RU186769U1 - Device for straightening and measuring the flow rate in the ventilation system - Google Patents

Abstract

The utility model relates to the field of fan building, in particular to devices for straightening and measuring the flow rate of a gas-air mixture in ventilation systems, and can be used in ventilation systems for ventilating mines and mines of air-pumping or gas-suction systems. The device comprises a cylindrical body located inside the body at the input end of the flow rectifier with longitudinal channels and at the output end a flow velocity sensor, and the longitudinal channels of the flow rectifier are made with hexagonal channels, forming a honeycomb shape, the body is made of a class of polymer composite materials in the form epoxy or polyester fiberglass. The technical result is to increase reliability in operation, expand operational capabilities, simplify maintenance and repair with the ability to carry out repairs at the site of operation, as well as increase the life of the unit.

Description

The utility model relates to the field of fan building, in particular to devices for straightening and measuring the flow rate of a gas-air mixture in ventilation systems, and can be used in ventilation systems for ventilating mines and mines of air-pumping or gas-suction systems.

A device for straightening the flow in the ventilation system proposed by the Czech company LLC "MATTESN", s.r.o. comprising a cylindrical metal housing, a flow straightener located inside the housing, consisting of longitudinal channels of circular cross section (see mattech.cz> en / o-nas / profil /).

The closest in technical essence is a device for straightening and measuring the flow rate in the ventilation system proposed by the Scientific-Production Company "Sensorika", containing a cylindrical body located inside the body at the inlet end of the flow rectifier and at the output end of the sensor measuring the flow velocity, and the body made of metal, and the flow straightener is made with longitudinal channels with a cross-section in the form of a grid with square cells (see. ingortech.ru> dokumentyl8 Air Flow Meters C DSV 01. Operation manual, p. 19).

The disadvantages of the known device for straightening and measuring the flow rate are the large weight of the metal housing, which is susceptible to corrosion and instability to aggressive environments, which reduces the service life, affects maintainability at the place of operation in underground conditions, the speed and quality of mounting and dismounting on, as well as the device has increased aerodynamic resistance to flow, which reduces reliability.

With high aerodynamic drag, a drop in the total air flow occurs, which affects the performance of the system.

The technical result is to increase reliability in the work, expanding operational capabilities with the simplification of maintenance and repair with the ability to carry out repairs on the site of operation, as well as increasing the life of the device.

The technical result is achieved in that in a device for rectifying and measuring the flow rate in a ventilation system comprising a cylindrical body, a flow straightener with longitudinal channels and a flow rate measuring sensor located at the input end at the input end, according to a useful model, the longitudinal channels of the flow straightener made with hexagonal channels, forming the shape of a honeycomb structure, and the housing is made of a class of polymer composite materials in the form of epoxy or fiberglass diester. The length of the longitudinal channels is 0.4-1.5 of the diameter of the housing. The housing is equipped with grippers made in the form of hinged brackets.

In FIG. 1 shows a General view of the proposed device; in FIG. 2 is a side view from the side of the flow rectifier.

A device for rectifying and measuring the flow rate in the ventilation system contains a cylindrical body 1 located inside the housing 1 at the input end of the flow rectifier 2 and at the output end of the flow velocity sensor 3. The flow rectifier 2 is made with hexagonal channels 4 of a honeycomb design, the length of which is equal to 0.4-1.5 of the diameter of the housing 1. Housing 1 is made of a class of polymer composite materials in the form of epoxy or polyester fiberglass. The housing 1 is equipped with grippers 5, made in the form of hinged brackets.

The proposed device operates as follows.

The air flow entering the housing 1 through the hexagonal channels 4 of the flow rectifier 2 of the honeycomb structure is divided into many small flows. When leaving the flow rectifier 2, the air flow has a uniform, straight profile without turbulence. At the final section of the housing 1, the sensor for measuring the flow rate 3 transmits a signal to the control panel of the ventilation system about the value of the speed, the value of which is checked to monitor the operation of the ventilation system.

Thanks to the use of epoxy or polyester fiberglass in the construction, large

aerodynamic braking of high-speed air flow, which allows to increase the range of working pressures in the highways and increase the reliability of the proposed device for straightening and measuring the flow velocity, and the entire ventilation system.

The test revealed that the implementation of the flow rectifier 2 with a length different from the proposed boundary values leads to an increase in hydraulic resistance if more than 1.5 from the diameter of the body or to a decrease in operating efficiency if less than 0.4 from the diameter of the body, without creating sufficient directional air flow, increasing turbulence.

The proposed device, in comparison with known analogues, has a small body weight made of epoxy or polyester fiberglass, not subject to corrosion and resistance to aggressive environments, which increases reliability in working with low aerodynamic drag and extends the life of an on-site repair in underground conditions.

Claims (5)

1. A device for rectifying and measuring the flow velocity in a ventilation system, comprising a cylindrical housing located inside the housing at the input end of the flow rectifier with longitudinal channels and at the output end a flow velocity measurement sensor, characterized in that the longitudinal channels of the flow rectifier are made with hexagonal channels forming the shape of a honeycomb structure, the housing being made of a class of polymer composite materials in the form of fiberglass. 2. The device according to p. 1, characterized in that the length of the longitudinal channels is 0.4-1.5 of the diameter of the housing. 3. The device according to p. 1, characterized in that the housing is equipped with grippers made in the form of hinged brackets. 4. The device according to claim 1, characterized in that the housing is made of epoxy fiberglass. 5. The device according to p. 1, characterized in that the housing is made of polyester fiberglass.

Images