DE7013757U - PHOTOMETER BURNER ASSEMBLY FOR FLAME PHOTOMETER. - Google Patents

Description

Utility model registration

Bodenseewerk Perkin-Elmer & Co. GmbH, Überlingen / Bodensee

Photometer burner assembly for flame photometer

Me innovation concerns a photometer burner assembly for Flame photometer in automatic analyzers, containing an atomizer for aspirating and atomizing Sample liquid by means of a compressed air stream, a Meker burner, to which this compressed air stream together with the atomized sample liquid is supplied as primary air and a chimney above the burner.

In such photometer burners, a sample liquid is atomized and passed into the flame, with characteristic Spectral lines occur. By means of a rotating filter wheel equipped with suitable filters and switches and a photocell that generates pulses in accordance with the filtered light, these pulses being generated by an electrical Eegelkreis are amplified and regulated, the spectral are compared with one another or with the spectral line of an internal standard of known concentration. In doing so, known devices supplied the sample liquid in individual batches to the nebulizer and described in the

Post check account Essen

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Way analyzed. The measuring time is not limited. In άβϊ Dui-ciiiiuiruüg of analyzes iüit a Plaaiüienpböΐο-met it in connection with an automatic analysis device in series operation, the sample liquid is sucked in by the atomizer from a turntable of the analyzer, the sample vessels for receiving the various samples. The problem arises that the The atomizer capillary must not be too long, otherwise the measuring time available for the individual sample is exceeded. In addition, the temperature is allowed of the device do not get too high. Further problems with regard to the influence of premdlioht, one Protection of the device user against injuries caused by the flame and falsification of the measurement Indoor air pollution.

The innovation is based on the task of a photometer burner assembly create for flame photometer au, which is particularly suitable for automatic analysis devices.

The invention is also based on the object of creating a photometer burner assembly in which the Measurement time can be kept short, so that an adaptation to the working rhythm of the automatic analysis equipment is possible.

The invention is further based on the object to provide a photometer burner assembly that is close to the photometer and a sample turntable can be arranged without inadmissible heating of these Device parts enters.

Another task of the innovation ordered in it, «ine To create photometer burner assembly in which External light influences are kept low.

Finally, it is an object of the invention to provide a photometer burner assembly that includes a ▼ on room air pollution unaffected measurement permitted.

The photometer burner assembly according to the innovation is characterized by the combination of the following features:

(a) The chimney consists of an outer unr *. an inner chimney, in which axially offset air inlet openings are provided.

(b) The inner chimney with its lowest section, which forms a combustion chamber, is airtight on the edge of the burner and stands with it a secondary air connection for the supply of cleaner Secondary air in connection

(·) At a distance above the inner chimney but within the protruding beyond the inner chimney * a baffle plate is arranged in the outer chimney

Sine Such an arrangement even guarantee a Abaehiarang the flame against the forecast light so that the Flame ve "ϊλψζ photometer can be observed without Tageslisliteia * rivers interfere. Due to the arrangement with two chimneys

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between which air circulate ϊϊ; ¹ , *, will be a good |

Cooling guaranteed. It is dafcxx- possible to have such a To arrange the photometer-burner assembly relatively close to the actual photometer and on the turntable. Due to the dense arrangement of the photometer burner assembly on the photometer, the influence of external light is again decreased. Due to the close arrangement of the photometer burner assembly on the turntable, the Length of the sample suction capillary can be kept smaller, so that a reduction in the measurement time is possible.

The innovation can advantageously be implemented in the form that the inner chimney consists of two cylindrical webs with the formation of an air inlet gap interconnected sections and the outer chimney consists of three cylindrical sections has, of which the lowermost forms an annular gap with the burner edge and with the adjoining one middle section an air inlet gap slightly below the air inlet gap of the inner chimney, while the top section of the outer chimney has a larger diameter than the middle section, so that a further air inlet gap is formed between them.

