DE1954639U - HIGH PRESSURE MEASURING CELL. - Google Patents

Description

The "fire" meets a "" high pressure cell with a tightly closable hollow body / and at least one with the latter-vermrderieri, with "its internal chamber" to a pressure inlet slide valve. 3D measuring cells of this type are used for this purpose , ying by ^¥: the density of highly compressed fluids, such as gases, particularly corrosive fluids :, to determine in a wide Temperaturbereich- ■ '"..

Usually such a determination is made by means of a precision balance by measuring the ~ weight of a dense Measuring cell of known volume., Which with. dem: compressed fluid is filled under a pressure which is also known, -from which

Oas. 68

Measure manually by forming the difference with the weight of the empty Cell derives the weight of the fluid it contains "

In spite of their simplicity, such cells must in principle meet a certain number of conditions. These cells have to be very resistant, namely at high internal pressures and be absolutely tight, and their internal volume must be so constant and be as big as possible. A large interior volume is is desirable because the accuracy of the measurement increases as the volume increases due to the fact that the absolute error in the measurement of volume. practically on the measured volume is independent. . .

For the above ⁷ reasons and despite the fact that the dimensions of such cells are limited with regard to their handling, the previously known measuring cells are heavy and weigh several kilograms Using a _; large volume runs the risk of being canceled by the error in the felling. The precision measuring devices currently available on the market with an accuracy of one milligram have a maximum range of one kilogram, which prohibits their use with the previously mentioned known cells. It is therefore necessary to weigh these cells with scales - which provide coarser weighing results. Furthermore, between two consecutive "weight measurements both * against -., The - surrounding -" -

- ^ 3

Atmosphere, as. Also the introduced product unchanged remain, which requires special precautions during the use of these cells with "corrosive gases. Finally it is desirable that the measurements of the volume mass with one and the same / measuring cell, in the widest possible temperature range :, can be done »

The object of the innovation is to create a high-pressure measuring cell of the type mentioned at the beginning, which fulfills the above requirements and altogether avoids the aforementioned disadvantageous parts adhering to such measuring cells. In particular, the Hochäruckmeßze.lle proposed here should be able to be used with a precision balance which has a measurement accuracy of one milligram at pressures ύοπ several hundred and possibly even several thousand kg / cm and are also able to to withstand the corrosion occurring on the part of the fluids to be examined, and to be usable in a world temperature range «

This is the task of the high-pressure measuring cell proposed here of the type mentioned at the outset mainly achieved in that, according to the price increase, the hollow body consists of a hollow cylindrical., with regard to their material composition on the corrosion activity. of the "to be examined" fluid dependent steel sleeve, whose.at least one end is made of stainless Steel-made ", also-, under Jjojjen prints in a wide tem-

is assigned temperature range .Einlaßschieber dense, and is dimensioned such ^that: the .-; total weight of the cell after filling with the "question I ¹ IUID is below a kilograms and the internal volume of the liner, taking into account the fact that the ratio of outer to The inner diameter of the liner for a steel forming it is determined by the maximum filling pressure, which has the maximum value compatible with this weight restriction. ■ '. _: ^;

Preferably each inlet valve has one axially guided ,, with .stellit or another hard metal alloy coated and by means of a tetrafluoroethylene polymer (known under the popular name "Teflon") existing stuffing box sealed valve needle. . ,

According to a further characteristic of the hiring process, the bushing of the measuring cell in the case of a highly corrosive fluid to be examined is made of rust-free material. Steel with 18 fo chromium and 8 fo nickel or with 18 fo chromium, 8 fo Hiekel and 5 ^ molybdenum and im. opposite case of a steel with. 13 f> Ghrom.-

learner ist.bei proposed here Hochdruckmeßzelle of Advantageous, if- ~ the minimum VerKälinis K between the outer and the sleeve from the maximum rnnendLirchmesser ^ Betriebsdru.ck according to the ^G-Ieichung: / ~ - ^"-: _ - ::

ir-

■ ■. ■ G?

- 5 -

where E is the maximum operating pressure in kg / cm and 1 is the coefficient of elasticity of the one forming the sleeve

2
Stahls in kg / mm "mean:

Finally, is-it. for the high pressure measuring cell according to ! Price increases in a particularly advantageous embodiment useful if the can weighs about 400g and the internal volume, expressed in cm, is the value

where K is the ratio of outer to inner diameter .the rifle is. .

. In the drawing, a high-pressure measuring cell of the type proposed with the innovation is in a selected one, for example Embodiment illustrated in longitudinal section scnematiscü.

