SU1013363A1 - Tank breathing arrangement - Google Patents

Abstract

RESPIRATORY DEVICE OF A TANK, containing a valve with a branch pipe and a disc-reflector mounted on a rack axially fixed in the branch pipe, of which, in order to increase operational reliability, it is equipped with at least one impeller mounted on the rack, and the latter is rotatably mounted, while the house reflector has edges bent up and radial fins located on its upper surface. . SO with O) with

Description

The invention relates to breathing valve devices designed to reduce the loss of lightly dissipated products and can be used in oil depots and fuel depots. A well-known supply shaft of the room ventilation system, comprising a housing, a drive and a driven impeller, mounted thereon on a shaft located along the hull of the housing f1 J. A reservoir for storing petroleum products is known, comprising a housing with a duck, a reflector and an elastic partition fixed along its perimeter. Also known is a mechanical breathing valve for tanks with petroleum products, consisting of a housing with movable closures CZj. The closest to the invention according to the technical essence and the achieved result is the breathing apparatus of the reservoir, which contains a valve with a branch pipe and a reflecting disc located under a rack axially fixed in the branch pipe. The reflecting disc suspended under the mounting branch pipe of the breather valve prevents the free flow of air entering the reservoir. The mixing of the vapor-air mixture is localized in the layers adjacent to the top of the reservoir. Due to this, the loss of volatile fractions of the stored liquid is reduced with large breaths of the reservoir 5. However, the reflector disk does not prevent the part of the smallest part of the stored product from escaping into the atmosphere. The purpose of the invention is to increase the reliability in the operation of the respiratory apparatus. This goal is achieved by the fact that the reservoir storage device, which contains a valve with a branch pipe and a disk reflector located below it on an axially fixed rack in the branch pipe, is equipped with at least one impeller mounted on the rack, which is rotatably mounted at the same time, the reflector disk has edges bent up and radial ribs located on its upper surface. FIG. 1 shows a respiratory device, a general view; FIG. 2, section A-A in FIG. one; in fig. 3 embodiment of the respiratory device; in fig. k - the same, with two impellers; in fig. 5 and 6 are diagrams of the movement of gases in the device. The respiratory device of the tank contains a pipe 1 with a housing 2, c. which encloses the plates 3 and pressures, which are hermetically lapped to the saddles 5 and fixed to the guide rods 6, ensuring the free movement of the plates 3 and 4. Above each plate 3 and i there are openings, hermetically sealed with a cap 7, through which the inspection, setting and the notch of the plates 3 and k and the Weight 8. In addition, a fuse 9 is installed in the housing 2. In the pipe 1, supports 10 with a bearing 11 and windows 12 for the passage of gas are installed. The reflecting disk 13 is mounted on a stand H, which is mounted in the pipe 1 to rotate .. At least one impeller 15 is fixed on the stand. The upper surface of the disk 13 is provided with radial ribs 16. The edge of the disk 13 is bent upwards. A breathing device is installed on the reservoir 17. The device operates as follows. When storing lightly evaporated petroleum products in the upper zone of the tank 17, a vapor-air mixture is formed. The device operates in two modes: during the period of filling it reduces the loss of oil products, during the period of discharge it prevents additional. mixing the vapor-air mixture in the tank, no loss of product occurs. When the tank 17 is filled with oil, the vapor-air mixture is compressed, and when it reaches a pressure exceeding that allowed by the load 8, the plate 3 rises and informs the internal cavity of the tank 17 with the atmosphere. Plate k blocks gas from tank 17. When the vapor-air mixture moves through pipe 1, kinetic energy is converted into rotation of impeller 15 and reflector disk 13. Due to the presence of ribs 16 of disk 13, the kinetic energy of some part of the flow of vapor-1010 air mixture passing through the gap between the lid of the tank 1 and the bent edge of the disk reflector 13, resulting in a rise in pressure in this zone, which reduces the loss of oil from evaporation from the tank 17, when draining Because of the difference in pressure in the atmosphere and in the tank 17, external air enters the cut of the water 17 through the pressure plate, which rises freely. From plate 3, it blocks the air intake; . Then the air enters the pipe 1 and the annular gap between the rotating reflecting disc 13 and the lid of the tank 17. At the same time, the movement direction changes, the turbulence of the incoming external air flows. 634 As a result, the vapor-air mixture located at the surface of the oil product does not receive additional kinetic energy for evaporation. The efficiency of the breathing device increases due to the additional resistance to movement of the vapor-air mixture, the exit of the cheeks from the tank during the production of filling the tank with oil products. In order to reduce the loss of volatile oil products during natural evaporation from tanks, it is extremely important to have an increased pressure of the vapor-air mixture and an increase in the pressure of the vapor-air mixture directly in front of the gas outlet pipe. This technical note. Cottage and solves this device with a rotating reflecting disc mounted coaxially and near the nozzle.

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Claims (1)

A RESPIRATORY DEVICE FOR A RESERVOIR containing a valve with a branch pipe and located below it on an axially mounted in the pipe rack reflector disk, characterized in that, in order to increase reliability in operation, it is equipped with at least one impeller mounted on the rack, and the latter is mounted with the possibility of rotation, while disk-from · ^{1, the} spreader has upwardly bent edges and radial ribs located on its upper surface. 1.013363