RU104997U1 - THROTTLE DEVICE - Google Patents

Abstract

The throttle device relates to mechanical engineering, to the section of pipe fittings, and specifically to devices for maintaining the flow of fluid (chokes) and is used to control the flow of fluid in process pipelines.

The technical task is to create a throttle device free from leaks through the gap in the threaded connection of the tube with the housing.

The problem is solved in that the throttle device containing a round casing, an inner tube with intersecting channels, and the tube consists of a set of throttle plates with through inclined channels, the convergence point of the axes of which is located on the end plane of the plate, and each subsequent plate is set to the previous mirror.

Description

The utility model relates to mechanical engineering, to the section of pipe fittings, and specifically to devices for maintaining fluid flow (chokes) and is used to control fluid flow in process pipelines.

Known throttle device series 1040 (see "industrial industrial catalog of valves and actuators", edition 1, volume IV, S-Pb: NPAA: M: from Mos TsKBA 2009, p. 48-483), consisting of a round casing in which perforated discs with holes are installed in series.

The disadvantages of the known device include the lack of regulatory functions.

A throttle device with a regulation function is also known (see RU 28755 U1 F16K 47/12), a prototype comprising a round casing in which a plug with screw intersecting left and right direction grooves is installed on the thread.

In fact, the medium getting into the cork is divided into three flows, one goes along the right groove, the other flows along the left groove, and the third flows along the threaded gap between the cork and the body.

The disadvantages of the known solutions include the presence of leaks of the third stream through the gap in the threaded connection of the tube with the housing, which leads to a distortion of the regulatory characteristics of the device.

The objective of this utility model is to create a throttle device free from the aforementioned drawback by eliminating the threaded gap between the housing and the plug.

The problem is solved in that the throttle device containing a round casing, an inner tube with intersecting channels, and the tube consists of a set of throttle plates with through inclined channels, the point of convergence of the axes of which is located on the end plane of the plate, and each subsequent plate is set to the previous mirror.

Figure 1 shows a longitudinal section of a throttle device; figure 2 shows the throttle plate front view; figure 3 a section along aa in figure 2.

The throttle device comprises a round casing 1, throttle plates 2 mounted in it mirror-sequentially installed, having channels 3 intersecting at a point 4 located on the plane of the plate 2. To receive the channels by drilling, the plates can have recesses 6 and recesses for the drill 7 to exit.

The throttle device operates as follows.

The fluid flows into the channels 3 after passing through one plate 2, they meet at the output of the channels 3 at point 4, creating a lot of resistance and, due to their directivity, turn again into the channels 3 of the mirror-mounted plate 2. By collecting a certain number of plates 2, with the required number and a certain diameter channels 3 the desired value of the coefficient of hydraulic resistance.

Since the channels are made in solid material, and the plane 5 of the plates 2 are tightly adjacent to each other, any leaks between the plates 2 are excluded and the whole medium flows only through the channels 3, which determines the increase in the regulatory characteristics of the device. And the change in the value of the required coefficient of hydraulic resistance (adjustment) is made by changing the number of plates 2 mirrored to each other and the number of channels 3 in the plates 2.

Claims (2)

1. A throttle device comprising a round casing and an inner tube with intersecting channels, characterized in that the tube consists of a set of throttle plates with through inclined channels, the point of convergence of the axes of which is located on the end plane of the plate. 2. The throttle device according to claim 1, characterized in that each subsequent plate is installed to the previous mirror.