SU1280588A1 - Device for controlling pressure in industrial furnaces - Google Patents

Abstract

The invention relates to the field of gas pressure control and can be used to control the pressure in the working space of industrial furnaces and dryers in the engineering and metallurgical industries. The aim of the invention is to improve the control accuracy and simplify the design of the device. The device comprises a housing 1, an axis 2, a butterfly valve 3 with a balancing rod 4, micrometric screws 5 and 6 and a screen 7, sensors 8 and 9 electrically connected to the actuator 10, a pulse tube 11 connected to the working space of the furnace 12, the drive, an adjusting gate consisting of a blade 15 fixed on an axis in bearings, guiding, on which i there is a counterweight connected through a screw to the Stop, additionally (Lthelny counter-load, chested screw and nut with a drive, chimney 25 and an inclined frame 26. 1 il. “

Description

The invention relates to the regulation of gas pressure and can be used to control the pressure in the working space of industrial furnaces and dryers in the mechanical engineering and metal industry.

The purpose of the invention is to improve the control accuracy and simplify the design of the device.

FIG. 1 shows a device for controlling pressure in industrial furnaces; in fig. 2 is a view A of FIG. one.

The device comprises a housing 1, an axis 5 2, a rotary valve 3 with a balancing rod 4, micrometric screws 5 and 6 and a screen 7, sensors 8 and 9 electrically connected to the actuator 10, a pulse tube 11, 20 connected to the workspace

12 furnace, drive 13, regulating gate 14, consisting of blade 15 fixed on axis 16 in bearings

t7, guides 18, on which counter load 19 is placed, connected through screw 20 to stop 21 of additional counter load 22 connected through screw 23 and nut 13 to drive 13, chimney 25 and inclined frame 26.30

The device operates as follows:

at once.

I

Before operation, set up the device. Turning the screw 20, abutting against the stop 21, displace the counterweight 19 along the guides 18 in such a way that the weight of the upper part of the gate 14, including the weight of the guides 18, counterbalances 19 and 22, of the Q drive

13 and the manual drive of the counterweight 19, fully balanced the weight of the blade 15. In this case, the moment of resistance to the rotation of the blade 15 of the gate 14 on the axis 16 consists of the moment of resistance in the bearings 17, and the gate 14 occupies a neutral position

life, i.e. the position in which it is placed during adjustment. After that, the counterweight 19 is moved downwards to the axis 16, reducing the moment of the counterbalance 19 relative to the axis 16 to the value at which the gate 14 rotates under the influence of the weight moment of the web 15, and the „15” is lowered. The amount by which the weight moment of the blade 15 of the gate 14 is greater than the moment of the weight of the upper part of the gate 14, and the moment of friction in the bearings 17 determine the dead zone of the regulating device when the drive 13 is turned off. When the furnace is operating, the flue gases put pressure on the blade 15 of the gate 14, which turns on axis 16 in bearings 17, increasing the flow area of the flue 25 with increasing pressure of the flue gases and reducing the flow area of the chimney 25 with decreasing pressure of the flue gases, maintaining pressure in the working space echi constant with an accuracy determined by said dead zone.

The dead zone of the pressure control device is established by rotating the micrometer screw 5, while the minimum dead zone of the device is obtained with such a minimum difference in the weight of the valve 3 and the balancing rod 4 and screw 5, at which the valve 3 takes the lower position. The pressure or vacuum setting in the furnace is set by rotating the micrometer screw 6, with which the valve 3 is bent to one side or the other, and the screen 7 comes out of interaction with the sensors 8 and 9 only if there is a given pressure or vacuum in the furnace. When the device is turned on, the pressure in the cavity of the housing 1 connected to the working space 12 of the furnace by the impulse pipe 11 is equal to the pressure in the furnace, and the pressure in the cavity of the housing 1 connected to the atmosphere equal to atmospheric. The valve 3 is rotated in one direction or another by the action of pressure change in the furnace, while the screen 7 fixed on the balancing rod 4 interacts with the sensor 8 or 9, which includes the actuator 10, which in turn turns the drive in one direction or another 13. The latter, turning the screw 23, interacting with the nut 24 secured on the additional counter-load 22, moves the additional counter-load 22 to one side or the other.

With increasing pressure in the furnace, the additional counterweight 22 rises, while the moment created by the weight of the upper part of the gate 14, which rotates on the axis 16, and the blade 15 of the gate 14, turning counterclockwise, increases the flow area of the chimney 25

and the pressure in the furnace decreases. When the pressure in the furnace decreases, the additional counterweight 22 lowers, while the moment created by the weight of the upper part of the gate 14 decreases and the gate 14 rotates under the effect of the moment created by the blade 15 of the gate 14, and the blade 15 lowers, reduces the flow area of the chimney 25 in therefore, the pressure in the working space 12 of the furnace is increased. Since the BLADE 15 gate 14 in the adjustment process is under the action of forces acting in the same direction as the forces acting in the adjustment process, the non-linearity of the gate characteristics and its inertness do not affect the control process, and the quality of control of the device is still. When lowering the counterweight 19, the blade 15, under the action of its own weight, sinks down and slits tightly to the frame 26, blocking the chimney 25.

Claims (1)

Apparatus of the Invention A device for controlling pressure in industrial furnaces, comprising a sensing element, the inlet of which is connected to the furnace space and the outlet to the atmosphere, and consisting of a rotary damper equipped with a screen optically connected to photo sensors electrically connected to a control circuit A regulating gate installed in the chimney, and an actuator, characterized in that, in order to improve the accuracy and simplify the design of the device, the regulating gate is designed as a balanced fish. aha, the axis of rotation of which is housed in the upper wall of the chimney, and the upper portion of the balanced arm is provided with a driving guide counterweight, and the actuator mecha vtolnen as an additional counterweight located on the guide arm to be balanced and kinematically associated with a drive; electrically connected to the control circuit. 7s Fsg & .2