RU2283U1 - DAMPING DEVICE FOR MANOMETRIC INSTRUMENTS - Google Patents

Abstract

A damping device for manometric devices, containing inlet and outlet fittings in which filters are installed, characterized in that two hollow plugs are mounted coaxially with the thread in the inlet fitting, an annular permanent magnet is placed at the inlet of the first one and the length is adjustable threaded clutch with inlet fitting.

Description

DBMP @ 1RUI) COLOR DEVICE for MANOMBRITESUOS Prib (YaZHZh

The utility model relates to devices for suppressing pressure fluctuations of liquids and gases and can be used in devices for measuring the average value of the pulsating pressure.

A damping device for pressure gauges (A.S. 787922) is known, comprising a housing, filters and inlet and outlet fittings are installed at its inlet and outlet; tube, while the input end of the throttling sleeve is fixed in the Central hole of the partition. This device, in addition to low performance, due to the inseparable design of the damping assembly and the inability to recover when the capillary channel is clogged, has a limited range of applications. This is due to the fact. that the damping device in question provides the required degree of suppression of pressure fluctuations in the cavity of the measuring device of only one measurement limit. The larger the measuring range of the pressure gauge or sensor, the smaller the volumetric flexibility of its sensitive element and, consequently, the less effective the damper. An increase in the volume of the cavity of the damping device in order to increase its efficiency and reduce the effect of volumetric compliance of the device on efficiency leads to a significant increase in its dimensions.

Also known is a damping device in the form of an adjustable capillary throttle (see the book Bashta T. M. Hydraulic actuator and hydropneumatic automation. - M .: Shshinostroenie, 1972. - 320 pp. On

 f (

 l ML GOl L 19/06

p. 109). In a linear choke, the hydraulic resistance is controlled by changing the length of the groove of the single-threaded screw by screwing it in or out. By this action, the required efficiency of suppressing pressure fluctuations can be maintained when using pressure gauges with different measurement limits. However, as the analysis showed, with an increase in throttle resistance due to screwing in the screw, the volume of its internal working cavity decreases simultaneously (see Fig. 7b), which corresponds to the action of two opposite factors when regulating the damper's efficiency and a sharp limitation of its range of action. The more effective the damper is, the greater the hydraulic resistance of the throttle and the greater the volume of its working cavity. In addition, the absence of filters at the inlet to the screw channel and at its output leads to a decrease in the reliability of the throttle as a damping device due to clogging of the narrow screw grooves with contaminants and the smallest metal particles - products of wear of crushed pairs of units of pneumohydraulic systems.

The basis of the invention is the task to expand the scope of the damping device.

The problem is solved in that in a damping device for manometric devices containing inlet and outlet fittings in which filters are installed, characterized in that two hollow plugs are installed coaxially with the threaded inlet inlet on the input pipe, the first of which has an annular constant magnet, and the second y; steelmounted with the ability to control the length of the threaded clutch with the input fitting.

The figure shows the design of the proposed device.

The device consists of two hollow plugs 1 and 2, screwed one after another into the inlet fitting 3, an annular permanent magnet 4 is placed at the input of the first of the plugs, and the second plug is installed with the possibility of adjusting the length of the threaded engagement with the input fitting 3. To prevent spontaneous unscrewing of the plug 2, a lock nut 5 is used in the inlet 3. In the inlet 3 there is a filter choke 6 made, for example, of a porous material MP and pressed through the permanent magnet 4 with a plug 1.

in the output fitting 7, an analogous filter choke 9 is installed and strengthened by a lock ring 8.

The device operates as follows. The pressure of the working medium is transmitted sequentially through the central channel of the inlet 3, filter throttle 1st element b, a permanent ring magnet 4, the slots of the threaded connection of the inlet 3 and the plug 1 into the cavity A of the inlet 3 and then through the slots of the threaded connection of the inlet 3 and the plug 2 in cavity B of the outlet fitting 7, and from the cavity B through the filter throttling element 9 into the working cavity of the sensitive element of the device (in Fig. 1 the device is not shown).

The main damping of pressure fluctuations and water hammer occurs in acoustic RC filters formed by the resistances of the threaded channels of plugs 1 and 2 with cavities A and B. Additional damping of pressure fluctuations in the measuring circuit occurs in acoustic RC filters formed by filter throttling elements 6, 9 and, respectively, with cavity A of plug 1 and the cavity of the sensing element of the measuring device. The use of threaded channels as damping elements makes it possible to simply change the efficiency of the damping device with its small dimensions and disassemble and clean the threaded surfaces when they become clogged.

Expanding the scope of the damping device is achieved by adjusting the length of the threaded connection of the plug 2 and the input fitting 3. When screwing the plug 2, the degree of damping of pressure fluctuations increases not only due to a change in the resistance of the threaded channel, but also the ratio of the volumes of the cavity B of the housing 7 and the hollow cavity A in the inlet between plugs 1 and 2. When the hydraulic resistance of the threaded channel increases, the volume of the cavity B of the housing 7 simultaneously increases, that is, both factors correspond t improve the efficiency of the damping device in contrast to the prototype. In addition, an even greater expansion of the range of application of the damping device can be achieved by flipping the plug 2, that is, if in one embodiment it was facing the cavity to the outlet (corresponds to a larger damping of pressure fluctuations), then in another embodiment it can

face the entrance to the cavity. It should be borne in mind that in both cases it remains possible to regulate the effectiveness of the device, but only at different levels.

Thus, we can conclude that when using pressure gauges and sensors with different measurement limits, the required damping efficiency of pressure fluctuations is achieved by coarse adjustment due to the flip of the plug 3 and more finely by changing the length of the threaded connection of the plug 2 with the input fitting 3.

The use of a permanent magnet 4, in addition to the filter-inductor 6, provides greater dirt-absorbing capacity of the filtering elements at the inlet of the damper device and protects the threaded screw channels from clogging of the brittle pairs with small wear particles, which may not be delayed by the filter-inductor 6.

Applicant 1 A. G. Gimadiev

-, --- M. A. Gimadiev

Claims (1)

A damping device for manometric devices, containing inlet and outlet fittings in which filters are installed, characterized in that two hollow plugs are mounted coaxially with the thread in the inlet fitting, an annular permanent magnet is placed at the inlet of the first one and the length is adjustable threaded clutch with inlet fitting.