RU2058768C1 - Halochamber - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: halochamber has medicinal room with internal and external walls and filter-saturator, which communicates with pumping fan. The chammer is provided additionally with a diffuser and air exhauster, disposed at opposite external walls. Filter-saturator and salt units of the walls are made in form of rotary drums with holes at edge walls, filled with crushed salt. EFFECT: improved efficiency of cure. 4 dwg

Description

 The invention relates to medicine and can be used in the treatment of respiratory diseases, allergic diseases.

 Known halochamber [1] containing the outer walls, internal of the columns, intermediate and internal chambers, air conditioning and connecting pipelines. It is equipped with labyrinth partitions in the intermediate chamber, and the intermediate chamber is directly connected to the air conditioner and the inner chamber. Its disadvantage is a certain bulkiness of the design and insufficiently active saturation of the treatment volume with negative air ions.

 Known climatic chamber [2] containing a sealed room, air conditioning, pressure regulators, equipped with a lock chamber, salt blocks installed with a gap relative to the walls of the floor and ceiling of the lock chamber and pressurized room, salt filter saturator, connected to the entrance to the air conditioner. The disadvantage is the high cost and high complexity of the procurement, delivery and construction of salt blocks. In addition, the number and thickness of the salt blocks used only affects their radioactive radiation.

 The aim of the invention is to improve the healing properties of the chamber by increasing the saturation activity of negative air ions. In addition, the delivery of salt blocks and the construction of the camera are somewhat simplified and cheaper.

 The goal is achieved in that the halochamber containing a treatment room with external walls and internal made of salt blocks and a filter filter communicating with a blower fan are additionally equipped with a diffuser located on opposite external walls adjacent to the filter filter and the internal wall, and an exhaust with a fan in communication with the treatment room, while the filter-saturator and each of the salt blocks are made in the form of drums with holes in the end walls filled with crushed salt and whiskers mounted with the possibility of rotation around the horizontal axes, and the internal ones, with an additional layer of crushed salt applied to them, and the outer walls of the chamber are perforated.

 In FIG. 1 shows a camera in plan; in FIG. 2 is a view along arrow A in FIG. 1; in FIG. 3 an example of a drum on an outer wall; in FIG. 4 is an example of a saturation filter with a diffuser.

 Structurally, the halochamber is made as follows.

 The halochamber walls are made on the basis of a frame metal structure with an anti-corrosion coating. The outer walls 1 consist of cells 2, in which salt blocks are installed made in the form of cylindrical drums 3 filled with crushed salt 4. The diameter of the salt is not more than 10 mm. The drums 3 are made with end holes located, for example, on concentric circles, and are mounted to rotate around horizontal axes 5 mounted on the outer walls 1. The drum 3 can, for example, be made three-section (see Fig. 3). The crushed salt is charged into the central section of the drum. The lateral sections are used to collect spilled large particles of salt with their subsequent removal. The inner walls 6 are perforated plates, for example, gypsum, fixed to the frame structure 1. On a plate 6 based on liquid glass, a layer of potassium salt 7 is applied with a diameter of not more than 5 mm. A diffuser 8 and an adjacent drum 9 of the filter-saturator are attached to one of the walls. The drum 9 is mounted rotatably around the horizontal axis 10 and is filled with finely crushed salt 11, the diameter of which is not more than 0.5 mm. Drum 9 is filled not more than 90% of the volume. The end walls of the drum 9, as well as the drum 3, are made with holes located in concentric circles and with hinged segmented hatches 12 for loading and unloading the drum with crushed salt. Instead of hatches, you can also consider the possibility of creating loading holes located along the generatrix of the surfaces of the drums, overlapped by a movable shutter (not shown in the drawing). The end face of the nozzle of the discharge fan 13 is adjacent to the drum 9.

 On the opposite wall of the diffuser 8 there is a pipe for the exhaust fan 14, which provides air filtration through crushed salt 4. The air velocity in the halochamber is up to 0.1 m / s.

 The halochamber works as follows, through the top hatches 12, the drums 3 are completely filled with crushed salt 4 with a diameter of 10 mm. The drums 9 of the filter filter are filled with finer crushed salt 11 with a diameter of 0.5 mm. Drum 9 fill up to 90% of the volume.

 After filling drums 3 and 9 with crushed salt, an exhaust fan 14 is turned on, which pumps out the air inside the halochamber, creates a vacuum in it, due to which air from the outside begins to suck in through all salt drums 3, through the end openings of the drums and perforated inner walls. At the same time, air, enveloping pieces of crushed salt, is saturated with negative air ions. This saturation is intensified by the contact of air with a large area of crushed salt in the drums. Rotation of the drums provides updating (cleaning) of salt pieces.

 Then they turn on the blower fan 13, rotates the drum 9 of the filter saturator filled with crushed salt 11, activating in it the additional formation of finely dispersed therapeutic salt particles falling into the diffuser 8. The diffuser captures large particles, which, due to the quenching of the velocity, settle at the bottom of the diffuser, more fine particles pass through the diffuser into the treatment room of the halochamber. A saturating filter using an injection fan 13 and a diffuser 8 create and maintain the required therapeutic saturation concentration in the treatment room of the halochamber.

 After reaching the desired saturation concentration in the treatment room, halochambers stop drums 3 and 9, introduce patients to it and produce treatment according to the specified method.

Claims (1)

 A HALO CAMERA, comprising a treatment room with external walls and internal made of salt blocks, and a filter saturator communicated with a blower fan, characterized in that it is additionally equipped with a diffuser located on opposite external walls adjacent to the filter filter and the internal wall, and an exhaust fan in communication with the treatment room, wherein the filter saturator and each of the salt blocks are made in the form of drums with holes in the end walls filled with crushed salt and mounted with the possibility of rotation around the horizontal axes, and the internal ones with an additional layer of crushed salt applied to them and the outer walls of the chamber are perforated.

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