SU1682711A1 - Water-hammer alleviator - Google Patents

Abstract

The invention relates to the field of mechanical engineering and can be used for damping water hammer in pipelines. The aim of the invention is to increase the effectiveness of water hammer damping and increase reliability. Through the connecting pipe 3, the device is connected to the protected line. The working fluid occupies the cavity of the housing 1 outside the package of elastic toroidal shells 5. When a water hammer appears in the connecting pipe, the elastic separator 10 bends,

Description

The invention relates to mechanical engineering and can be used for extinguishing hydraulic shocks in heat and water supply systems, transportation systems for liquids and sewage.

The purpose of the invention is to increase the efficiency of the water hammer and increase reliability.

FIG. 1 shows a hydraulic shock absorber, section; In FIG. 2 is a section A-A in FIG. 1; in fig. 3 shows a section BB in FIG. one; in fig. 4 shows a section B-B in FIG. one.

The hydraulic impact hammer comprises a housing 1 with a lid 2 and a connecting nozzle 3. In the housing 1, a package 4 coaxially mounted with gas of toroidal shells 5 made of an elastic material is installed. The housing 1 is made with an upper transverse partition 6, installed between the lid 2 and the housing 1 and the formation of the gas cavity 7, and the lower partition 8 having a disc support 9 and an elastic membrane separator 10, which is installed with the formation of the supermembrane cavity 11, Membrane separator 10 is fixed in the housing 1 on the stops 12 through the ring 13 (Fig. 3 and 4). The shells 5 are hermetically connected to each other through hard disks 14 having guide rings 15 connected to them by means of rods 16 (Fig. 2). The upper shell 17 is tightly connected to the upper partition 6, the lower shell 18 to the lower partition 8. The gas cavity 7 communicates with the cavity of the shell 17 through an axial hole 19 in the upper partition 6. The cavity of the shell 17 is sequentially communicated with the cavities of the shells 5 and 18 through axial holes 20 in hard disks 14. The cavity of the shell 13 communicates with the supermembral cavity 11 through the axial hole 21 in the lower partition 8. The shells 5, 17 and 18 and the membrane separator 10 are made of at least two layers of the cord material ovym coating.

Hydraulic shock absorber works as follows.

In the initial state, the cavity of the housing 1 through the nozzle 3 is filled with working fluid. The gas cavity 7 and the cavities of the shells 17, 5 and 18 communicated with it and the submembrane cavity 11 are filled with gas under working pressure from an unauthorized source of compressed gas (not shown). I Ipn abrupt pressure increase in the protected line (not shown), the pressure peak passes through the connecting pipe 3 and acts on the membrane separator 10. The latter bends, causing compression of the gas in the shells 18, 5 and 17 and the gas cavity 7, which leads to deformation of the shells 18 , 5 and 17, oscillatory movements of the disks 14 and dampening of a water hammer. Due to the fact that the cavity of the housing 1 outside the compartments 18, 5 and 17 is filled with the working fluid, oscillatory movements of the disks 14

quickly quenched, and the shells 18, 5 and 17 quickly regain their shape due to the interaction with the working fluid, it reduces the risk of repeated oscillations in the line and ensures high reliability of the device. The presence of guide rings 15 eliminates skewing and jamming of the disks 14.

The construction of shells 5, 17 and 18 and membrane separator 10 of several layers of rubber-cord material increases their strength, and the nylon coating protects against the adverse effects of the working medium and increases wear resistance.

Claims (1)

1. Hydraulic damper, comprising a body with a lid and a connecting pipe and a coaxial package of additional gases of the thyroid shells installed in it, made of elastic material, characterized in that, in order to increase the effectiveness of damping and reliability, the body is made with an upper transverse partition, installed with the formation of a gas flight, and a lower partition having a plate support and an elastic membrane separator installed with the formation of an overmembrane between them cavities, shells are tightly connected to each other through hard disks with guide rings, the upper shell is tightly connected to the upper partition, the lower shell to the lower partition, while the gas cavity is successively connected to the cavities of the membranes and the supermembrane cavity through axial bores made in partitions and disks. 2, the quencher according to claim 1, distinguishes between y and y so that the shells and the membrane separator are made of at least two layers of rubber-cord material with nylon coating. Fig.i