RU87769U1 - THROTTLE CONTROL DEVICE - Google Patents

Abstract

A throttle control device containing a cylindrical body in which the input and output channels for the conducted working medium and a niche are made, a fixing device with a limb, characterized in that a locking hollow plunger containing perforated holes made by a nut with sealing elements is installed and secured with a nut with sealing elements in the form of a combination of round through holes and windows of a special shape, which are arranged in order of increasing area of the through hole, and the limb of the fixing device is located wives on the upper surface of the sleeve worn on the nut, mounted on a spring-loaded axis in the hole of the plunger, fixed with a screw and fixed with a locking screw, the output channel is oval and angled.

Description

The utility model relates to devices installed on pipelines and designed to precisely control the flow rate of the working medium in the oil refining, chemical and other industries.

A discrete throttle device is known comprising a cylindrical body with channels for the conductive medium and grooves for sealing rings on the end surfaces, a niche connected to the channels perpendicular to the axis thereof is made and with a cylindrical glass placed therein with a perforated wall, the bottom of which is connected to a rod sealed relative to the body and provided with a pointer interacting with a fixed limb. The glass is lined with elastomeric material. The device is equipped with a pointer having a limb located coaxially to the rod, on which numbers corresponding to the diameters of round holes are located, the areas of which correspond to the areas of the orifice of the throttle device, and reading information from the pointer is possible both from its upper and lower sides (patent No. 40088 , RU, IPC F16K 5/10).

The disadvantage of this device is its low life due to increased erosion wear of the perforated holes of the cork and elastomeric material.

The closest is a discrete throttle device containing.

a cylindrical body with channels for the conducted medium and grooves for sealing rings on the end surfaces, a niche perpendicular to the axis of which is made, connected to the channels and with a perforated cylindrical stopper placed therein, a rod with a control handle equipped with a pointer interacting with a fixed limb located coaxially to the rod , on which are located above and below the numbers corresponding to the diameters of the holes, the areas of which correspond to the areas of the orifice of the throttle device . The housing further comprises a glass with a perforated plug placed therein, the bottom of which is connected to the stem. The inner surface of the cork is lined with elastomeric material, the thickness of which is selected according to the operating conditions, and having an input channel equal to the input channel of the housing, and radial channels coaxial with holes in the glass and the housing (patent No. 73050, RU, IPC F16K 5/10).

The disadvantages of this device are the design complexity, unreliability in operation, low accuracy of regulation at low flow rates of the working medium.

To ensure accurate adjustment of the flow rate of the conducted working medium in a wide range, to simplify the design and increase reliability, a throttle control device is proposed comprising a cylindrical body in which a niche, an input channel and an angle located, an oval-shaped output channel for the conducted working medium, a fixing device are made with a limb. A locking hollow plunger containing perforated holes made in the form of a combination of round through holes and windows of a special shape, arranged in increasing order of the areas of the through holes and selected from the conditions for ensuring a smooth increase in the volume of the working medium, is installed and secured with a nut with sealing elements in a housing niche; The limb of the locking device is located on the upper surface, worn on the nut of the sleeve. The sleeve is mounted on a spring-loaded axis in the hole of the plunger, secured with a screw. To install the locking device in the desired position, the sleeve is secured with a locking screw.

Figure 1 shows the throttle control device, figure 2 - limb; figure 3 - the location of the perforated holes of the plunger of the throttle control device in the scan and the working position of the output channel relative to the perforation through holes of the throttle control device, figure 4 - shape of the output channel.

The throttle control device comprises a cylindrical housing 1, a plunger 2, a nut 3, a sleeve 4, an axis 5, a screw 6, a spring 7, an input channel 8, an output channel 9, a niche 10, a locking screw 11, sealing elements 12 and 13, limb 14, round perforated through holes 15 and perforated through window of a special form 16.

In the cylindrical housing 1, an input channel 8 is made for the conducted working medium. The output channel 9 for the conducted working medium has an oval shape and is located at an angle that excludes water hammer. In the proposed design, the output channel is located at an angle of 20 degrees. In the niche 10 of the housing 1, a locking hollow plunger 2 is installed and secured with a nut 3 with sealing elements 12 and 13, containing perforated holes made in the form of a combination of round through holes 15 and a through window of a special shape 16, arranged in increasing order of the area of the through hole. The limb 14 of the locking device is located on the upper surface of the sleeve 3, put on the nut 3, which is locked by the spring-loaded axis 5 in the bore of the plunger 2. The sleeve 4 is fixed with a screw 6 and is fixed on the nut 3 with the locking screw 11. On the limb 14 (Fig. 2) there are numbers corresponding to the diameters of the holes, the areas of which correspond to the areas of the passage section of the throttle control device.

The shape and location of the outlet channel, the shape and number of perforated holes and windows are selected from the condition of providing a given characteristic of increasing the volume of the working medium and eliminating water hammer.

The throttle control device operates as follows: through the inlet channel 8, the conducted working medium enters the cavity of the shut-off hollow plunger 2 under pressure, from there it exits through openings 15 or 16, combined with the outlet channel 9 and further into the pipeline. The numbers of the locking device are located opposite the division corresponding to the total cross-sectional area of the holes in the plunger, combined with the output channel 9 of the housing 1. In accordance with a given flow rate of the outgoing working medium, the plunger 2 is rotated in the housing 1, combining with the number corresponding to the required diameter of the plunger through holes.

The proposed throttle control device provides a wide range of precise control of the flow rate of the working medium, it is simpler in design, more reliable and more durable in operation.

Claims (1)

A throttle control device containing a cylindrical body in which the input and output channels for the conducted working medium and a niche are made, a fixing device with a limb, characterized in that a locking hollow plunger containing perforated holes made by a nut with sealing elements is installed and secured with a nut with sealing elements in the form of a combination of round through holes and windows of a special shape, which are arranged in increasing order of the area of the through hole, and the limb of the fixing device is located wives on the upper surface of the sleeve worn on the nut, mounted on a spring-loaded axis in the hole of the plunger, fixed with a screw and fixed with a locking screw, the output channel is oval and angled.