DE2349422A1 - FLUID FLOW RATE CONTROL DEVICE - Google Patents

Description

Dr. Tlvrhtrt ScJio! "

Pu :; ■. • ■ i -.-. Y.ali

Applicant: IY ¹ F Ίά-Ateä PP Π32

TP I " ¹ ? 2 Va / RJ

s ^ pt. ^? 7? 2349422 9/24/73

"Fluid Flow Rate Regulator".

The invention relates to devices for controlling fluid flow rates.

Especially with Ga »chromatography as well with other techniques for small-scale analysis or treatment it is often necessary for fluid flows with very to ensure low flow velocities and to regulate them. This can be achieved, for example, by that a pressure regulator is used that delivers fluid at a higher pressure, and that between this pressure regulator and the device in which the low flow rate is desired

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Fluxdstroraungsicherung is arranged, the one
Creates pressure gradient which is related to the fluid flow.

A known fluid resistance element that provides such resistance consists of one
Mass of sintered porous material, e.g. sintered stainless steel, which is placed in the fluid supply line
can be included. The pressure gradient, with the help of which the flow is regulated, occurs in the resistance element, which can be attached some distance from the pressure regulator.

In the case of gas chromatography, such a resistor can advantageously be used to lower the pressure of a carrier gas into which a sample has to be introduced which flows with the carrier gas stream into the chromatography column. Another application
consists in reducing the pressure of air and / or hydrogen introduced into a flame ionization detector. Another application is the introduction of a cooling gas into one
Electron capture detector.

In such situations it would be advantageous to place the resistive element in the vicinity of the device to which the gas is being supplied. Of the
Resistance could then be placed in the same temperature control zone as the effective device

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will. Another grand is the »that it when the Resistance is used to regulate the introduction of gas, e.g. in an electron capture detector, is advantageous is that the lowest possible "dead" gas volume with low pressure between the said Detector and the resistor is present to back diffusion of sample substances along the cooling gas supply pipe to avoid. It would also be advantageous if the member in which the resistance element is arranged, Easily accessible or easily removed for testing or replacement purposes.

The present invention aims to provide a fluid flow limiting device that includes a or has more of the extended advantages. The fluid flow limiting device for gas analysis equipment is characterized according to the invention in that it is a pipe through which gas can flow, and includes a resistive element made of a porous material in a holder extending from one end of the The pipe extends, the resistance element being located in a bore made in the holder, to establish a connection with an effective device or with another pipe, with which the pipe must be coupled and which is attached to a collar at the inner end of the bore is, the device being such that, by

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the pipe is detached from said operative device or from the other pipe, the resistance element can be removed with the tube from the apparatus for testing or replacement purposes.

The invention also provides a coupling device for gas analysis apparatus between a effective device of the apparatus and the pipe through which gas can flow, which is characterized by that the tube is received in the fluid flow limiting device described in the preceding paragraph. The invention also relates to a gas chromatography apparatus with an effective device, with which a pipe is coupled by means of a coupling device of the type just described, and to a Gas flow separation device for gas analysis apparatus with a chamber, at least one tube with the relevant Inlet or outlet opening is coupled by means of the coupling device described.

The invention is explained in more detail below, for example with reference to the drawing. Show it:

1 shows a fluid flow limiting device according to the invention with a tube and a resistance element in a holder extending from the end of the tube;

FIGS. 2 to k show some possible modifications of the embodiment according to FIG. 1 of the inventive

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Fluid flow limiting device,

5 shows a fluid flow limiting device, whose shape comes closest to that of the device of FIG. 1 and that in a coupling device according to the Invention between the pipe and a part of the apparatus, supplied to the fluid, or discharged from the fluid is arranged,

6 schematically shows a gas chromatography apparatus, with air and / or hydrogen being a flame ionization detector are supplied via the coupling device according to FIG. 5, and

Fig. 7 schematically shows a gas flow separation device for gas analysis apparatus according to the invention, wherein Pipes with the relevant inlet and outlet openings are coupled with the aid of coupling devices according to FIG.

In Fig. 1, may at the end of a metal tube 1, flow through the gas, shown enlarged generally tubular holder 2 soldered extending from this end hei ^1. A taper in the form of an inner flange is fitted in the holder, one side of which forms a collar against which the end of the tube rests. The other side of the flange forms a collar 3 at the inner end of a bore h in which there is a mass 5 of porous sintered material. In this case there is

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the mass 5 made of sintered stainless steel, but it can also consist of sintered brass or aluminum or of a sintered plastic, such as PTFE, or another porous material. The mass 5 is placed in the opening and is then pressed on with the aid of a suitable tool in such a way that (a) the entire cross section of the opening is filled and (b) the desired resistance with respect to a fluid flow is obtained. The resistance can be regulated relatively precisely by pressing precisely over a large area. The collar formed by the flange 3 prevents the sintered material 5 from penetrating into the pipe itself. The material 5 itself is fastened in the bore h. In practice, the mass of stainless steel can only be removed by drilling out the hole k «

Figures 2 to k show other embodiments of a porous fluid flow limiter with a pipe end, corresponding parts being denoted by the same reference numerals. In Fig. 2 a simple pipe 2 is firmly soldered on the outside of the pipe 1. The pipes 1 and 2 form the limiter holder and the collar 3 in the recess is formed by the end face of the pipe. In Fig. 3, the limiter stop x ^{1 is} obtained by enlarging the bore of the end part of the pipe, in such a way that

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that a collar 3 and a bore 4 are formed in Fig. 4 a taper is obtained by shrinking the tube near its end. There are still further embodiments possible; e.g. could both the inner and outer cross-section of the end part of the pipe can be enlarged.

