RU2062372C1 - Jet diode - Google Patents

Abstract

FIELD: automatics. SUBSTANCE: jet diode has coaxial inlet ring, receiving pipes 1,2, and hollow cone 4. Funnel 3 is secured to the end face of receiving pipe 2. The funnel faces outlet ring pipe 1. The cone is secured in funnel 3 coaxially and provided with opening 5. The opening in cone 4 is ring. A ring set of plates 6 is mounted in opening 5. The plates are pivotally connected to the side surface of cone 4 along its generatrix. The plates are mounted for permitting rotation about their longitudinal axes 8 and partially overlap each other to form longitudinal slots. Cone 4 is provided with ring deflector 11 positioned downstream of ring opening 5. The free end of the deflector is directed toward the reverse flow. EFFECT: enhanced efficiency. 2 dwg

Description

 The invention relates to the field of automatic control and can be applied in pneumatic devices.

 Known jet diode containing coaxial input and receiving tubes, and at the end of the receiving tube is fixed a bell facing the inlet tube (see Lebedev I.V. Treskunov S.L. Yakovenko BC Elements of jet automation.-M. Mechanical Engineering, 1973. p. 253, fig. 115).

 The installation of the bell is achieved in the reverse flow turbulence of the jet, its expansion. However, an increase in diode in practice is not enough.

 Also known is a jet diode (see ed. St. USSR N 1798552, M. cl. F 15 C 1/16, publ. 02.28.93), containing coaxial input ring and receiving tube, with a bell mounted on the end of the receiving tube, facing the inlet annular tube, a hollow cone fixed coaxially in the socket with a hole.

 This device provides for reverse turbulence of the jet only due to its expansion in the socket. However, the degree of flow diode in practice is insufficient.

 The aim of the invention is to increase the degree of diode consumption.

 This goal is achieved by the fact that in the jet diode containing coaxial input ring and receiving tube, and at the end of the receiving tube is fixed a bell facing the input ring tube, a hollow cone fixed coaxially in the socket, with a hole in the cone, the hole is made circular, and inside the hole there is an annular row of plates pivotally connected to the side surface of the cone along its generatrix, mounted to rotate around its longitudinal axes and partially overlapping one another the formation of longitudinal slots, and the cone is equipped with an annular visor located behind the annular hole along the reverse flow and directed by the free end towards the reverse flow.

 Figure 1 presents a jet diode, a General view; figure 2 is a section aa.

 The jet diode contains coaxial inlet annular and receiving tubes 1,2, with a bell 3 fixed to the end of the receiving tube 2 facing the inlet annular tube 1, a hollow cone 4 fixed coaxially in the socket 3, with a hole 5. In the cone 4, the hole 5 made ring. Inside the hole 5 is installed an annular row of plates 6, pivotally connected to the side surface of the cone 4 along its generatrix, mounted to rotate around its longitudinal axes 8 and partially overlapping one another with the formation of longitudinal slots 9. The cone 4 is provided with an annular visor 11 located behind the annular hole 5 along the reverse flow and directed free end towards the reverse flow. The cone 4 is connected to the socket 3 by fasteners 10. The inner bases 7 of the cone 4 define an opening 5.

 Inkjet diode operates as follows.

 When air is supplied in the forward direction through the tube 1, a laminar stream is formed, which is almost completely captured by the tube 2.

 During the reverse flow in the socket 3, the jet is turbulized and only a part of the total flow enters the inlet pipe 1. Additionally, part of the air during the reverse flow comes from the socket 3 through the annular visor 11 through the longitudinal slots 9 formed by the plates 6, into the hollow cone 4. The air entering the hollow cone 4, having the tangential and axial (along the inner surface of the cone 4) components of the speed of movement, spins and moves inside the hollow cone in a swirling flow. With the interaction of concentric annular and swirling axial flows, the annular reverse flow is turbulized and expanded, which increases the degree of flow diode accordingly. By turning the plates 6 around the longitudinal axes, you can adjust the angle of inclination of the plates, and thereby the degree of swirling flow.

 Thus, the efficiency from the use of the present invention consists in increasing the efficiency of the device by increasing the degree of flow diode by interacting with a swirling axial flow with an annular flow.

Claims (1)

 An inkjet diode containing coaxial inlet ring and receiving tubes, and a bell is fixed at the end of the receiving tube facing the inlet ring tube, a hollow cone fixed coaxially in the socket, with a hole, characterized in that the cone has a ring hole and an inside hole an annular row of plates is mounted, pivotally connected to the lateral surface of the cone along its generatrix, mounted with the possibility of rotation around its longitudinal axes and partially overlapping one another with the formation of a longitudinal slits, and the cone is equipped with an annular visor located behind the annular hole in the direction of the return flow and directed by the free end towards the return flow.

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