RU186454U1 - HYPERBARIC GAS CLEANING DEVICE - Google Patents

Abstract

The utility model relates to the field of deep-sea and diving equipment, namely to devices for cleaning the gas medium under high pressure, and can be used in pressure chambers, diving bells, underwater vehicles.

The hyperbaric device for cleaning the gas medium consists of a housing with a built-in electric motor and impeller, as well as a removable perforated carbon dioxide absorption cartridge with a chemical absorber installed on the suction side. A filter in the form of a bag made of Petryanov’s fabric filled with a chemical absorber of carbon dioxide is installed in the carbon dioxide absorption cassette, and a removable harmful substances absorption cassette is additionally installed on the suction side. The impeller is made in the form of vanes bent in the direction of rotation, which ensure the creation of a centrifugal flow.

Description

The utility model relates to the field of deep-sea and diving equipment, namely to devices for cleaning the gas medium under high pressure, and can be used in pressure chambers, diving bells, underwater vehicles.

Known hyperbaric device for cleaning the gas environment from carbon dioxide "DH-21" (company "DIVEX", Scotland), consisting of a housing with a built-in electric motor and an impeller, as well as a removable perforated carbon dioxide absorption cartridge with a chemical absorber installed on the suction side - prototype [1]. The electric motor power is 10-12 watts. The impeller creates axial gas flow during movement through a removable absorption cassette filled with a chemical absorber of carbon dioxide. The flow rate is regulated, depending on the magnitude of the external pressure, automatically by an electronic control circuit located in the housing of the device in a sealed capsule together with an electric motor. A sealed capsule is needed because electronic control circuit does not work in conditions of high pressure of the gas medium. The device is operable at pressures up to 3 MPa (30 kgf / cm ² ).

However, the design of this device has a number of significant drawbacks:

- the complex design of the device due to the presence of a sealed capsule containing an electric motor with an electronic control circuit;

- the inability to clean the gas environment from carbon dioxide, harmful substances and bacteria due to the presence of only one cartridge;

- development of a chemical absorbent of carbon dioxide uneven in volume of the cartridge due to the design of the impeller creating an axial flow and due to insufficient pressure (low electric motor power);

- replacement of the absorber in the cassette can be carried out in special rooms, requires special equipment and takes a lot of time.

The objectives of the utility model are to simplify the design; cleaning the gas environment not only from carbon dioxide, but also from harmful substances, as well as bacteria.

The problem is achieved in that in the known hyperbaric device for cleaning the gas medium, consisting of a housing with a built-in electric motor and an impeller, as well as a removable perforated carbon dioxide absorption cartridge with a chemical absorber installed on the suction side, according to a utility model, the impeller is made in the form of bent in the direction rotation of the blades, providing a centrifugal flow through the carbon dioxide absorption cassette, while in the cassette a filter is installed in the form of Single fabric Petryanov filled with chemical carbon dioxide absorber and the intake side of the housing is further mounted a removable cassette absorption of harmful substances.

The technical result from the use of the invention is to simplify the design, ensuring the purification of the gaseous medium not only from carbon dioxide, but also from harmful substances and bacteria.

A schematic diagram of the described device is shown in FIG.

The hyperbaric device for cleaning the gas medium consists of a metal casing 1 with a built-in induction motor 2 and an impeller 3 fixed on its shaft to provide gas flow through the unit, two metal, removable, perforated cassettes, one of which is installed on the suction side 4 and has a removable through the unit , two metal, removable, perforated cassettes, one of which is installed on the suction side 4 and has a removable fabric filter 5 from Petryanov’s fabric. The filter 5 has the form of a bag filled with a chemical absorber of carbon dioxide 6. The second cartridge 7 is installed on the discharge side of the fan and serves to clean the gas environment from harmful substances. Both cassettes are installed and secured to the housing using tensioning screws 8 for quick replacement during operation as the cassettes are worked out.

To provide the electric motor with the appropriate voltage, an electrical connector 9 is installed on the unit body.

To install the cleaning unit at the facility on its body there is a mounting plate 10.

Hyperbaric gas purification device operates as follows.

The device using the mounting plate 10 on the housing 1, is installed and fixed at the facility. A cassette for harmful substances 7 is mounted on the housing 1, on the suction side of the gas medium, and secured with tensioning screws 8. A filter 5, pre-filled with a chemical absorber of carbon dioxide 6, is installed inside the cassette 4. The assembled cassette 4 is mounted on the housing 1 of the cleaning unit, with side of the discharge of the gaseous medium and is fixed with tensioning screws 8.

The device is connected to work by supplying a voltage of 12 V through connector 9, while the electric motor 2 drives the impeller 3. The rotation of the impeller 3 creates a gas stream, which is sucked in through the cartridge 4 with the filter 5 and, passing through the cartridge 7, is ejected outside the device through the upper perforated end surface. To increase the pressure, the electric motor power was increased to 20 W and the impeller was installed in the form of vanes bent in the direction of rotation, which ensure the creation of a centrifugal flow through the device with a high degree of rarefaction at its low flow rate (100-130 mm water column and 10-12 m ³ / h).

The cleaning device is turned off by shutting off power to it.

As the chemical absorption of carbon dioxide 6, a chemical lime absorber XP-I, KP-IK, KhPI-G or a similar chemical absorber is used. When working off the carbon dioxide absorber, the cleaning device is turned off, the cartridge 4 is disassembled and a filter 5 with the spent absorber is removed from it, which is transferred to a special room for re-equipment. The filter 5 is filled with a new absorber 6, after which it is again installed in its regular place in the cleaning device. The shape of the filter (bag) is due to the possibility of operational reloading of the carbon dioxide absorption cassette 4.

As the material of filter 5, Petryanov’s fabric is used, which allows bacteria to be cleaned of the gaseous medium.

The cassette 7 for cleaning of harmful substances is integral and is replaced entirely as it develops its resource. The procedure for replacing this cartridge is similar to cartridge 4. As filter cartridge 7, the FCB-25 filter cartridge can be used.

Depending on the type of chemical scavenger used, the operating time of the cleaning device before replacing the chemical scavenger is 20-30 hours. The pressure at which the device can be used is from 0 to 3 MPa (30 kgf / cm ² ).

The described hyperbaric device for cleaning the gas medium was created and tested in pressure chambers such as PDK-2u, RKMu, as well as in the barcode complex GRK-30. According to its technical parameters, it has a simple design and allows you to expand the functionality due to the possibility of cleaning not only from carbon dioxide, but from harmful substances and bacteria.

Literature:

1. Materials of the website www. divex-uk.com.

Claims (1)

A hyperbaric device for cleaning the gas medium, consisting of a housing with a built-in electric motor and an impeller, as well as a removable perforated carbon dioxide absorption cartridge with a chemical absorber installed on the suction side, characterized in that the impeller is made in the form of vanes bent in the direction of rotation, which ensure centrifugal flow through carbon dioxide absorption cassette, while in the cassette a filter is installed in the form of a bag of Petryanov’s fabric filled with a chemical absorber carbon dioxide, and on the suction side, a removable harmful substances absorption cassette is additionally installed on the housing.

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