RU156865U1 - DEVICE FOR CLEANING THE AIR IN THE VEHICLE CAB - Google Patents

Abstract

1. A device for cleaning air in the cab of a vehicle, comprising a housing partially filled with irrigation fluid, with a tangential outlet for clean air and an axial inlet of contaminated air with a rubber bellows, a freely suspended contact element, the working part of which is made in the form of a conical vessel with perforated walls over which a spray deflector is mounted, characterized in that the walls of the conical vessel are made at an angle of 28-30 ° to the vertical axis of the device, and its bottom is made concave, the mouth of the contact element is located at a distance of 40-50 mm from the highest point of the bottom of the vessel, the perforation holes in the walls of the conical vessel are also located at the highest point of the bottom of the conical vessel and are made in the form of channels whose diameter is from 5 to 8 mm and in increments between them from 10 to 16 mm, and their axes are parallel to the central axis of the device. 2. The device according to claim 1, characterized in that the spray deflector is made in the form of a convex apron. 3. The device according to claim 1, characterized in that the conical vessel is made of plastic. 4. The device according to claim 1, characterized in that the walls of the conical vessel are made from 5 to 6 mm thick. The device according to claim 1, characterized in that an air filter for fine air purification made of sphagnum moss is fixed on the axial inlet in front of the bellows. The device according to claim 5, characterized in that the air filter is made in the form of a removable cartridge.

Description

The utility model relates to the field of gas cleaning, in particular to devices for cleaning the supply air from dust and harmful substances in the cabs of self-propelled vehicles used in seasonal work.

A device for cleaning air in the cabs of land vehicles, comprising a housing partially filled with irrigation fluid, with a tangential outlet for clean air and an axial inlet of contaminated air with a rubber bellows, a freely suspended contact element, the working part of which is made in the form of a conical vessel with perforated walls over which the splash guard is fixed (SU No. 679226, class B01D 47/02 1979)

The disadvantages of this device is the unstable work of collecting fine dust as a result of its accumulation in the "stagnant zone" near the bottom of the working part of the vessel with perforated walls, which reduces the ejection of the washer fluid on the inner surface of the chamber wall due to a decrease in the passage section of the perforation holes.

The objective of the utility model is to develop a device that provides stable ejection of the washing fluid in the working part of the contact element.

The technical result of the utility model is to increase the efficiency of the device while increasing the degree of air purification.

The task and the specified technical result are achieved in that the device for air purification in the vehicle cabin includes a housing partially filled with irrigation fluid, with a tangential outlet for clean air and an axial inlet of contaminated air with a rubber bellows, a freely suspended contact element, the working part of which is made in the form of a conical vessel with perforated walls, over which a spray deflector is fixed. According to a useful model, the walls of the conical vessel are made at an angle of 28-30 ° to the vertical axis of the device, and its bottom is concave in shape, while the mouth of the contact element is located at a distance of 40 to 50 mm from the highest point of the bottom of the vessel, perforation holes in the walls of the conical vessel are also located at the highest point of the bottom of the conical vessel and are made in the form of channels, the diameter of which is from 5 to 8 mm and with a pitch between them of 10 to 16 mm, and their axes are parallel to the central axis of the device. Spray reflector is made in the form of a convex apron. The conical vessel is made of plastic with a wall thickness of 5 to 6 mm. An air filter for fine air purification, made of sphagnum moss in the form of a removable cartridge, is fixed on the axial inlet in front of the bellows.

The implementation of the spray deflector in the form of an oval-shaped apron mounted above the tightness chamber allows you to re-change the direction of the outgoing air flow from the conical vessel, reduce the entrainment of the spray with the upward flow, and direct droplets of liquid with trapped coagulated dust into the housing of the irrigation fluid.

The completed central part of the bottom of the conical vessel of a concave shape and the slope of the vessel walls from 28 to 30 ° forms a zone for a complete turn and opening of the air flow at a distance of 40 to 50 mm from the mouth of the contact element, excluding the formation of a "stagnant zone" at the bottom of the conical container, which provides effective ejection of irrigation fluid through the perforation channels, on the inner surface of the tank being washed.

The slope of the walls of the tank from 28 to 30 ° to the vertical axis of the device provides the optimal opening angle of the return air flow necessary to reduce the loss of full pressure in the tank and evenly distribute the velocity field in the area adjacent to the inner surface of the wall of the conical tank for efficient ejection of irrigation fluid from the housing installations along perforation channels made along the perimeter of the vessel walls at the level of the maximum convexity point of the bottom profile.

The diameter of the channel openings from 5 to 8 mm, formed in the walls of a conical container with a wall thickness of 5-6 mm, provides free recirculation of the washer fluid, in which there are suspended fractions of the captured fine dust, and a step of 10 to 16 mm between the channels - uniform ejection of the washer liquid from the perforation channels to the inner surface of the container and the formation of the optimal thickness of the liquid film for trapping and removing dust.