With such an arrangement there is not only air circulation between the inside and outside chimneys. Air also enters the inner chimney, which is itself Mix with the burner exhaust gases and reduce this to a lower level Can bring temperature. The gases emerging from the inner chimney and deflected on the baffle plate can between the baffle plate and the uppermost section of the outer chimney rise to the top, where they are again

with fresh air vsxniischsii,
The baffle plate can be kept so wide that the entry of daylight into the inner chimney is largely eliminated.

The atomizer can have an atomizer chamber τοη more cylindrical Have a basic shape into which the air flow is blown tangentially and in the wall thereof a suction capillary for the sample liquid opens "

The nebulizer chamber can drain down into a drainage connection which is provided with an overflow The rest of the vessel protrudes below the level of the overflow.

The liquid in the rest of the vessel creates a certain Overpressure ensured, which prevents the air flow from escaping through the drainage port. By the tangential direction of injection creates a gas vortex that carries the heavier sample liquid particles presses against the wall of the mixing chamber and only finest particles with the one opening approximately in the middle of the mixing chamber Can get fuel gas up to the burner head.

The arrangement can be such that a vertically cylindrical mixing chamber of the burner adjoining the atomizer chamber at the top is in the middle has a fuel gas connection that an inverted pot-shaped burner head with burner nozzle holes in the "Pot bottom" is inserted sealingly from above into the mixing chamber and that the burner head below a

Ringföni'j «n insert with a central bore.

The flow between the burner head and the mixing chamber acts as a flow resistance and influences so the precipitation rate of the sample liquid is favorable and has a dampening effect on the atomizer resulting hissing noises.

In a tubular radial extension in the lower part of the inner chimney, which is passed through a pane of glass a germanium photodiode can be used for flame monitoring as well as imaging optics can be arranged, which the latter part of the flame on the Geriaanium photodiode images.

The purpose of such flame monitoring is to prevent an accumulation of unburned fuel gas, which would reduce the risk of explosions or deflagrations. A germanium photodiode has the advantage of that it is insensitive to daylight. But it has an undesirable temperature sensitivity, which is why it must be ensured that the temperature of the photodiode does not rise above 35 ° to 40 °. A nozzle for Blowing the germanium photodiode with a fine jet of air can be provided.

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f The Heuerung s is hereinafter · an exemplary embodiment

i play with reference to the accompanying drawings

I explained in more detail: I Pig. 1 shows a top view of the combustion chamber, I partly in the cut.

Fig. 2 shows a side view of the combustion chamber, partly in section.

Pig · 3 shows a top view of an automatic

Analysis device with a photometer burner assembly after the hiring.

Fig. 4 shows a side view of the chimney, partly in section and

Fig. 5 shows a section through the burner with an easily exchangeable best vessel.

In Fig. 3, 10 denotes a turntable, 4 containing segments 12 with sample vessels H for undesired samples in a known manner. By means of a dosing device is from the vessels H sample in defined quantities in sample vessels 16 radially inward of the corresponding Dosed vessels 14.

To see flammenphotometri measurement of the samples is a Flame photometer assembly 18 with a photometer burner assembly 20 is provided. The photometer burner assembly .i is via a spray capillary 22 with the turntable yer-

I bund in such a way that 16 sample liquid from the sample vessels Is sucked in and fed to the photometer burner

p Flame photometer 18, photometer burner assembly 20 w »fl

Turntable. 10 are assembled directly so that a relatively short nebulizer capillary 22 results. Through special measures, which are described below, is on the one hand excluded that an inadmissible heating of the turntable or flame photometer by the Photometer burner assembly 20 takes place, and on the other hand it is ensured that the measurement result is not falsified by extraneous light.

