SU699379A1 - Damping device - Google Patents

Claims (2)

The invention relates to throttling devices for damping hydraulic shocks and damping high-frequency pressure fluctuations in a liquid, preferably in the channels connecting the lines with manometric instruments. Single pressure impulses with a steep leading front can cause the occurrence of significant accelerations of moving parts and overloads in the gauges of pressure gauges, or can destroy sensitive elements (Bourdon tubes, bellows, etc.). High-frequency oscillations that are not of interest in the model and generated, for example, when the plunger and gear pumps operate, in the dial gauges make it difficult to read the indications of vibrations of the arrows, cause premature operation of the contact sensors and laziness. The oscillations cause wear in kinematic pairs, which irreversibly worsens the accuracy of the instruments. Pressure absorbers are known that contain a throttling channel formed by a screw thread and a device for adjusting the length of the channel l}, .2 ,, Such absorbers are not effective enough for various frequencies and waveforms. The closest in technical essence to the proposed is a device that eliminates the effect of pressure pulsations, made in the form of a threaded rod with throttle channels, placed inside the connecting nipple h. Unstable channel filling with liquid, depending on the orientation of the choke in the force field, leads to arbitrary characteristics of the device, as a result of which, under varying frequency conditions, the assignment properties deteriorate, which is unacceptable in real systems, when the speed of pulse propagation depends on viscosity and content dissolved or dispersed gases in LIQUID, when the excitation frequency of the pulses changes, as is the case, for example, in the oil lines of engines, automatic gearboxes of automobiles s, etc. The throttling channel is prone to abliteration, i.e. clogging with wear products, oil oxidation, etc., which leads to a complete loss of damping properties. The purpose of the invention is the improvement of the damping properties and the reinforcement of structures. This is achieved by the fact that in the damping device on the outer surface of the threaded rod from the opposite ends there are deaf grooves in areas longer than half the length of the rod, as well as the grooves made at an angle to each other. The ridges of the rod threads formed between the grooves are parallel-connected spiral channels, with the mouth of the channels at the junction with each groove being oriented towards each other. During the transition from one groove to another, the fluid's velocity vector changes its direction four times at a right angle, which contributes to intense energy dissipation. The length of the oppositely spaced spiral channels is determined by the location of the grooves on the rod and when they are tilted relative to each other, the ratio of the lengths of the spiral channels changes along the length of the rod. The difference between these lengths and the speed of movement of waves in a liquid will thus also be variable, which will overlap a wide range of frequencies in conditions of a change in the velocity of propagation of pulses depending on viscosity, which varies with temperature, the content of dissolved gas, as well as changes in the frequency of the exciters of oscillations. FIG. 1 shows schematically the proposed damping device; Fig. 2 is the same cross section. In fitting fitting 1, there is a threaded hole 2 in which a threaded rod 3 is screwed, on which there are blind holes 4, starting from opposite ends of the threaded rod 2. The grooves overlap one another without intersecting the threaded rod in the middle zone, where the outer thread diameter of the rod decreases so that the thread surfaces of the rod and fitting form spiral channels of a triangular pro () un, which connect adjacent ramshots The spiral channels due to the location of some of the grooves at an angle and forming the rod have different lengths. Phase displacement of pressure pulses by 180 (antiphase) as they pass through the spiral channels leads to their extinction when encounter in the groove. Pressure pulses in phase when passing through spiral channels are converted into velocity pulses, which, due to numerous turns and mutual collisions in the grooves, form small-scale turbulent pulsations, quickly dissimilate and eventually the energy of the pulses is converted into heat. relative to the other ratio of the lengths of the spiral channels is in a considerable interval, therefore, in any pairs of opposing channels, interaction is surely achieved Corollary antiphase pulses. The proposed absorber does not introduce errors into the measurement of the magnitude, since, in view of complete symmetry, it does not have a diode effect. At the same time, the actual constant pressure component is measured. The device is stable in time due to high mechanical strength and stability of cyclic effects. Due to the absence of stagnant zones, clogging of deposits is excluded. Production technology is implemented on high-performance standard equipment. The device protection devices can be used to reduce pressure fluctuations in any hydraulic system, since it is installed in any part of the line, or branches, where an internal thread can be made. The device can be combined with connecting pipe unions. Formula of the Shadow Figure 1. A damping device made in the form of a rod with a screw thread, forming a throttling channel with a response thread of the choke inside which it is placed, differs from the fact that, in order to increase efficiency and simplify the design, the outer surface of the rod with opposite ends made