The replaceable fine filter cartridge from sphagnum moss ensures the capture of fine dust less than 5 microns from the upward air flow, and the high hygroscopic properties of the sphagnum reduce the moisture content of the air due to partial entrainment and evaporation of moisture from the restriction chamber.

The device is illustrated by drawings, where in FIG. 1 is a longitudinal section through an air purifier; in FIG. 2 - sectional perforation channels.

A device for purifying air in a vehicle cabin includes a housing 1 partially filled with irrigation fluid. The housing 1 in the upper wall contains a tangential outlet 2 for clean air, and on top there is an axial inlet 3 for polluted air, connected to a contact element, including: pipe 4 with nozzle 5, rubber bellows 6 and conical container 7. A spray deflector 8 is fixed to pipe 4 oval shape 8, the form of a guide apron connected to a conical tank 7. The tank 7 is made with a concave bottom 9 and the walls forming an angle of inclination to the vertical axis of the device from 28 to 30 °. On the wall of the vessel 7 around the perimeter, at the level of the maximum convexity point of the bottom 9, perforation channels 10 are formed with a diameter of 5 to 8 mm and with a step along the axes between them of 10-16 mm. On the axial inlet 3, a removable cartridge 11 of the fine filter of sphagnum moss air is fixed.

The device operates as follows.

The lower part of the housing 1 is pre-filled with liquid. The working part of the conical container 7 is immersed in a liquid and, according to the law of communicating vessels through perforation channels 10, is also filled with liquid. Full immersion of the container 7 to the bottom of the housing 1 is limited to a rubber bellows 6, which in this case is stretched. When you turn on the exhaust fan (not shown in FIG.) Connected to the tangential terminal 2, a vacuum is created in the housing 1. As a result of the discharge, the air flow with the dust particles suspended in it is sucked into the axial inlet 3. Then, air through the bellows 6 and the nozzle 4 at a speed of 20-30 m / s from the mouth of the nozzle 5 enters the conical tank 7, hits the irrigating liquid, sprays and completely removes it from the volume of the tank 7 to the lower part of the housing 1. Under the influence of the dynamic pressure of the reverse air flow that developed at the bottom 9 and flows around the spray deflector 8, the contact element tank 7 acquires positive buoyancy by compressing the rubber bellows 6. Installation enters operating mode.

The incoming air-dust flow from the mouth of the nozzle 5 to the container 7, having reached the bottom 9, changes its direction and, moving along the inner wall of the container 7, ejects the washer fluid from the housing 1 through the perforation channels 10 onto the inner surface of the container 7, forms the thickness of the liquid film that wets , collects and removes dust from the tank 7 into the housing 1. By flowing around the oval shape of the apron - splash deflector 8, the air stream goes around it and rushes to the top, and droplets of liquid with trapped dust and settled on the surface of the apron - deflector I 8 merge into the lower part of the housing 1. The air cleaned from the container 7 from dust from 5 to 10 microns in size rises upward to the tangential terminal 2 through the filter cartridge 11, in which it is further cleaned from dust fractions of less than 5 microns and moisture generated as a result evaporation and partial drip entrainment.

When lowering the liquid level in the housing 1, the capacity 7 due to its own mass gradually lowers into the lower part of the housing 1, stretching the bellows 6, providing effective air purification of the device until the level of the irrigating liquid is higher than the level of entry into the perforation channels 10, i.e. provides a significantly longer period of effective operation of the device on a limited amount of irrigation fluid.

Thus, the improvement of the contact element and the additional installation of a fine filter for air purification in the device ensure the achievement of a positive technical result.

Currently, at the Department of Life Safety and Ecology, Tver State Technical University, the proposed device has passed experimental laboratory tests.

Claims (6)

1. A device for cleaning air in the cab of a vehicle, comprising a housing partially filled with irrigation fluid, with a tangential outlet for clean air and an axial inlet of contaminated air with a rubber bellows, a freely suspended contact element, the working part of which is made in the form of a conical vessel with perforated walls over which a spray deflector is mounted, characterized in that the walls of the conical vessel are made at an angle of 28-30 ° to the vertical axis of the device, and its bottom is made concave, the mouth of the contact element is located at a distance of 40-50 mm from the highest point of the bottom of the vessel, the perforation holes in the walls of the conical vessel are also located at the highest point of the bottom of the conical vessel and are made in the form of channels whose diameter is from 5 to 8 mm and in increments between them from 10 to 16 mm, and their axes are parallel to the central axis of the device. 2. The device according to claim 1, characterized in that the spray deflector is made in the form of a convex apron. 3. The device according to p. 1, characterized in that the conical vessel is made of plastic. 4. The device according to claim 1, characterized in that the walls of the conical vessel are made of a thickness of 5 to 6 mm. 5. The device according to claim 1, characterized in that an air filter for fine air purification made of sphagnum moss is fixed on the axial inlet in front of the bellows. 6. The device according to p. 5, characterized in that the air filter is made in the form of a removable cartridge.

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