The structure of the photometer burner assembly is best seen in FIG. An atomizer 24 is provided there, to which the atomizer capillary 22 is led. Compressed air is fed to the nebulizer via a line 26, which causes the sample liquid to be sucked in the atomizer capillary 22 causes. A residual vessel 28 with a drain 30 is attached below the atomizer. Above a burner 32 with a mixing chamber 34 and a burner head 36 adjoins the atomizer 24. Above that Burner, an inner chimney 38 and an outer chimney 40 are arranged. The internal chimney is made from a lower cylindrical portion 42 and an upper cylindrical portion 44, which by web; +6 leaving an air inlet gap 48 m: to each other are connected. The lower section of the inner chimney is sealingly seated at 50 on the edge of the burner on. No room air can therefore enter the combustion chamber formed within the lower section of the inner chimney enter »The flame is therefore unaffected ν · η Contamination of the room air. Above the top section 44 of the inner chimney 38 a baffle plate 54 is supported at a distance from it

The outer chimney includes a lower section 56, which forms an annular gap with the burner edge at the bottom,

This arrangement ensures that no impermissible Heating of the housing 66 takes place and that the gases occurring do not have an inadmissibly high temperature "own because they are supplied with fresh air with dsr are mixed.

At a distance above this lower section 56 is a middle section 58. Between the lower section 56 and the upper section 58 of the lussenschora- I stone 40, an air inlet gap 60 is formed, the slightly below the gap 48 of the inner chimney lies.

An uppermost section 62 of the outer chimney has a larger diameter than the middle section 58 of the same, so that an annular gap 64 is formed between them · The whole arrangement is still from one to the top Enclosed towards open or at least perforated housing 66. As indicated by the arrows, the- I This chimney arrangement allows for strong air circulation. Air enters the housing 66 from below, with air currents through the lower annular gap between the burner edge and the lower section of the outer chimney into the annulus between Innenzy ^^ id he cut from 52 and outer cylinder section 56 eir £ more air enters through the gap 60. Part of it flows through the gap 48 into the Inside of the inner chimney and mixes with the rising combustion gases, which are thereby cooled · Another fresh air supply takes place through the gap 64 between the upper section 62 of the outer chimney and the middle section 58 thereof. This fresh air mixes with the burner exhaust gases that are emitted by the Impact plate 54 are deflected and flow between this and the outer chimney section 62 upwards.

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Fig. 5 shows the structure of the burner and the atomizer A stream of compressed air is drawn into a spray chamber over the Connection 26 initiated tangentially. This creates a vortex, causing sample liquid from the suction capillary 22 is sucked in and atomized. The relatively heavy liquid particles are on the walls the atomization chamber or the burner mixing chamber 34 pressed, while the finely atomized particles after are torn at the top and mix with the fuel gas supplied to a fuel gas connection 68. In the Mixing chamber 34, an inverted pot-shaped burner head 70 is used, the "bottom" of which is covered by a nozzle body 72 is formed with nozzle holes. In the burner head 70 sits an annular insert 74 with a central Hole 76 · This insert creates more smooth pressure compression

conditions in the mixing chamber, and it prevents "singing." of the flame ".

A thickened hand 78 of the mixing chamber carries a secondary air tans 80 which has a channel 82 in the The end face of the Breünerranäes 78 opens, specifically within the lower section 42 of the inner chimney 40 This secondary air connection is pure air, that is Room air that is not possibly contaminated is fed to the flame as secondary air.

A best vessel 28, which is fastened by means of a hand screw 84, is attached below the atomizer and can be easily removed. This residual vessel has an overflow 30. The spray chamber runs out into a drain connection 86, which enters the rest of the vessel below the level of the overflow 30 "= protrudes.

Figure 2 shows the arrangement of the lower Schora stone parts to the burner. The lower section 42 of the inner choir stone is seated by means of a sighting 88 airtight on the belt 78 of the burner. You secondary air is only via the secondary air connection 80 fed to the inside of the inner chimney section 42 opens.

On the lower section 42 of the inner chimney sits a tubular extension 90 which is passed through the lower section 56 of the outer chimney and in which a germanium photodiode 92 is held. A part of the flame is imaged onto the germanium photodiode 22 by means of imaging optics 94. The purpose of this photodiode is to monitor the flame and ensure that the burner is ignited when fuel gas is supplied.

