SU1263973A1 - Pressure controlling device - Google Patents

Abstract

The invention relates to engineering, ventilation, and improves the accuracy of controlling the differential pressure between rooms by comparison with a base value. The differential pressure sensor 9 installed in the connecting duct 10 comprises means 11 for measuring air flow through pipeline 10 and means 15 for creating a basic value of pressure difference 1; 1Y. The tool 11 consists of a diaphragm 12 and a thermal sensor 13. mounted opposite the opening 14 of the diaphragm 12. The tool 15 is made in the form of a cavity 16, divided into two parts by a partition 17 with an opening 18. In the first part an acoustic resonator 19 is installed, and in the second opposite an opening 18 a temperature sensor 20 is placed. This part of the cavity 16 is connected to rooms 1 and 2 through throttling channels 21 and 22. When the ventilation conditions of rooms 1 and 2 change, the device maintains the required (L pressure difference between rooms with accuracy depending on yn accuracy of the temperature sensors 25 and balancing the bridge controller 8, regardless of the temperature conditions of the indoor air x. 1 yl. iNd and SB 1 h with a CO / 3 .yu rs

Description

This invention relates to a technique for a valve 11 1.

The purpose of the invention is to improve the accuracy of controlling the differential pressure between rooms by comparison with the base value.

The drawing shows a structural diagram of a pressure control device.

The device contains two rooms 1,2, interconnected, containing means 3.4 for supplying and removing air, supply and exhaust air ducts 5,6, a control valve 7 placed in the duct 6 of one of the rooms 2, and regulator 8 connected With a differential pressure sensor 9 installed in the connecting duct 10 and a flap 7, the differential pressure sensor 9 comprises means 11 for measuring the air flow through the connecting duct duct 10 consisting of a diaphragm M1, 1 12 and a thermal sensor 13 installed opposite the aperture 14 of the diaphragm 12 , and means 15 for creating a base pressure differential value 1, CALP in the form of a cavity 16, divided into two parts by a partition 17 with an opening 18, in the first of which an acoustic resonator 19 is mounted, and in the second opposite the opening 18 there is a temperature sensor 20, and this part is communicated with rooms 1,2 through throttling channels 21 and 22.

The device for regulating the pressure in the two rooms interconnected also contains an electric drive 23 of the acoustic resonator 19, an actuator 24 of the regulator 8 and an electric bridge 25.

A device for controlling pressure in at least two rooms operates as follows.

The supply and exhaust means 3.4 are activated. The ventilating air enters through the supply air duct 5 into rooms l, 2. From the room 1 with lower requirements for its cleanliness, the air is removed by the air removal means 4. From room 2, air is removed by the same means 4 to remove air through exhaust duct 6, in which the control valve 7 is located. Valve 7 throttles the cross section of exhaust duct 6, as a result of which the air pressure in room 2, to which purity is presented higher requirements than to the cleanliness of the room 1 become larger than in room 1. In this case, the air from room 2 begins to be removed not only through the exhaust duct 6, but also through the connecting duct 10, the passage through the opening 14 of the diaphragm 12 in omeschenie 1. The air flow passing through the opening 14 of the diaphragm 12, sensor 13 washes.

Part of the air from room 2 passes into room 1 and through throttling channels 21,22, with the ventilator at the same time part of the cavity 16 in which the temperature sensor 20 is located.

The small flow area of the channels 21,22 and the distribution with the help of their air over the entire cross section of the cavity 16 ensures a low speed of its passage around the temperature sensor 20 below its sensitivity limits.

The regulator 8 is switched on with an electric bridge 25, the shoulders of which include thermal sensors 13,20, as well as a drive 23 of the acoustic resonator 19.

The drive 23 of the acoustic resonator 19 is adjusted to a mode that provides the frequency of movement of the diaphragm of the acoustic resonator 19 which creates the speed of air movement through the opening 18 in the partition 17 between the parts of the cavity 16 corresponding to the required basic value of pressure difference.

The signal of the sensor 20, depending on the mode of operation of the acoustic resonator 19, is compared with the signal of the sensor 13 proportional to the flow rate of air passing through the hole 14 in the diaphragm 12 of the connecting duct 10

If there is an imbalance in the shoulders of the bridge 25, the controller 8 through the actuator mechanism 24 moves the control valve 7 in the exhaust duct 6 to a position at which the value of the existing pressure difference between rooms 1.2 will correspond to the value of the specified basic pressure difference.

If there are 1.2 local autonomous exhaust devices in the rooms, for example, on places where individual technological operations are performed. 3, when these devices are turned on periodically and the ventilation conditions of the premises change accordingly, the device will maintain the required pressure differential between the rooms with an accuracy that depends on the adopted accuracy of the temperature sensors and balancing the position of the controller, regardless of indoor temperature conditions. Formulas of the invention A device for controlling pressure in at least two rooms interconnected, comprising means for supplying and discharging air, supply and exhaust air ducts, a connecting pipe regulating a damper located in the exhaust air duct of one of the rooms, and a regulator Soy 3 dynamic with a differential pressure sensor installed in the connecting duct and a damper, characterized in that, in order to improve the accuracy of controlling the differential pressure between rooms by comparison with The basic value of the differential pressure sensor includes means for measuring air flow through a duct connecting duct consisting of a diaphragm and a thermal sensor installed opposite the opening of the diaphragm, and means for creating a basic value of the differential pressure, made in the form of a cavity divided into two parts. in the first of which an acoustic resonator is installed, and a temperature sensor is placed in the second opposite the aperture, and this part is in communication with the rooms through throttling channels.

Claims (1)

Claim A device for regulating pressure in at least two rooms communicated with each other, containing means of supply and removal. air supply and exhaust ducts, a connecting pipe regulating the damper located in the exhaust duct of one of the rooms, and a regulator connected to a differential pressure sensor installed in the connecting duct, and a damper, characterized in that, in order to increase the accuracy of regulation the differential pressure between the rooms by comparing with the base value, the differential pressure sensor contains a means of measuring air flow through the connecting duct, consisting of a diaphragm and a thermode a sensor installed opposite the diaphragm opening, and means for creating a basic differential pressure, made in the form of a cavity divided into two parts by a partition with an opening, an acoustic resonator is installed in the first one, and a thermal sensor is placed in the second opposite the hole, this part being in communication with rooms through throttling channels. ^ς Compiled by A. Shcheglov Editor M. Tovtin Tehred M. Khodanich Corrector M. Sharoshi Order 5547/39 Circulation 649 Subscription VNIIIPI of the USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushskaya nab., 4/5 Production and printing company, Uzhhorod, st. Project, 4