SU711397A1 - Device for measuring pulsating pressure - Google Patents

Description

The invention relates to measuring equipment, in particular, to devices for measuring the maximum average and minimum values of the pulsating pressure of a liquid or gas and can be used in testing compressor machines.

A device for measuring the maximum, minimum and average values of the pulsating pressure, containing a manometer, distributor, plunger switch, check valve, throttle. The distributor is installed in front of the pressure gauge and contains a housing with a _J5 inlet and outlet channels, in which a regulating slide valve plunger with switching channels and a variable volume chamber are placed. The non-return valve and throttle are installed in the _χ plunger, and a variable-volume chamber is constantly connected to the manometer and is made in the form of a cup spring-loaded from the outside and installed with an open end on the cylindrical protrusion of the distributor [1]. To measure the maximum values, the pulsating pressure from the cavity is supplied under the closing element of the non-return valve, and to measure the minimum values of pressure, it is applied to the closing element.

The disadvantages of this device are the design complexity and reduced measurement accuracy due to leakage of the medium (even when the check valve is closed) between the plunger and the housing, the sealing between which is carried out on cylindrical surfaces.

The closest to the invention in technical essence and the achieved result is a device for measuring the extreme values of the pulsating pressure, comprising a ball check valve installed in the body cavity, supplying and discharging channels, a position switch and a manometer [h] connected to the outlet channel. The two-point switch is made in the form of rods placed with a gap in the inlet and outlet channels of the valve - valve stroke limiters installed with the possibility of displacement along the channel axis.

The disadvantage of the described device is the complexity of the design and measurement process due to the presence of two rods - ¹⁰ limiters, which must be reinstalled when switching from measuring one extreme value to measuring another.

The invention aims to simplify ¹⁵ of the design and operation of the device.

The goal is achieved in that in the known device, the position switch 20 is made in the form of a rotary valve, in which the conducting and throttle channels are made, the check valve being located in the conducting channel, and the axes of the inlet, outlet channels and spool channels are located in one plane perpendicular to the axis of the spool .

With this design, the process of moving from measuring the maximum value of the pulsating pressure to measuring the average or minimum is reduced to turning the spool to the appropriate position. At the same time, the design of the device was simplified by eliminating movable ³⁵ stop rods.

. In FIG. 1 shows a section along the axis of a position switch; in FIG. 2 a section A-A of FIG. 1; in FIG. 3 - tsazrez AA (switch position when measuring the minimum value of the pulsating pressure); in FIG. 4 - section AA (switch position when measuring the maximum value of the pulse \ 45 rushing pressure).

The device comprises a housing 1, in the inner cavity of which a position switch 2 is installed, and a pressure gauge 3. In the switch 2, a through step channel B is made, in which a check valve ball-check valve 4 is placed. The switch 2 is rotary and is made cylindrical, It is equipped with a flywheel 5 for installation in a certain position and the latch 6. To protect the switch 2 from axial shift to the housing 1 is attached a cover 7. The seal of the switch 2 in the housing 1 is carried out using the ring 8. The switch 2 is equipped with e throttling duct 9, the axis of which is located together with the stepped bore axis B in the plane perpendicular to the axis of the switch. In the housing 1, the non-return valve seats are fixed: the lower 10 with the inlet channel 11 and the upper 12 with the outlet channel 13 to the pressure gauge 3. The seats 10 and 12 are sealed in the housing 1 with gaskets 14.

To measure the minimum value of the pulsating pressure, the switch 2 must be turned from the position corresponding to FIG. 2, counterclockwise at an angle of 90. In this position (FIG. 3), the controlled medium will penetrate only from the pressure gauge 3 through channel 13 and the ball - contactor 4 reverse. valve in the channel 11, and the pressure in the channel 13 will decrease until then, until it becomes equal to the minimum value of the pulsating pressure. The value of this pressure is determined by the pressure gauge 3. To measure the maximum value of the pulsating pressure, switch 2 is necessary from the position corresponding to FIG. 3, rotate 180 In this position (Fig. 4), the controlled medium will penetrate only from channel 11 through the contact ball 4 into channel 13 to pressure gauge 3, which will occur when the pressure in channel 11 exceeds the pressure in channel 13, i.e. e. gauge 3 will measure the maximum value of the pulsating pressure. With the position of switch 2 of FIG. 2, the medium will penetrate from channel 11 to channel 13 through channel-throttle 9 and in this case, the average value of the pulsating pressure will be measured with a pressure gauge 3.

