SU939010A1 - Purified air feeding device - Google Patents

Description

(54) INSTALLATION FOR FILING A CLEANED AIR

The invention relates to a medical technician, in particular, to installations for obtaining an air environment of reglagable parameters (temperature, pressure, I), used for medical purposes. Known. A unit for supplying purified air, comprising a housing with double soundproof walls and an air blower located therein, a heater, fine and coarse filters and two air distribution grilles 1. The disadvantage of this setup is structural complexity, a large number of sound-damping devices. The purpose of the invention is to improve sound insulation and reduce the size of the device. This goal is achieved by the fact that in an installation comprising a case with double soundproof walls and an air blower, heater, coarse and fine filters and two air distributors, the case is divided in height into two isolated sections, the blower and heater are installed in the lower section, and the fine filter at the top, while the coarse filter is mounted in the upper outer wall of the housing, one air distribution grille is fixed on the inner lower Tenke housing, and the second - and its upper inner wall and a cavity between the walls is also divided into two isolated channels forming air ducts, one of which connects the strainer otastki with the first grille and the other output from the second plenum distribution grid. In addition, the inner wall of the case is perforated, and the sound insulation material is located on its inner side. FIG. 1 schematically depicts the proposed installation, designed for the supply of purified air to several consumers (stationary); in fig. 2 the same, designed for the supply of clean air to a single consumer in transport or special objects (portable). 393 As a stationary installation, so portable contains air blower 1, electric heater 2, coarse filters receiving 3 and internal 4, fine filter 5 with outlet 6 and air distribution grilles 7 and 8. These air handling units are mounted in housing 9 O- shaped section with double sound-insulating walls 10 and 11. The walls 10 are lined with sound-absorbing material 12 inside, the wall 11 is made perforated and also sound-absorbing material 13 lined with inside. Walls 10 and 11 with are united with an O-shaped partition 14, as a result of which the space between the soundproof walls of the buildings is divided into two air channels - suction 15 and discharge 16. At the beginning of the suction channel 15, a receiving filter 3 is installed, which is located in wall 10, and at the end - an air distribution grill 7, placed in the bottom wall 11. Sound absorbing material 12 and 13, with which the walls of the suction channel 15 are lined, makes it for a moving air a sound-type active type, and the described placement is The lterra 3 and the ratchet 8 provide the maximum length of this sound body. The discharge channel 16 is solved analogously to channel 15: it connects the output of the Supercharger 17 to the distribution grid 8. The walls 11 are equipped with a soundproof partition 18 that separates the housing 9 into a lower 19 and upper 20 sections, communicating with the suction 15 and discharge 16 channels, respectively. In the upper section 20, the fine filter 5 and the outlet pipe 6 of the treated air are mounted, in the lower section 19 there is an electric heater 2 and the air blower 1 with a supercharger 17 As a result of the failure of the walls. The rod 18 is provided with soundproof material 13, sections 19 and 20 are for the flow of air to be treated, chamber-type silencers of the reactive type. In addition, the housing 9 with double sound-insulated walls serves as a silencer for the mechanical noise generated by the supercharger 1. The housing of the liver of the housing 9 is made with an opening door (not shown) and provided with supports 21. For ease of installation of individual units of the portable installation the housing 9 is provided with a side bottom 22, and the partition 18 is made removable. The installation works as follows. Air from the region is sucked through the fn.chtr through the suction channel 15, which is formed in the interwall space and is an active silencer of aerodynamic noise, and enters through the air distribution grille 7 in. the lower section 19 of the housing 9, which also acts as a reactive-type muffler chamber. Then, the air is heated in the electric heater 2 mounted on the suction inlet 1 of the supercharger, and through the supercharger 17 is supplied by the supercharger 1 to the discharge channel 16, which simultaneously serves as an active noise suppressor. Through the grill 8, the injected air enters the upper section 20 of the housing 9, which plays the role of a reactive type chamber silencer. Next, the air is cleaned in the second coarse filter 4 and the fine filter 5 and through the outlet nozzle 6 goes to the consumer. The unit uses an absolute filter as the fine filter 5 equipped with a filter material such as Petr nova PPP, which provides simultaneous air cleaning from mineral drink, aerosols and bacteria. The use of interstitial space as air channels and sound attenuation-. Leu combined with dividing the housing 9 into two sections using sections as reactive-type chamber silencers and placing the air inlet holes on opposite surfaces of the housing ensures minimum air velocities throughout the treatment path with a maximum length of suction 15 and discharge 16 active-type silencers. Perforation of walls 11 allows one layer of sound-absorbing material 13 to suppress noise in channels 15 and 16 and sections 19 and 20. Mechanical noise generated by compressor 1 is damped by housing 9 with double sound-insulated walls. The combined noise suppression system satisfies demanding acoustic comfort requirements. The absence of special sound-mufflers and separate air channels allows to significantly reduce the size and weight of the installation without degrading the vibro-acoustic characteristics. The placement of the coarse receiving filter 3 on the upper surface of the housing 9 makes it possible to increase the cleanliness of the intake air, since it is taken about 2 meters from the floor of the room. Installations can be used in medical institutions (surgical operating rooms, chambers for the treatment of burn patients), for staffing HE and.

vehicles intended for the provision of specialized medical care directly in the military field conditions.

Claims (2)

1. Installation for supplying purified air, comprising a housing with double sound insulating walls and air detector located in it, a heater, 4 tons of fine and coarse cleaning, and two air distribution grilles, of which target 5 sound insulation, the housing is rotated in height to two insulated sections, a supercharger and a heater are installed in the lower section, and a fine filter is located in the upper section, while the coarse filter is installed in the upper outer wall of the coroiffyt UJ offfffU AND One air distribution grill is fixed on the inner bottom wall of the housing, and the second is fixed on its internal upper wall, and the cavity between the walls is also divided into two isolated ducts forming air ducts, one of which connects the coarse filter with the first air distribution grille, and the other the output of the supercharger with the second distribution tepiyoy lattice. 2. Installation according to claim. In order to reduce the size of the wall, the inner wall of the housing is perforated and the sound insulation of the material is located on its inner side. Sources of information taken into account poo examination 1. Lagunov LF Fighting noise com-, pressor installations. M., VNIIOT Trade Unions, 1977.