container is 5.0 mm, the largest transverse dimension of the funnel holes on the inner side d2 is 1.25 mm, the ratio d1:d2 is 1:0.25 . The surface area of the container lid is 10080 mm2. The total open surface area of the funnels on the outer side of the container is about 3528 mm ² , which corresponds to 35% of the total surface of the container lid.

The number of straight cylindrical holes in the bottom of the container is 180, their largest transverse dimension d3 is 1.1 mm.

In the first container, 330 g of granular diatomite filler with a granule size of 2.5 mm, containing about 5 wt. % potassium permanganate. 80 grams of activated carbon BAU A with a granule size of 4.6 mm is poured into the second container. 310 g of freshly calcined silica gel "KSKG GOST 3956-76" with a granule size of 4.1 mm is poured into the third container. The lids of the containers are closed with latches, after which all three containers are assembled into a single cartridge.

The assembled cartridge is then placed on the top shelf of a conventional household refrigerator "HAIER C2 F 637 CXRG" with a refrigerator volume of about 325 liters. A plastic tube with a plug is brought out through the wall of the refrigerator, which allows you to analyze the air inside the refrigerator.

On the lower shelf of the refrigerator in a vegetable box, 3.5 kg of Idared apples and 1.4 kg of Renet Simirenko apples are placed. The apples were not treated with 1-methylcyclopropene as they were taken directly from the orchard immediately after they were harvested.

Simultaneously with apples, other food products are stored in the refrigerator - cheese, cottage cheese, semi-smoked sausage, etc., periodically removing food and replenishing stocks with fresh ones.

The storage temperature of fruits in the vegetable drawer of the refrigerator is +3.5°C.

After placing the apples in the refrigerator, daily measurements of the ethylene content in the atmosphere of the refrigerator compartment begin.

Simultaneously with apples, other food products are stored in the refrigerator - cheese, cottage cheese, semi-smoked sausage, etc., periodically removing food and replenishing stocks with fresh ones.

During the first 4 days of storage, the ethylene concentration in the refrigerator settled at 5.5 ppm. A week later, the concentration dropped to 1.8 ppm, and a week later it stopped at 0.35. 120 days after the start of storage, the ethylene concentration began to rise again and after 5 days reached a value of 9.8 ppm, from which it was concluded that the content of the cartridge in terms of air purification from ethylene was enough for 120 days of operation. After that, the quality of the stored apples was checked. It turned out that about 350 grams of apples began to spoil, while the rest looked quite fresh, with no signs of mold damage or other damage. At the same time, there were no extraneous or unpleasant odors in the refrigerator.

This example illustrates that the cartridge, assembled from the claimed universal containers, helps to cope with the extension of the shelf life of fruits in a domestic refrigerator, because. a period of 4 months is very long in duration, which makes it possible to recommend this method of storage not only for industrial, but also for domestic refrigerators.

Example 4

The containers described in example 3 are used to prevent moth damage to various woolen and fur items in the wardrobe. To this end, the first such container is filled with pieces of naphthalene, and the second with silica gel, after which the cartridge is assembled from two containers and placed in a wardrobe with an internal volume of 32 m ³ . The wardrobe, located on the first floor of a country house in Zhukovsky near Moscow, contains from 46 to 55 woolen and fur garments at the same time.

Observations on clothes are carried out for one year, periodically opening the doors of the wardrobe for 6 hours once a week in spring, summer and autumn (so that pests have the opportunity to get into the wardrobe). As a result of observations, it turned out that not a single thing was damaged by moths or other pests. Mold on things also did not appear, despite the rather damp weather, which was periodically during the season.

This example shows that the declared functional containers not only dehumidify the room, but also saturate the air inside the room with volatile substances necessary for specific purposes.

Example 5

The container is made according to example 2, but funnel-shaped holes are made in the bottom, and the lid is made sliding on a slide and fixed with hooks in the closed state.

The main parameters of universal containers according to examples 1-6 are presented in the table:

An additional advantage of the claimed universal container is that through the holes in the lid and in the bottom it is easy to observe the change in the color of the granular filler, if such a property is given to the filler by the manufacturer. Typically, such a change in color indicates the exhaustion of the functional abilities of the filler and means that it is time to replace the filler with fresh one.

Sources of information taken into account:

1. RF patent No. 2629743 IPC B65D 88/38, publ. 08/31/2017

2. A.s. USSR No. 1509842, IPC C05D 22/02, publ. December 11, 1980

3. RF patent No. 1800667, IPC B01D 53/72, publ. 07/03/1993

4. Description of cylindrical granular cartridges in the link:

http://inter-fresh.com/wp-content/uploads/2019/08/ethylene_presentation.pdf

5. Description of the box-shaped cartridge with granular filler at the link: http://www.tesso-agro.ru/sites/default/files/Tesso_BioXTEND%20BP12-18.pdf

Claims (5)

1. A universal container for granular fillers for processing atmospheric air, including a box-type container with a bottom, front, back and side walls and a lid with holes made in them for the passage of air through them, characterized in that the container lid is made with the possibility of access to the inside of the container , holes are made only in the lid and in the bottom of the container, on one side of the container - in the lid or in the bottom - all holes are made in the form of funnels of the same shape and the same size, these holes are distributed evenly over the surface, and these holes are oriented with a narrow part inside the container, their total number is such that the total area of the holes on the outer side of the lid or bottom is from 15 to 35% of the total area of the lid, the largest transverse dimension of the funnel-shaped holes d1 and the smallest transverse dimension of the funnel-shaped holes d2 correlate with each other in accordance with the formula d1:d2= 1:0.2-0.4, and the most The larger transverse size of the funnels d2 is smaller than the average size of the filler granule, and on the other side of the container - in the lid or in the bottom - the holes are made in the form of straight cylinders of the same size and the same shape with the largest transverse dimension d3 less than or equal to d2, they are also distributed evenly over surface, and their total number is not less than the number of funnel-shaped holes on the other side of the container. 2. Universal container according to claim. 1, characterized in that the interior of the universal container is divided into several sections by partitions, which are made flush with the longitudinal and side walls. 3. Universal container according to claim 1 or 2, characterized in that the side walls of the container on the outside have devices for attaching individual containers to each other. 4. Universal container according to one of paragraphs. 1-3, characterized in that the lid of the container is made hinged, and is equipped with hooks for fixing in the closed state, and has tongues for opening. 5. Universal container according to one of paragraphs. 1-3, characterized in that the cover of the container is made sliding along the guide slide and is provided with hooks for fixing in the closed state.