SU815531A1 - Piston pressure gauge - Google Patents

Description

(54) ENTIRE MANOMETER

The invention relates to a measurement technique, and more specifically to a device for measuring pressure of a porous type. Piston-type pressure measurement devices with liquid sealing and with a piston output on the indicator Cl are known. The disadvantage of the device is that the design of the piston sealing system is not perfect. Known piston gauges ,. containing a plunger pair, the plunger of which is connected via a rod and in front of an exact-mechanism to the indicator, the underspan cavity of the cylinder through the output channel is connected to the measured pressure source, and the multiplex element (gland) 2 is used as a seal With the use of a multi-layer stuffing box, friction force, between the plunger and the stuffing box, makes the pressure gauge only suitable for measuring high pressures with a small degree of accuracy; and decreases during use. The purpose of the invention is to improve the accuracy and stability of measurements. This goal is achieved by the fact that the manometer is equipped with a sealed chamber with a lid, a plunger pair is located inside the chamber, and a funnel-shaped bore is made in the cylinder on the output side of the plunger, which is filled with an elastic sealing material and the plunger is led out sleeve, the axis of which coincides with the axis of the plunger, and one end of the sleeve is inserted into the funnel-shaped bore and an sealing ring is installed at its end, which contacts the surface of the sleeve unzhera, wherein in the walls of the cylinder between the under-plunger cavity and the cavity chamber shlpolneny through channels. The drawing is a schematic representation of the wafer offered by a vanilla gauge. The piston manometer consists of a hermetic chamber 1 in which a plunger pair is installed, in the cylinder 2 of which a funnel-shaped boring 3 is made, filled with a sealing material — powder, paste-like or liquid, but necessarily elastic. You can use a magnetic fluid, but then make a non-magnetic, and the cylinder is atal.

The camera body is provided with a lid 4, on the sleeve of which a sealing ring 5, manufactured, is mounted. For example, made of recycled plastic, rubber, felt, or other material that seals plunger 6. The measured pressure is supplied through fitting 7 and tube 8 to the sub-plunger part of the cylinder with openings 9, through which it flows from above to the sealing material. The second side of the plunger is connected via a rod, for example, to a measuring core 4 with a 10 that rotates on an axis 11 together with a load 12 and sets in motion a rotary tube sector, on the axis of which the pointer is fixed.

The pressure gauge works as follows.

The pressure to be measured, the medium through the fitting and the tube is supplied to the cylinder and causes the plunger to move upward together with the rod assembly, while the pressure through the gap between the plunger and the cylinder comes from below to the seal to the material and through the holes 9 from above into the funnel of the cylinder to the sealing material, acting as a sealing layer retained in the gap between the plunger and the cylinder by the pressure of the medium being measured. The rod sets in motion the measuring arm with the load and, through the transmission-multiplying mechanism, acts on the indicator needle. The movement of the piston continues until the force developed by the piston is equal to the force opposed by the load 12 and the transmission mechanism with an arrow.

The presence of a sealed chamber and a special seal contributes to

the creation of technical, control and sample instruments for measuring low, high pressure and discharge in various modifications.

Claims (2)

1. KI Khansuvarov. Precise instruments for measuring absolute pressure. Overview. M., Publishing house of standards, 1971, p. 28 2. The US patent 2,044,055. cl. 73-419, 1936 (prototype).