Claims (3)

37 meter 2.. The two-way switch is made in the vice located with a gap in the supply and discharge channels of the valve valve - the valve stroke limiters installed with the possibility of moving along the axis of the channels. The disadvantage of the described device is the complexity of the design of the measurement process due to the presence of two shafts, which need to be reset during the transition from measuring one extreme value to measuring another. The aim of the invention is to simplify the design and operation of the device. The goal is achieved by the fact that in the known device the position switch is made in the form of a rotary valve, in which conductive and throttle channels are made, the check valve being located in the conductive channel, and the axis of the supply and return channels and channels of the spool are in the same plane perpendicular to the spool axis. With this design, the transition from measuring the maximum value of the pulsating pressure to measuring the average or minimum is reduced to turning the spool to the appropriate position. At the same time, the design of the device was simplified due to the exclusion of displaceable rod-stops. . FIG. 1 shows a section along the axis of the position switch; in fig. 2 - section A-A of FIG. one; in fig. 3 - A-A section (switch position when measuring the minimum value of the pulsating pressure); Fig. 4 shows a section A-A (the position of the switch when measuring the maximum value of the pulsating pressure). The device includes a housing 1, in the internal cavity of which a position switch 2 is installed, and a pressure gauge 3. Switch 2 has a through stepped channel B in which the ball valve of the check valve 4 is placed. Switch 2 is rotary and cylindrical. is equipped with a handwheel 5 for installation in a certain position and a latch 6 To protect the switch 2 from axial displacement, a cover 7 is attached to the body 1. The seal of the switch 2 in the body 1 is carried out with the help of 7 pin 8. The switch 2 is equipped with the throttle duct 9, the axis of which is located together with the axis of the stepped channel B in a plane perpendicular to the axis of the switch. The check valve seats are fixed in the housing 1: the lower 10 with the inlet channel 11 and the upper 12 with the outlet channel 13 to the pressure gauge 3. The saddles 10 and 12 are sealed in the housing 1 with gaskets 14. To measure the minimum value of the pulsating pressure, the switch 2 must be turned from corresponding to FIG. 2, counterclockwise at an angle of 90. In this position (Fig. 3), the controlled medium will penetrate only from the pressure gauge 3 through the channel 13 and the ball-valve 4 of the non-return valve into the channel 11, and the pressure in the channel 13 will decrease until it reaches the minimum value of the pulsating pressure. . The value of this pressure is determined by the gauge. 3. In order to measure the maximum value of the pulsating pressure, switch 2 is necessary from the position corresponding to FIG. 3, turn 180. In this position (Fig. 4), the controlled medium will penetrate only from channel 11 through ball-closure 4 to channel 13 to pressure gauge 3, which will occur when the pressure in channel 11 exceeds the pressure in channel 13, i.e. A pressure gauge 3 will measure the maximum value of the pulsating pressure. When the position of the switch 2 in FIG. 2, the medium will penetrate from the channel 11 into the channel 13 through the channel-choke 9 and in this case the average value of the pulsating pressure will be measured by the pressure gauge 3. The invention The device for measuring the pulsating pressure, comprising a housing, supply and discharge channels, a position switch, a check valve and a pressure gauge connected to the discharge channel, characterized in that, in order to simplify the design and operation of the device, there is a position switch made in the form of a rotary slide valve, in which conductive and throttle channels are made, the non-return valve being installed in the conductive channel, and the supply axis and its outlet