RU2144641C1 - Pressure stabilizer - Google Patents

Abstract

FIELD: transportation of liquids. SUBSTANCE: proposal refers to means of pneumatic-hydraulic equipment and can be used to terminate variations of pressure and flow rate when working medium is pumped and to suppress water hammer. Pressure stabilizer is made of perforated pipe-line with connection branch pipes and damping chamber in the form of cylindrical tube made from elastic material embraced with rigid enclosure that is placed around pipe-line. Circular space between enclosure and tube is filled with insert of elastic material. Insert has recesses distributed over its surface and/or cavities distributed over its volume. Recesses can have shape of either circular, longitudinal or spiral grooves or recesses of unspecified shape. Insert can be produced in the form of cylindrical sections separated by rings of smaller diameter forming circular grooves. Cavities in insert can have form of longitudinal or radial grooves. Perforated pipe-line is covered by elastic membrane. EFFECT: reduced dimensions sluggishness of pressure stabilizer in wide range of working pressures. 8 cl, 6 dwg

Description

 The invention relates to means of pneumohydraulic equipment and can be used at enterprises in the energy sector, petrochemical industry, municipal water and heat supply to dampen pressure and flow fluctuations when pumping a working medium by pumps, to eliminate water shocks that occur when valves and shutters are closed, pumps are turned off or started up closed gate valve.

 Pressure stabilizers of the working medium are known, which are a section of a pipeline with distributed perforation through which the pumped medium can flow into a damping superstructure over its perforated part [1-3].

 A disadvantage of the known means is the inertia of the hydraulic path, which communicates the central pipeline with a damping superstructure.

 The closest in technical essence to the proposed device is a pressure stabilizer containing a perforated pipe with connecting pipes, as well as damping chambers, each of which is made in the form of a rigid casing, divided by two transverse partitions with perforation holes into three cavities, in the middle of which there is an insert made of elastic material, made in the form of a package of car tires with elastic packing, the extreme cavities are in communication with the cavity of the housing covering the perforation a conduit, and the tires are mounted on a pipe with end caps [4].

 The disadvantage of this device is the complexity of the layout in piping systems, where strict requirements are placed on the dimensions of the stabilizer. To increase the flexibility of the damping chambers of such a stabilizer, it is necessary to increase the length of the package of car tires, which also leads to an increase in size. A significant part of the volume of the damping chamber is irrationally occupied by a plugged pipe. In addition, loading the damping package with overpressure is carried out not along the length, but from the ends, which impairs the lasing properties of the stabilizer.

 The technical result of the proposed device is to reduce the dimensions of the stabilizer by providing the ability to control the flexibility of the damping chamber by varying the number and size of the recesses and cavities in the insert made of elastic material without increasing its size over a wide range of operating pressures of the medium, and also to reduce the inertia of the stabilizer by loading the damping insert along the entire length, and not from the ends.

 The technical result is achieved in that in a pressure stabilizer containing a perforated pipe with connecting pipes and a damping chamber in the form of a rigid casing with an insert of elastic material placed therein, the damping chamber contains a cylindrical tube of elastic material, enclosed by a rigid casing with the formation of space relative to the tube walls filled with a liner of elastic material, which is made with cavities distributed over its surface and / or cavities along its volume and.

 In addition, the recesses may take the form of annular grooves.

 In addition, the recesses may take the form of longitudinal grooves.

 In addition, the recesses may take the form of spiral grooves.

 In addition, the liner of elastic material may be in the form of cylindrical sections separated by rings of smaller diameter, forming annular grooves.

 In addition, the cavity can be made in the form of longitudinal grooves.

 In addition, the cavity can be made in the form of radial grooves.

 In addition, the pressure stabilizer may be provided with an elastic membrane covering the perforated pipe.

 In addition, the liner of elastic material can be placed in the annular space of the casing with a gap between the end surfaces of the liner and the casing.

 Figure 1 shows a General view of the stabilizer in section. In FIG. 2 - FIG. 6 shows sections of an element of elastic material (embodiments).

 The pressure stabilizer consists of a perforated pipe 1 with connecting pipes 2 and a damping chamber 3 surrounding it. The pressure stabilizer may contain one damping chamber 3 mounted directly on the working pipe, and may contain several perforated pipes 1 with damping chambers 3 connected by their connecting pipes to cavity body, covering the Central perforated pipe, as is the case in the prototype. The number of damping chambers depends on the size of the pipeline, operating pressures and the required degree of reduction in pressure fluctuations.

