SU518662A1 - Device for the protection of manometric instruments - Google Patents

Description

(54) DEVICE FOR SEWING

MONOMETRIC PARTS

The invention relates to quenchers of pulsating pressures and hydraulic shocks in the hydraulic and pneumatic pipelines; systems and can be used in machine tools, aircraft engineering and other engineering industries, which use gauge devices.

The known devices for the protection of manometric instruments at measurements of pulsating pressures consisting of a body, in which throttling elements are placed, do not provide sufficiently reliable protection of the manometric instruments against pressure pulsations and hydraulic outages. Row, W, W

Therefore, during the operation of manometric instruments, these devices quickly went out of order, did not obscure precise measurements, and because of the arrows.

ifenb of the invention — eliminating the effect of pressure pulsations and hydraulic shocks on pressure gauges by compensating for e-quiet pulsations.

To do this, in the proposed device, the threaded rod is provided with two pairs of radial throttle holes extending into a common axial throttle hole, located in different planes at a distance of at least 10-12 axial hole diameters from each other, and the diameter of the first pair of radial throttle holes in two times smaller than the diameter of the axial and second pair of radial throttle holes.

FIG. 1 shows the proposed device for the protection of manometric instruments, a longitudinal section; in fig. 2 is the same, section A-A in FIG. one; in fig. 3 - the same, section BB in FIG. one.

The device for the protection of manometric instruments consists of a cylindrical rod 1 placed in the connecting nipple 2 of a manometric instrument and having a thread 3 and flats 4 and 5 on the outside.

Claims (3)

Inside the cylindrical rod there is an axial throttle bore 6, with which two radial throttle holes 7 and two radial holes 8 are connected. The diameter of the holes 7 located on the same axis is two times smaller than the diameter of the bolt 8 (also located on the same axis), having a diameter ,, identical with hole 6. Here, the distance between the planes of the holes 7 and; 8 is 1 O-12 diameters of the axial hole. The device works as follows. The axial hole 6 and then the cavity of the sensing element of the device (not shown) liquid flows in two directions: through the holes 7 and through the gaps in the thread 3 and then through the hole 8. The first pottas of the liquid at the holes section In two equal flows, the nocKOinb ku both throttle holes 7 have the same diameters. So; as both flows are directed towards each other, pressure pulsations and hydraulic shocks when the fluid enters the axial bore 6. all meet in antiphase and therefore mutually compensate. The second fluid flow through the gaps of the threaded joint is collected in the holes 4, It is also directed to two identical streams directed towards each other. In view of this, pressure pulsations and hydraulic shocks are also mutually compensated for in this direction. In addition, the fluid flows into the axial orifice 6 from the orifices 8 have an additional soothing effect on the fluid moving along the orifice 6 from the orifices 7. As a result, pressure pulsations and hydraulic shocks are compensated; , and the liquid in the sensitive element of the device is only under static pressure, which is why, for example, the vibrations of the needle and the whole mechanism of the manometric device are eliminated. Therefore, the measurement accuracy and the service life of the gauge are increased. Claim device A device for protection of manometric devices, made in the form of a threaded rod with choke holes, placed inside the instrument's fittings; characterized in that, in order to eliminate the influence of pressure pulsations and hydraulic impacts on manometric instruments by compensating for these pulsations, the threaded rod provided with two pairs of radial choke holes, extending into a common axial choke hole, located in different planes at a distance of at least 10-12 diameters meters of axial bore from each other, and the diameter of the first pair of radial throttle holes is two times smaller than the diameter of the axial and second pair of radial throttle holes. Sources of information taken into account during the examination: 1. Author's certificate No. 131123, 1960 E / M.C.L. G 01 L 19/06 (prototype). 2. Author's certificate N «216994, 1967, M. Kl.a C5 OIL 23/00. 3. Author's certificate 131933, 1959.M.Kl. G 01 1- 19/06. .1 A