The made of stainless steel, hollow cylindrical sleeve 1 is tightly closed at each of its ends, namely even at very high pressures that increase up to 4-000 kg / cm can. This' tight, closure takes place on the one in the drawing left side of the rifle. 1. through the plug 2 and on the right " Page ■ Gtrough the inlet valve..5. :

The inlet he pushes 5 ^ "has a valve body .4 that aii its one end, an external thread 5- ^ with which it

is tightly connected by means of a corresponding seal to the cylinder liner 1 via its internal thread .6. The valve housing 4 contains an ^: axial bore 7 which is connected on the one hand to the interior of the sleeve 1 and on the other hand to a calibrated passage -8 provided in the valve housing 4 Channel IO opens, which on its other side merges into a G-ewindeans.chluß 11, via which a pressure fluid source is to be connected. :

A valve needle 12 covered with stone is guided in the chamber 9, - its cylindrical part 12 * just covers the side channel, - when its conical part 12 ^{! 1} closes the connection between the calibrated passage 8 and the cylinder chamber 9. The cylindrical one. Shank 12 'of valve needle 12 is surrounded by a stuffing box or similar seal 13, which consists at least partially of a tetrafluoroethylene polymer (known under the trade name "Teflon"). This seal 13 is mounted in .ein compared to the chamber 9 larger chamber 14 and. the. Pressure force of a Äb. Dichtmuf fe 15, which is in ... a G-threaded hole- T6. of the valve housing 4 is screwed in. Is tv Vie Aioirchtmuffe 15 in turn has a bore 17, of which a part 18 is provided with an internal thread and the other part 19 ^: the tight passage of the valve needle shaft. 12 'to: the outside of the valve housing 4 is used.

- 7th

- ", -. ■": ■ - ■. ■. · ■■ - ,. ■ ö

At the location of the internal thread area. 18, the valve needle shaft 12 'has a cylindrical, externally threaded one Shoulder 20, the one with the. Internal thread 18 cooperates. The rear end of the valve needle 12 is provided with a handle 21 equipped, -the on ..the valve needle 12 by means of a tensioning screw. 22 is attached »-.

Taking into account the weight of the inlet valve 3 is the weight of the. Cylinder liner 1 about 400g so that the ■ G-e including the weight of the complete, gas-filled measuring cell below one kilogram. ; ..

.. If the measuring cell with. a, highly corrosive gas is to be applied, is a stainless steel for the cylinder liner 1 with 18 fo chromium and & _fo: .Iiekel austenitic structure or $ 18 chromium, 8% nickel and 3 $> molybdenum from; tenoferri-tisehern - Structure chosen. Both of the aforementioned steels have excellent resistance to corrosion at a reasonable price and have suitable properties. Properties of mechanical ^{strength 1} and machinability. In contrast , the gas to be introduced is not very corrosive, a steel with 13 ^ chromium, which has excellent grades: mechanical strength, can be used for the cylinder liner T.

The use of ^{1 material covered} by a protective layer

stoffen- ^ oh ^ er mechanisefer - FesMgl & eit .is not suitable because

■ -: 8-

the need to use the same measuring cells. to work in a wide temperature range, which excludes combinations of materials whose thermal expansion coefficients are different. " ■ ":" _ ""'""" ^: '"'"-.""■'"

Is the material that makes up the cylinder McJiBe 1 above all with regard to. Resistance to corrosion and temperature -and taking into account the corresponding mechanical. Firmness chosen. so is it the maximum operating pressure P _? which determines the "wall thickness of the measuring cell or, more precisely, the" ratio K of the outer diameter to the inner diameter of the cylinder liner 1 for a given steel. In the general case, this ratio is determined according to the experimentally found G-Ie i ο hung

: '■■■: ■ : -' .: '· - " _Λ ς ρ _ -.JL / κ ² - !,

calculated in the P the. Maximum operating pressure in kg / cm and E mean the coefficient of elasticity of the material used in kg / mm. ... ■ - ■. . - _:

Pur usual stainless steels having 18 foGh.Tom.mia 8 $ Lickel whose elastic limit is 25 kg / mm, hence the Minimalwe.rt the diameter ratio K as a function of the BetriebsdruGks P is given by the following table: - P (kg / cm ² ) -. .600 ^^^^ si. ^ _ TOO-. .900 E.linimum ^ /, r, 6:; = ^ .. ^. 3- ^ "-:.! " A ■ '"

The elastic limit is for a steel with $ 13 chromium substantially, higher "and can reach 100" to 120 kg / mm. Of course you can. then; work under much higher pressures than before, but with the proviso that the inlet valve used is adapted and made of a similar steel. The minimum value of the diameter ratio E as a function of the operating pressure P could be converted into In this case choose according to the following table:

P. (kg / cm-) ■■ '..- 2. 000 3 .000 3. 500 3 .700 K minimum 1.8 2.2 3 4th

After all, they own; Measuring cells according to the innovation for a certain diameter ratio K of your cylinder liner a maximum internal volume with a - "weight of the cylinder liner, which shouldn't exceed 400g by much. This construction. condition can be expressed by the equation

.. ■ "■ -Y (K ² - 1) = SO

where T is the volume in cubic centimeters, and for Yferte of K-the same -.- order of magnitude as that of the preceding Tables the volume of the measuring cells is given by the table below! ■ _ \ - "; -; .- ■. '■■

K. - ^: - ■ 1.6- /; '", 2. .'-" .. ■■ - ■'. 3. 4 T Com ⁵ ) - ^; ■ -_. 35 ^: - :; . ^{V ;:} V5- _ ■ '■' ■■■ β "/ 3

■ ^: "^" DXe seals- "the;! Ice cell ¹ are subject to their structure and the; effect, the; -. Pressure and the temperature / minimum

; ■ "■■■ - - ■ ■■.". ■. ■ - ■. "- 10 -

Deformations. The use of a tetrafluoroethylene polymer for the formation of the stuffing box allows the measuring cell to be operated at temperatures below -TOO ⁰ O and up to temperatures of + 30O ⁰ O, which offers a wide temperature range that can be used can sweep over with one and the same measuring cell.

Use of the high-pressure measuring cell according to the innovation is extremely - 'easy,. After 1 vacuum is made in the interior of the cylinder liner and. the inlet slide 3 has been closed so that the connection between the interior of the cylinder liner 1 and the connection 11 is interrupted, the empty cell is weighed. Of course, before and once and for all: the internal volume of the cell was measured. All corrections that take account of any changes introduced by the pressure or the temperature are either calculated or set up experimentally. The measuring cell can then be connected to a source of pressurized gas. The interior of the measuring cell is filled with a gas of a certain pressure which is determined by means of a corresponding measuring device which is connected to the line attached ^{to connection: H} The stopper 2 is replaced by another inlet slide, so that the pressure of the gas contained in the cell can be measured via the second inlet slide and the cell can be filled by circulating the fluid After the cell has been filled with a gas under the desired pressure, one closes the or the inlet ...

-π-

slider and weighs the cell again »You know hence the mass and volume of that contained in the cell Gas "" let us determine the density of the gas Nature of the more or less corrosive to be examined Fluids can be worked with more or less high pressure. Regardless of this, "-the": Accuracy of the measurement, however, when the volume decreases, they usually turn out to be errors in the weight determination and volume calibration smaller as-those that result from the pressure when measuring cells according to the present! fire used «

For the construction of the high pressure measuring cell according to the innovation the most varied of embodiments are conceivable. In particular, the "cell body" can be produced in that a cylinder made of corrosion-resistant steel is shod with a steel with a high elastic limit.

..- 12

Claims (2)

1. Hochdriiokmeßzelle with a tightly closable hollow body and Diind it te na connected with the latter, with its interior connected to a pressure source, daduroh__gefcennz ei without ■ t _; - that the hollow body consists of a hollow cylinder _? With regard to its material composition, it depends on the corrosion activity of the fluid to be examined -. made of stainless steel, even under high pressure valve gate valve (3) leakproof over a wide temperature range is assigned, and is dimensioned so that the total weight .The cell after filling with the relevant fluid under a Kilograms, and the inner volume of the sleeve (1) below Consideration of the fact that the relationship of external to ■ Inner diameter of the liner for a steel that forms it by the maximum. Pülldruck is determined with this . Agree weight limit has a maximum value. .2. Measuring cell according to: Claim 1, characterized in that each Inlet valve (-3) an axially guided, with stellite or a other hard metal alloy coated by means of a stuffing box made of a tetrafluoroethylene polymer (13) has sealed Yentilnadel (12). 3 "measuring cell" after. Claim 1 or 2, characterized in that their. Sleeve (1) consists in a highly corrosive to be examined fluid stainless steel with 18 fl chromium and 8 io nickel or 18 fo chromium, 8- # nickel and 3 $ molybdenum and in the opposite Lall of a steel with 13 fo chromium. . . "■". "-..-. ■ 4. Measuring cell according to one of claims 1 to 3? characterized, that the minimum ratio E between the outer and inner diameter of the bushing (1) of the maximum operating pressure according to the equation. .. ". ^: "'i ■ * -ρ _ JL ^ = I depends, is in the J? the-maximum- operating pressure in kg / cm ' and.E is the coefficient of elasticity. the one forming the sleeve 2
Stahls in kg / mm mean » 5. Measuring cell according to one of the ■ "preceding claims, characterized in that the sleeve (1) has a weight of about 400g and the internal volume Y expressed in cm is the value where 1 is the ratio of outer to inner diameter the rifle is. '"-