RU2118803C1 - Atmospheric pressure gauge - Google Patents

Abstract

FIELD: instrumentation engineering. SUBSTANCE: pressure gauge has gas-filled reservoir (!) to which capillary tube (!!) with ends bent upwards, oil indicator (!#), pressure scale, as well as temperature error compensator are connected. Reservoir (1) is provided with gas medium volume regulator made as piston. Temperature error compensator consists of thermodrive (17) and deformable vessel (18) with one end secured to gas-filled reservoir (1) and communicating with the latter through its cavity and with second end coupled to thermodrive. Bent out end of capillary tube (11) which carries three-way cock (12) coupling the hollows of tube and reservoir to atmosphere is attached to reservoir (1). EFFECT: higher convenience in operation. 3 cl, 2 dwg

Description

 The invention relates to the field of instrumentation and can be used to create industrial and household devices for measuring atmospheric pressure.

 There are various designs of atmospheric pressure meters, the effect of which is based on the properties of the membrane aneroid box to deform when atmospheric pressure changes (Handbook of hydrometeorological instruments and installations / Reifer A.B., Alekseenko M.I., Burtsev P.N. et al. -L .: Gidrometeoizdat, 1971, p. 290-294 .; Zaitseva N.A., Shlyakhov V.I. Aerology. L .: Gidrometeoizdat, 1978, p. 90-94.).

 A disadvantage of the known atmospheric pressure meters is the low accuracy of the measurement (± 5 mm Hg), the complexity of the design and the relatively high cost of manufacture.

 Closest to the technical nature of the claimed object is an atmospheric pressure meter containing a gas reservoir, a capillary tube with upward bent ends, an oil indicator and a pressure scale connected to the reservoir, and a temperature error compensator (RF patent N 2073221, class G 01 L 7/18, 1995, prototype).

 In a known technical solution, the temperature error compensator comprises a thermometer enclosed in a gas tank with a scale, as well as an additional temperature scale and a pressure scale installed parallel to the capillary tube, the pressure scale being set to move along the capillary tube relative to the pressure scale.

 Along with the advantages, the known technical solution has the disadvantage that before each measurement it is necessary to manually move the pressure scale along an additional temperature scale, combining the reference point with the temperature value measured using a thermometer.

 In principle, this is not difficult, but at the same time it requires certain actions, creating inconvenience to especially elderly and sick people with limited mobility.

 The essence of the invention lies in the fact that it is aimed at solving the problem of automatic compensation of temperature errors in order to ensure ease of use.

 According to the invention, a known atmospheric pressure meter comprising a gas reservoir, a capillary tube with upward-curved ends connected to the reservoir, an oil indicator and a pressure scale, and a temperature error compensator, are provided with a gas volume regulator and a three-way valve for connecting the gas cavity of the reservoir with gas and the cavity of the capillary tube at one end both between itself and with the atmosphere, and the compensator for temperature errors is made in the form of a tank deformable from the thermal drive, be a cavity which communicates with the reservoir gas.

 The gas reservoir is made in the form of a cylinder, and the volume regulator is made in the form of a piston placed along the axis of this cylinder with the possibility of longitudinal movement.

 The deformable capacity is made in the form of a pressure box, and the thermal drive is in the form of a V-shaped heat-sensitive plate.

 The proposed technical solution excludes manual operations associated with the procedure for measuring atmospheric pressure, thereby providing the necessary amenities during its operation.

 The meter is also easy to manufacture and provides high sensitivity and accuracy of measuring atmospheric pressure.

 Figures 1 and 2 show an atmospheric pressure meter in two projections.