 The damping chamber 3 is made in the form of a cylindrical tube 4 of elastic material, which is covered by a rigid casing 5. The annular space between the casing 5 and the tube 4 is filled with a liner 6 of elastic material. To fix the ends of the tube 4, various structural elements can be used, for example, clamps 7, which press the ends of the tubes 4 to the rings 8 mounted on the pipeline 1. An insert 6 of elastic material is made with recesses 9 and / or cavities 10 distributed over its surface. These recesses 9 or cavities 10 may have a different shape. The recesses 9 may be in the form of annular grooves, which can be made in the insert 6, or formed by cylindrical sections of this insert 6, separated by rings of smaller diameter (Fig. 1). The recesses 9 may be in the form of longitudinal grooves (figure 2), spiral grooves (figure 3) or recesses of arbitrary shape (figure 4).

 The insert 6 may have internal cavities 10 in the form of, for example, radial grooves (Fig. 5) or longitudinal grooves (Fig. 6).

 The insert 6 of elastic material is placed in the annular space of the casing 5 with a gap between the ends of the insert 6 and the casing 5.

 An elastic membrane 11 is fixed on the perforated pipe 1, covering a portion of the pipe 1 with holes.

 In the initial state, when the working medium enters the perforated pipe 1 from the pressure line, it fills the space under the elastic membrane 11 through the perforations 12. The membrane 11 constantly undergoes the working pressure of the medium and protects the damping chamber 3 from exposure, excluding the deformation of the tube 4 from elastic material and liner 6 made of elastic material, thereby increasing their shelf life.

 With a sharp increase in the pressure of the working medium, it flows through the openings 12, the elastic membrane 11 breaks and the pressure wave is suppressed due to energy dissipation at the perforation openings 12, and also due to the flexibility of the tube 4 and the insert 6 from an elastic material that is squeezed out into the recesses under the influence of a pressure wave 9 or cavity 10.

 Prior to rupture of the membrane 11, small pressure fluctuations are suppressed due to the elastic deformation of the membrane 11. After water hammer and rupture of the membrane 11, the working pressure of the medium directly affects the tube 4 of elastic material and the insert 6 of elastic material. The presence of recesses 9 on the surface of the liner 6 and / or cavities 10 in its volume, as well as gaps at its ends allows damping due to extrusion of the material into these additional voids. The regulation of the frequency range of the damped waves and the degree of decrease in their amplitude is achieved by varying the size and number of recesses 9 and / or cavities 10.

Sources of information
1. USSR author's certificate N 1010392, cl. F 16 L 55/04, publ. 04/07/83, bull. N 13.

 2. USSR author's certificate N 1216542, cl. F 16 L 55/04, publ. 03/07/86, bull. N 9.

 3. Copyright certificate of the USSR N 1672093, cl. F 16 L 55/04, publ. 08/23/91, bull. N 31.

 4. RF patent N 2056577, cl. F 16 L 55/04, publ. 03/20/96, bull. N 8 (prototype).

Claims (9)

 1. A pressure stabilizer comprising a perforated conduit with connecting pipes and a damping chamber enclosing it in the form of a rigid casing with an insert of elastic material placed therein, characterized in that the damping chamber comprises a cylindrical tube of elastic material, enclosed by a rigid casing with the formation of space relative to the walls a tube filled with a liner of elastic material, which is made with recesses distributed throughout its surface and / or cavities throughout its volume.  2. The pressure stabilizer according to claim 1, characterized in that the recesses are in the form of annular grooves.  3. The pressure stabilizer according to claim 1, characterized in that the recesses are in the form of longitudinal grooves.  4. The pressure stabilizer according to claim 1, characterized in that the recesses are in the form of spiral grooves.  5. The pressure stabilizer according to claim 2, characterized in that the liner of elastic material has the form of cylindrical sections separated by rings of smaller diameter, forming annular grooves.  6. The pressure stabilizer according to claim 1, characterized in that the cavity is made in the form of longitudinal grooves.  7. The pressure stabilizer according to claim 1, characterized in that the cavity is made in the form of radial grooves.  8. The pressure stabilizer according to any one of claims 1 to 7, characterized in that it is equipped with an elastic membrane covering the perforated pipe.  9. The pressure stabilizer according to any one of claims 1 to 8, characterized in that the liner of elastic material is placed in the annular space of the casing with a gap between the end surfaces of the liner and the casing.

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