RU2027955C1 - Air processing device - Google Patents

Abstract

FIELD: ventilation and air-conditioning systems. SUBSTANCE: panel is located on housing with louvres in holes of inlet and outlet headers on side of room. Insert is secured in housing through dampening gasket, partition and three high-frequency filters. Sound-absorbing system has sound-absorbing inlet and outlet headers, chamber, partition and high-frequency filters. Sound-absorbing system is secured on insert. Air-cleaning filter is mounted before inlet header which is brought in communication via first high- frequency filter with chamber whose outlet is connected via second high-frequency filter with outlet header where heat exchanger is located between second and third filters. Headers are divided by partition. Each high-frequency filter is made in form of two-row cellular unit with rectangular passages. Length of passage of one row is less than length of passage of other row and more than side of section. EFFECT: enhanced reliability. 2 cl, 3 dwg

Description

 The invention relates to techniques for ventilation and air conditioning.

 A device for processing air containing air-purifying filters, a soundproofing partition, a soundproofing housing is known.

 However, the known device allows you to clean the air drawn in from the room without communication with the atmosphere and the sound absorption system is not effective enough.

 A device for air processing, taken as a prototype, comprising a housing with shutters in the openings of the inlet and outlet manifolds, a panel placed on the housing side of the building, an air purifying filter, a heat exchanger, a compressor, a chamber and a sound absorption system.

 The disadvantages of the known device is that the sound absorption system, made in the form of a triangular partition, does not eliminate the noise created by the transport, and reduce it to a comfortable level, and requires a compressor with increased power.

 The aim of the invention is to increase the efficiency of air processing by improving sound absorption.

 This goal is achieved in that the device for air treatment, comprising a housing with shutters in the openings of the inlet and outlet manifolds, a panel placed on the housing side of the building, an air purifying filter, a heat exchanger, a compressor, a chamber and a sound absorption system, further comprises an insert mounted in the housing through a damping pad, a partition and three high-pass filters, while the sound absorption system includes sound-absorbing input and output collectors, a camera, a partition ku, as well as high-frequency filters, with the sound absorption system mounted on the insert, an air-cleaning filter located in front of the inlet manifold communicated through the first high-pass filter to the camera, the output of which through the second high-pass filter is connected to the output manifold, the heat exchanger is located in the latter between the second and third high-pass filters and the input and output collectors are separated by a partition, in addition, each high-pass filter is made in the form of a two-row mesh block with channels and a rectangular section, while the channel length of one row is less than the length of the other row and greater than the side of the section.

 The essence of the invention lies in the fact that the proposed design, mounted in a window opening, allows you to clean the atmospheric air supplied to the room from harmful gases, vapors and aerosols that are harmful to human health, and also reduce noise levels to standards (40 dB).

 Air-purifying filters containing a replaceable set of adsorbent and aerosol filter provide purification of supply air for the following components: aerosol no worse than 99%; acid gases not worse than 96%; petroleum hydrocarbons and organic solvents not worse than 80-95%.

 The sound absorption system contains three high-frequency filters, the location of which in space along the path of the air flow and the structural design allows, along with the noise generated by urban transport, to weaken the aerodynamic noise transmitted by the gas-air environment during compressor operation. In addition, noise reduction is achieved by the use of a soundproofing partition filled with vibration-insulating material and the implementation of a sound-absorbing casing of vibration-insulating material.

 The device comprises a housing 1 with shutters 2-1, 2-2 in the openings 3 and 4 of the inlet and outlet headers 5-1, 5-2, respectively, air-purifying filters 6 (not shown in FIG. 1), a heat exchanger 7, a compressor 8 with a chamber 9 and a sound absorption system in the form of three high-pass filters 10-1, 10-2, 10-3, a sound-absorbing partition 11 and a sound-absorbing casing 12.