 The atmospheric pressure meter contains a cylindrical tank 1, at one end of which a volume regulator is arranged in the form of a piston 2. The piston 2 is connected to the tank cover 3 by means of a rod 4 and screw connection 5. At the other end, the cylindrical tank 1 contains a coupling 6 with a gas cavity 7. A capillary tube 11 is attached to the gas cavity 7 by means of a connecting pipe 8, a sealing ring 9 and a union nut 10. The ends of the capillary tube 11 are bent upward, and the free curved end of the tube 11 is open and connected to the atmosphere, and the second curved end is connected to the gas cavity 7 and contains a three-way valve 12, connecting the gas cavity 7 and the cavity of the tube 11 with the atmosphere. The capillary tube 11 is placed horizontally and contains an oil indicator 13 in the cavity, as a drop of a tinted polyethylsiloxane gauge liquid. A pressure scale 14 is placed above the capillary tube 11. A bracket 16 is attached to the bottom of the coupling 6 using a screw 15. A temperature error compensator consisting of a thermal drive 17 and a deformable tank 18 is attached to the end part of the sleeve 6. The designs of the thermal drive 17 and the deformable tank 18 can be different. In this case, the thermal actuator 17 is made in the form of a V-shaped plate, and the deformable container 18 is made in the form of a pressure box with end protrusions 19 and 20. One end of the heat-sensitive plate 17 contains a guide plate 21 with a longitudinal groove 22 on the side surface, attached with a screw 23 to the bracket 16. And the second end of the heat-sensitive plate 17 has a longitudinal through groove 24, through which with a screw 25 it is attached with a gap 26 to the end protrusion 19 of the pressure box 18. The end protrusion 20 of the pressure box 18 with the screw Vågå compound 27 and sealing ring 28 is attached to the end face of the coupler 6. Thus the end projection 20 comprises an axial hole 29 through which the cavity communicates with barokorobki gas cavity 7 of the coupler 6.

 The tank 1 is made of glass, and the cover 3, the coupling 6 and the union nut 10 are made of stainless steel.

 The atmospheric pressure meter operates as follows. Preliminary, the reading of the pressure scale 14 is brought in accordance with the measured pressure and the compensator for temperature errors is adjusted.

 For this, in the first case, under isothermal conditions, moving the piston 2 in the cavity of the cylindrical tank 1 in one direction or another, regulate the volume of the gas medium in the meter so that a similar change in pressure reading on a scale of 14 corresponds to a change in pressure in the external environment. Then By moving the V-shaped heat-sensitive plate 17 up or down, adjust the temperature error compensator so that, under isobaric conditions, a change in the ambient temperature would not cause the indicator 13 moves in the cavity of the capillary tube 11. After that, using the crane 12, connect the meter’s cavity with the atmosphere and tilt it in one direction or another and set the indicator 13 under the current pressure value, measured on a scale of 14. Then the valve 12 is closed and the meter is ready for operation .

 When measuring atmospheric pressure, the air through the open end of the capillary tube 11 acts on the oil indicator 13 and moves it in the channel of the tube until the gas pressure in the meter matches atmospheric pressure. In this case, a change in the ambient temperature does not affect the meter reading, since the V-shaped thermosensitive plate 17, reacting to a change in this temperature, will affect the pressure box 18, while automatically compensating for temperature errors.

Claims (3)

 1. Atmospheric pressure meter containing a tank with gas, a capillary tube connected to the tank with its ends bent up, an oil indicator and a pressure scale, as well as a temperature error compensator, characterized in that it is equipped with a tank volume regulator with gas and a three-way valve for connecting the cavity a gas reservoir and a capillary tube cavity at one end both between themselves and with the atmosphere, and the temperature error compensator is made in the form of a tank deformable from a thermal drive, the cavity otoroy communicated with the cavity of the tank with gas.  2. The meter according to claim 1, characterized in that the gas tank is made in the form of a cylinder, and the volume regulator is made in the form of a piston placed along the axis of this cylinder with the possibility of longitudinal movement.  3. The meter according to claim 1, characterized in that the deformable capacity is made in the form of a pressure box, and the thermal drive is in the form of a V-shaped heat-sensitive plate.

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