The photometer beam path runs at a right angle to the projection 90 in FIG. The photometer beam path detects a slightly higher part of the flame than the flame monitoring device. The beam path of the photometer goes through windows 96, which are arranged airtight in the inner chimney. Various filters 100 are successively brought into the beam path by a pilter wheel 98. The light pulses obtained in this way are recorded by a photo cable 102. Protective tube contacts · 104 are actuated synchronously with the filter wheel, so that the photocell pulses, dl · tob. the different filters and thus originate from different spectral lines, are directed to different channels . A motor shaft 106 is driven by a giant drive 108.

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To ignite the burner lsi; an ignition coil 110 which is passed through the inner chimney at 112 (Pig * 2).

Claims (1)

Protection claims 1. Photoiaeter burner assembly for flame photometer in automatic analysis devices, containing an atomizer for sucking in and atomizing sample liquid by means of a compressed air stream, a Mekerbrenner, to which this stream of compressed air is composed is supplied with the atomized sample liquid as primary air, and a chimney above of the burner, characterized by the combination of the following features: (a) The chimney consists of an outer pipe an inner chimney (40, 38) in which air inlet openings axially offset from one another (48, 60) are provided. (b) The inner chimney (38) sits with its lowest section, which forms a combustion chamber (43) airtight on the burner edge (73) and has a secondary air connection (80) for the supply of pure secondary air in connection. (c) At a distance above the inner chimney (38), but within the one that protrudes beyond the inner chimney A baffle plate is arranged in the outer chimney (40). 2. Photometer burner assembly according to claim 1, characterized in that the inner horn (38) consists of two cylindrical, through webs (46) to form a • ϊ »> '» »ft ■ ft Air inlet gap (42) interconnected Sections (42, 44) and the outer choir stone consists of three cylindrical sections (56, 58, 62) has, of which the lowermost forms a gap with the burner edge (78) and with the an * closing middle section (58) an air inlet gap (60) slightly below the air inlet gap (48) of the inner chimney (38), while the uppermost section (62) of the outer chimney (40) has a larger diameter than the middle section (58), so that a further air inlet gap (64) is formed between these 3 photometer burner assembly according to claim 1 or 2, (24) characterized in that the atomizer has a Has an atomizer chamber of cylindrical basic shape, into which the air stream is blown tangentially and in the wall of which a suction capillary (22) for the sample liquid. 4 · Photometer burner assembly according to claim 3, characterized in that the atomizer chamber in a drainage connection (86) runs out, which into a best vessel (28) provided with an overflow (30) protrudes below the level of the overflow. 5. Photometer burner assembly according to claim 3 or 4 _t, characterized in that a vertically cylindrical mixing chamber (34) of the burner adjoining the atomizer chamber at the top has a fuel gas connection (68) in the middle, that an inverted pot-shaped burner head (70) with Burner nozzle holes in the "pot bottom" (72) from above sealingly into the Mixing chamber (34) is inserted and that the burner head (70) has an annular insert (74) below having a central bore (76). 6. Photometer burner assembly according to claim 5, characterized in that on a compact mixing chamber edge (78) a secondary air connection (80) is provided is, which opens into the end face within the inner chimney (38). 7. Photometer burner assembly according to one of the claims 1 to 6, characterized in that in a tubular radial extension) 90) in the lower region of the Inner chimney (38), which is sealed against the inside of the chimney by a pane of glass is a germanium photodiode (92) for flame monitoring and an imaging optics (94) are arranged, which the latter a part of the flame on the it U U J. J. U β l> . iOXlXUiU-X ^- IXUbUUJUUU 8. Photometer burner assembly according to claim ', characterized characterized in that a nozzle for blowing the germanium photodiode (92) is provided with a fine jet of air. 9. Photometer burner assembly according to one of claims 1 to 8, characterized in that it is provided with a Housing (66) is attached directly to a photometer assembly (18) and a robend turntable (10).