FIG. 5 shows a limiting device, the shape of which is closest to that of the device according to FIG comes and which is supplied to the fluid in a coupling between the pipe 1 and part of the apparatus 6 or is removed from the fluid, is arranged. In the case of a gas chromatography apparatus, this part e.g. formed by: the air or hydrogen inlet of a flame ionization detector, the cooling gas inlet an electron capture detector, one of the Inlet or outlet openings of a gas flow separation device or the device for introducing a sample into a carrier gas stream which flows through the tube 1 ″.

The limiter holder 2 is mounted in a recess 7 in the block 6 in such a way that a Bore in the block with the bore of the tube 1 is in communication.

The limiter holder also serves as a fastening and sealing member for the coupling between the tube 1 and the block 6. As shown, a hollow bolt 8 can be inserted into a threaded part of the

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Recess 7 are screwed in such a way that it rests against a collar 9 on the holder. The collar is located on an outer flange of the holder perpendicular to the axis of the tube (and the recess). A Sealing ring 10 (made e.g. of Cu) can optionally, as shown, between the Holder 2 and the end of the recess are attached. The bolt 8 presses the holder against the sealing ring 10 or towards the end of the recess and in this way couples the pipe firmly to the block, whereby a gas seal is obtained between the pipe and the block. The holder 2 could be exactly that shown in FIG Have shape and in this case a shorter bolt 8 is used, which exactly over the pipe 1 fits and rests on the collar formed between the rear end of the holder 2 and the tube 1.

Fig. 6 shows a practical application of the coupling device according to Fig. 5 in the hydrogen supply for a flame ionization detector in a gas chromatography apparatus. The flame ionization detector 11 is located in an area 12 of the apparatus ^ whose temperature is regulated - in this one Case of a detector furnace. The hydrogen is supplied by an adjustable (not shown) pressure regulator, which can work in the range of 2 to 30 pounds per square inch and which is in a convenient location

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can be located in the apparatus, through a pipe 13 with a diameter of 1/8 ", which leads to a standard pipe coupling 14, and from there to the pipe 1, which in this case has a diameter of 1/16". The coupling device, which contains a limiting element 5 between the tube 1 and the flame ionization detector 11 in the vicinity of the hydrogen inlet 15, has the form shown in FIG. 5 and is located in the same temperature-controlled area 12 as the flame ionization detector. Practical external dimensions of the coupling device between the pipe i and the flame ionization detector 11 are given by the length and the cross section of the recess 7, which are 3/5 "and 1/10", while the external dimensions of the standard pipe coupling 14 in this practical example 1 x. The negative pressure of the hydrogen in the flame ionization detector is in practice almost equal to the atmospheric pressure and the flow rate can be set between 20 and 90 ml / min.

Fig. 6 also schematically shows an embodiment of the other most important parts of a gas chromatography apparatus. The sample to be analyzed is at the inlet opening 16 of a spiral-shaped chromatographic separation column 17 placed in a column oven 18 in a carrier gas. The detector 11 reacts

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on the components of the sample that come with the carrier gas eluted from column 17, this reaction is measured by an ionization flow meter 19.

In Fig. 5 is the connection between the tube 1 and the flame ionization detector in the device shown in Fig. 6 on the low-pressure side of the limiting element 5 · on this Almost no gas pressure is exerted on the seal and in this case no sealing ring is required 10 to be attached.

The limiting devices according to Figures 3 and h can be received in couplings into which a tube with a cylindrical end fits; a fastening part 20 (see FIG. 3) such as a ring to which the pipe 1 is fastened can also be fastened, if necessary.

It should be understood that the embodiment of the gas flow resistance device described can be easily incorporated into a pipe coupling. In addition, such a device can be applied to all those Places are attached at which a pipe opens or can open; in particular, the device directly at the inlet port of each device, to which the gas flow must be supplied will.

Ice sintered barrier element from that

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Type to which the invention refers in the read borrowed, can usually only be removed by drilling it out of the recess in which it is received Therefore, the advantage of this device is that the limiter holder 2 is easy to use for testing purposes can be removed by uncoupling the pipe 1 and the part itself (i.e. the Tube 1), to which the limiting element 5 is attached, can be removed or replaced if necessary.