 The housing 1 is made in the form of a panel 13 and a casing 14 with an insert 15 on which air cleaning filters 6, a heat exchanger 7, a compressor 8 with a chamber 9 and a sound absorption system are located, the insert 15 being fixed in the input part of the casing 14 through a damping pad 16. The air cleaning filters are located in front of the input collector 5-1 connected through the first high-pass filter 10-1 to the input of the chamber 9 of the compressor 8, the output of which through the second high-pass filter 10-2 is connected to the input of the output collector 5-2, in the middle of which a heat exchanger 7 is located, and a third high-pass filter 10-3 is installed at the output. The input and output headers 5-1 and 5-2 are separated by a sound-absorbing partition 11, and the sound-absorbing casing 12 covers the chamber 9 of the compressor 8 and the output manifold 5-2, and the panel 13 of the housing 1 is mounted on the casing 14 through a damping pad 17.

 The cavities of the inlet and outlet manifolds are separated by guides 18-1 and 18-2, respectively, with openings 19 at the inlet, in front of which a removable cover 20 with openings 21 is mounted.

 A heat exchanger 7 is installed in the cavity 22, the control 23 of which is located on the panel 13.

 The device is installed in a box 24, and the room was sealed using a shaped strip 25 with a plastic element 26 tightened by bolts 27. The window glass 28 is mounted on the frame 29 by pressure bars 30.

 Each high-pass filter 10-1, 10-2, 10-3 is made in the form of a two-row mesh block with rectangular channels 31 with sides a and a length b of channel 31 of one row and length c of channel 31 of another row. In this case, the condition a <b <c must be met, which allows to increase the efficiency of suppression of total noise.

 The device operates as follows.

 Polluted air from the atmosphere under excessive pressure enters through the louvers 2-1 into the opening 3 to the air-purifying filter 6, where it is cleaned from aerosols no worse than 99%, acid gases no worse than 96%, oil hydrocarbons and organic solvents no worse than 80-95%. The air purifying filter 6 comprises a replaceable adsorbent kit and an aerosol filter. Purified from harmful impurities, the atmospheric air through the holes 19 through the inlet manifold 5-1 enters the first high-pass filter 10-1, the cutoff frequency of which lies above the audible frequencies created by urban transport. The air stream with partially attenuated traffic noise is pumped by compressor 8 into the output manifold 5-2, at the inlet of which a second high-pass filter 10-2 passes, at the output, a third high-pass filter 10-3, together forming a band-pass filter, the medium frequency of which lies in the region of inaudible frequencies, and along with the noise generated by urban transport, weaken the aerodynamic noise transmitted by the gas-air environment when the compressor is running 4. Passing through the heat exchanger 7, the purified air in the winter conditions is heated to the room temperature. The treated air through the holes 4 of the output manifold 5-2 enters the room. Blinds 2-2 change the direction of the outgoing air flow. Additional sound absorption is carried out using a sound-absorbing partition 11, which is the space between the input manifold 5-1 and the output manifold 5-2, filled with vibration-insulating material. Sound-absorbing casing 12, covering the chamber 9, allows to reduce the noise generated by the compressor 8. To damp the vibrations generated by the compressor 8, the panel 13 of the housing 1 is mounted on the casing 14 through a damping gasket 17, and the insert 15 is fixed in the input part of the casing 13 through the damping gasket 16 The implementation of the collectors and high-pass filters can reduce the aerodynamic drag of the medium, which makes it possible to use compressors of lower power.

 Thus, the design of the proposed device is characterized by increased efficiency of air processing due to improved sound absorption and noise reduction.

Claims (2)

 1. DEVICE FOR AIR TREATMENT, comprising a housing with shutters in the openings of the input and output headers, a panel placed on the housing side of the building, an air purifying filter, a heat exchanger, a compressor, a chamber and a sound absorption system, characterized in that the device further comprises an insert fixed to housing through a damping pad, a partition and three high-pass filters, while the sound absorption system includes sound-absorbing input and output collectors, a camera, a burnout a cradle, as well as high-frequency filters, the sound absorption system being fixed to the insert, an air-cleaning filter located in front of the inlet manifold communicated through the first high-pass filter to the camera, the output of which through the second high-pass filter is connected to the output manifold, the heat exchanger is located in the latter between the second and third high-pass filters , and the input and output collectors are separated by a partition.  2. The device according to p. 1, characterized in that each high-pass filter is made in the form of a two-row mesh block with channels of rectangular cross section, while the length of the channel of one row is less than the length of the channel of the other row and more than the side of the section.

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