SU1527621A1 - Proportional flow rate controller - Google Patents

Abstract

The invention relates to automatic control, and relates in particular to devices for controlling proportional flow. The purpose of the invention is to simplify and improve the accuracy of the regulator. The regulator includes a housing 1, an inlet channel 2, an output cavity 3, a spring-loaded sensing element — bellows 4, a first 5 and a second 6 cavity, a mode setpoint device and a metering element made in the form of a cylindrical slide 7 connected with an axial rotation drive. The spool 7 is made of radial channels 8 and 9. The bellows 4 is equipped with a stop 10 and a spring 11. 4 Il.

Description

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This invention relates to automatic control, in particular to devices for controlling proportional flow.

The purpose of the invention is to simplify and improve the accuracy of the regulator.

Figure 1 shows a regulator circuit; figure 2 - section aa in figure 1 in fig.Z - section bb in figure 1; Fig. 4 shows the flow rate characteristic of the rotational speed of the spool.

The proportional flow regulator includes a housing 1 with an input channel 2 and an output cavity 3, placed in the housing 1 spring-loaded sensing element - bellows 4, which forms the first 5 and second 6 cavities with the housing, the setting unit and the metering element made in the form of a cylindrical slide valve 7, associated with an axial rotation drive (not shown). The spool 7 has a first radial channel 8 for connecting the input channel 2 with the first cavity 5 and the second radial channel 9 perpendicular to the first, for connecting the first cavity 5 with the output cavity 3 connected to the second cavity 6. The regulator can have an adjustable stop 10. The sensing element may be in the form of a membrane or a powder. The bellows 4 is loaded with a spring 1I. The stiffness of the bellows-spring system must ensure that it moves to the stop 10 under the action of pressure in channel 2,

The proportional flow controller works as follows.

In the initial position (FIG. 1), when the cavity 5 through the spool channel 8 is connected to the high-pressure inlet channel 2, the bellows 4 node under pressure P moves to the right until it sits on the 10 o stop. When the spool is subsequently rotated 7 the cavity 5 is disconnected From channel 2 and connected through channel 9 to the output cavity 3 of low pressure, as a result of which the bellows 4 is moved to the left and displaces the working medium received up to this point. Upon further rotation of the spool 7, the bellows 4 moves back to the right (after connecting channel 2 to cavity 5 through kakal 8), stocking a certain amount of working medium, and so on increasing and decreasing the volume of cavity 5, resulting in proportion to the rotational speed of the spool 7, the fuel consumption from channel 2 to cavity 3 increases.

Thus, the number of movements of the bellows 4, the number of cycles of accumulation of the volume of fluid from

channel 2 high pressure and the extrusion of this volume into the cavity 3 low pressure is equal to the frequency of rotation of the valve 7 "

Through sections of channels 8 and 9

must be sufficient to allow the entire flow to pass when the bellows 4 moves from the stop to the stop, at the calculated rotational speed of the valve 7. The pressure in channel 2 must be sufficient to move the bellows 4 to the right and to compress the spring 11.

The adjustable stop 10 can vary the slope of the characteristic flow rate function of frequency (Fig. 4) by changing the portion of the working fluid received by the bellows 4 as it moves to the right.

The regulator is simple in design,

has a high accuracy, since it significantly reduced the number of elements involved in controlling the flow based on the volume principle.

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Claims (1)

Invention Formula A proportional flow controller, comprising a housing in which a spring-loaded sensing element is installed, which, with the housing, forms the first and second cavities, an input channel, output cavity, mode setpoint, metering element and drive axial rotation, characterized in that, in order to simplify and improve the accuracy of the regulator, the mode setter and the metering element are made in the form of an axial rotation of a cylindrical slide connected to a drive, in which a first radial channel is made to connect the input channel to the first cavity and second radial a channel located perpendicular to the first, for connecting the first cavity to the output cavity connected to the second cavity. / 1 / f Shig.g a i flow rate I 6-5 QJU2,3 fpu.l / roff / fffJH