Fig. 7 schematically shows an example of a gas flow separation device 21 having the latter advantage used. Gas from a gas chromatography column passes through a pipe 1a and a sinter mass limitation element 5a in the separating device, this Element in the coupling between the pipe 1a and the separating device 21 can be located. The two outlet pipes 1b, 1c of the separation device are attached in a similar manner and guide similar parts 22b and · 22c, which can consist of collectors, detectors or analyzers for the eluted substance, to gas. Of the Limiter 5a can essentially serve for filtration and cleaning and can be attached in such a way that it only brings about a slight pressure gradient. Same pipe and coupling types (e.g. as shown in Fig. 5) can be used for each arm of the separator 21. The ones evoked in each arm

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Resistance ratios and the relative mass flow flow velocity through each pipe 1b, 1c hence the size of the respective delimitation elements 5b, 5c and depend on their packing density. These parameters can be used over a wide range Couplings of the same type can be changed.

The gas emerging from a gas chromatography separation column via the tube 1a can be in various Ratios for different purposes are separated. E.g. an arm 1b can become a collector for lead the eluted substance, while the other arm Ic can lead to a detector. In this case it can the desired ratio to be obtained in the separator is 25: 1 or 100: 1. The separation of the gas flow can further, for example, have the purpose of conveying the eluted substance to various detectors or analyzers is fed. In this case the desired ratio can be considerably smaller and e.g. 5: 1 or 1: 1 betx ^ agen.

The present invention makes it possible to adapt the separating device to the various requirements adapt by a pipe or the two pipes 1b, 1c with the limiter holder attached and the Limiting elements removed and dtxrch tubes replaced whose limiting elements produce the desired gas flow resistance,

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Claims (11)

PP 1132 9/24/73 Patent claims : /1. j fluid flow restriction device for Gas analysis apparatus, characterized in that it has a pipe through which gas can flow and a resistance element made of a porous material in a holder extending from one end of the tube extends, wherein the resistance element is located in a bore in the holder to a Connection to an effective device or a to produce another pipe with which the pipe must be coupled and that on a collar at the inner end of the bore is fixed, the device being such that when the pipe of said effective Device or is released from said other pipe, the resistance element together with the Tube can be removed from the apparatus for testing or replacement purposes. 2. Device according to claim 1, characterized in that the holder is a substantially tubular Element contains or consists entirely of such an element that extends over the outside of the pipe fits, at the point where it is attached to this pipe. 3. Apparatus according to claim 2, characterized in that the holder consists entirely of said im al I common tubular element ordered ^ that the ge 409815/088 4 PP 1132 24.9-73 called the collar to which the resistance element is attached is formed by one side of an inner flange of said generally tubular member, and that the end of the tube rests against a collar which is formed by the other side of the inner flange. 4. Apparatus according to claim 2 or 3 »characterized in that the generally tubular element is attached to the pipe by soldering. 5. Coupling device for gas analysis equipment between an effective device of the apparatus and a pipe through which gas can flow, characterized in, that they are in the pipe in a fluid flow restriction device is arranged according to one of claims 2 to 4; that said effective device the apparatus is provided with a gas passage which has a recess of such a shape that the said generally tubular element fits therein, and that means are provided with their Help the generally tubular element is releasably secured in the recess around the tube with the effective device to couple. 6, coupling device according to claim 5 »characterized in that the aforementioned means for fastening the tubular body from the inner end consist of the recess, which is designed such that one end of the tubular member, same as a PP 1132 9/24/73 detachable 'fastener, fits therein, the the latter element can rest on a surface on the generally roll-shaped element, with respect to the Recess is directed outwards. 7 · Coupling device according to claim 6, characterized in that the releasable fastening element is a hollow bolt that is attached to the pipe and can extend into the recess and cooperate with the internal thread of this recess. 8. Gas chromatography apparatus with an effective Device with which a pipe is coupled by means of a coupling device according to one of Claims 5 to 7 is. 9 · Gas chromatography apparatus according to claim 8, characterized in that said effective device is a detector ₍ which reacts to the constituents eluted with a carrier gas from a chromatography separation column, and that said tube is a gas which is responsible for the action of the detector is required, can lead from a Hoclidruckvorratsquelle with a pressure reduced by the Yiderstandseleiaent to the detector. 10. Gas chromatography apparatus according to claim 9 · » dadtircli marked that an area of the apparatus, the temperature of which is controlled, contains both the detector and the coupling device mentioned, 409815/0884 - 1ö - PP 1132 24.Q.73 whereby the resistance element is subjected to the same temperature control as the detector. 11. Fasstromseparation device for gas analysis apparatus with a chamber with an inlet opening and two or several outlet openings, each coupled with a pipe are, characterized in that at least one of the said tubes with the relevant opening is coupled by means of a coupling device according to one of claims 5 to 7, whereby the in the separating device achievable ratio can be changed in that the aforementioned pipe with the relevant Resistance element is removed and replaced by a tube with one resistance element, which is another Has gas flow resistance. 409815/0884 1 . Blank page