SU1009484A1 - Altitude chamber - Google Patents

Abstract

BAROCCAMA, containing a frame with frames, gas pipelines and inlet openings, characterized in that, in order to reduce noise during gas inlet and to simplify the design of the pressure chamber, the internal wall of the frame and sound absorbing walls located inside the frame are divided by partitions on separate closed chambers, and the inlet holes are made on the baro case (chambers. CO 4 00 4:

Description

The invention relates to medical technology, namely to devices for treating patients in hyperbaric conditions. The well-known pressure chamber, which contains a casing with ipouts, gas pipelines and inlet openings. The disadvantage of the known pressure chamber lies in the fact that the gas distributor located in the casing of the chamber occupies part of the effective volume of the chamber. In addition, in this pressure chamber, a gas distributor, intended only for uniform distribution of the ventilation gas and not having for design reasons a sufficiently large volume in front of a series of inlet openings, cannot be used as a silencer when the flow into the chamber has expired. The aim of the invention is to reduce noise during gas inlet and simplify the design of the pressure chamber. The goal is achieved by the fact that the pressure chamber, including a casing with frames, gas pipelines and inlet openings, is provided with partitions and a noise absorbing wall located inside the frame, divided into separate closed chambers by partitions, and the admission openings are made on. pressure chamber housing. The drawing shows the proposed pressure chamber fragment. The pressure chamber contains a housing 1 with a frame 2 welded to it, ensuring the stability of the housing 1 of the pressure chamber against external pressure. Partitions 3 are installed between the housing 1 and the frame 2, forming closed vacuum chambers 4. The closed vacuum chamber 4 is connected to the gas supply pipe 5 of the gas supply system, with an ac-vacuum chamber of the pressure chamber next to the inlet ports 6 located on the housing I of the pressure chamber. Inside the vacuum chamber 4 there is a noise absorbing wall 7 and a bump stop 8. The device operates as follows. The gas flow is supplied to the chamber 4 through the pipe 5 and is directed by the baffle 8 to the noise absorbing wall 7, where by reducing the gas flow rate and noise absorption by the noise absorbing steak the noise from the gas flow is reduced and it enters the vacuum chamber of the pressure chamber through a series of holes b located on the housing 1 pressure chamber. Thus, in the pressure chamber, the frames with closed chambers can be of any large size, which allows to significantly reduce the gas velocity and thereby significantly reduce the noise effect when the gas enters the chamber. The proposed pressure chamber allows compact installation of the noise suppression system and the piping into the frames of the chamber, which significantly improves its appearance and reduces the cost of manufacturing.

Claims (1)

A BULK CAMERA, comprising a housing with frames, gas pipelines and inlets, characterized in that, in order to reduce noise during gas inlet and simplify the design of the pressure chamber, it is equipped with partitions and a sound-absorbing wall located inside the frame, the inner cavity of the frame is divided by separate partitions into separate closed cameras, and inlet openings are made on the body of the baro * (camera.