JPH0827236B2 - Resistance heating vaporizer of ICP emission spectroscopic analyzer - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial field of application> The present invention is an ICP (which introduces a liquid sample onto a resistance heating filament, vaporizes the sample by heating the filament, and introduces it into a plasma torch. The present invention relates to a resistance heating vaporizer of a high frequency inductively coupled plasma) emission spectroscopic analyzer.

<Prior Art> Conventionally, in an ICP emission spectroscopic analyzer, in order to introduce a small amount of a liquid sample into a plasma torch to emit light,
Resistance heating vaporizer 1 ₀ as shown in Figure 2 is used. The resistance heating vaporizer 1 ₀ includes a carburetor body 2.
This vaporizer main body 2 has a filament 4 for resistance heating for vaporizing a sample inside a hollow body 3 made of glass, and for introducing a carrier gas on the peripheral side of the hollow body 3. Port 5 is formed. Further, a base 6 that supports the filament 4 is fitted to the lower portion of the hollow body 3. Meanwhile, the vaporizer head 8 ₀ is found detachably attached to a hollow tapered conveying path 10 of the inside glass is formed for this carburetor body 2. An inlet pipe 12 leading to a plasma torch (not shown) is connected to the upper portion of the vaporizer head 6.

When introducing the sample into the plasma torch, not shown uses this resistance heating vaporizer 1 _0, was added dropwise to the liquid sample to the filament 4, the solvent evaporated, after drying, the vaporizer head 8 ₀ The filament 4 is connected to the vaporizer main body 2 and then the filament 4 is electrically heated by discharge of a capacitor or the like. As a result, the sample is instantly vaporized. Then, vaporized sample is introduced through the inlet pipe 12 from the conveyance path 10 of the vaporizer head 8 ₀ by the carrier gas supplied to the vaporizer 2 body from the port 5 into the plasma torch. As a result, the sample is excited and emits light in the plasma.

<SUMMARY invention> Now, when dropping the sample filament 4, so tricky operation remains vaporizer head 8 ₀ is connected, once remove the vaporizer head 8 ₀ from the carburetor body 2 The sample is injected from the upper opening of the vaporizer main body 2, and then
Mounting the vaporizer head 8 _0. At the time of connection, the conventional, since the ambient air is caught inside the vaporizer head 8 _0, when connecting the vaporizer head 8 ₀ to the carburetor body 2, an oxygen carrier gas in the involved it in the air Will be introduced into the plasma torch from the introduction tube 12. When oxygen enters the plasma, impedance matching suddenly fails to be achieved from the state where Ar gas is introduced, which may cause problems such as the plasma disappearing.

The present invention has been made in view of such circumstances, and an object thereof is to prevent air from being abruptly introduced into a plasma torch when connecting a vaporizer head to a vaporizer main body.

<Means for Solving the Problem> Therefore, the present invention includes a vaporizer main body provided with a filament for resistance heating for vaporizing a sample, and the vaporizer main body is heated and vaporized by the filament. In a resistance heating vaporizer of an ICP emission spectroscopic analyzer in which a vaporizer head having a transport path for guiding a sample to a plasma torch is detachably provided, the vaporizer head supplies a purge gas to the vaporizer head. A purge gas passage is provided in communication with the transport passage, and when the vaporizer head is separated from the vaporizer main body, a purge gas is supplied to the vaporizer head to prevent air from flowing into the vaporizer head. The feature is that it is prevented.

<Operation> In the above configuration, by flowing the purging gas from the purging gas flow path to purge the inside of the transfer passage, it is possible to prevent air from being mixed into the carburetor head.
Therefore, even when the carburetor head is connected to the carburetor main body, air is prevented from being abruptly introduced into the plasma torch.

<Embodiment> FIG. 1 is a front sectional view of a resistance heating vaporizer of an ICP emission spectroscopic analyzer according to an embodiment of the present invention, in which parts corresponding to the conventional example shown in FIG. Attach. In FIG. 1, 1 is a resistance heating vaporizer, 2 is a vaporizer main body, 3 is a hollow body, 4 is a filament, 5 is a port, 6 is a base,
Reference numeral 10 is an introduction pipe, and these configurations are the same as in the case of the conventional example.

The feature of the embodiment of the present invention is that the shape of the carburetor head 8 that is attached to and detached from the carburetor body 2 is different from the conventional one. That is, the vaporizer head 8 has a hollow tapered transport path 10 formed therein, and a purge gas flow path 14 communicating with the transport path 10 from the outside is provided on the peripheral side portion thereof. That is, a valve 16 for opening and closing the flow path 14 is provided in the middle of the purge gas flow path 14.

In the above configuration, when the sample is introduced into the plasma torch (not shown), the vaporizer head 8 is once removed from the vaporizer main body 2 and the sample is dropped from the upper opening of the vaporizer main body 2 to deposit the sample on the filament 4. Hold it. Then, after the solvent is evaporated and dried, the vaporizer head 8 is connected to the vaporizer main body 2. In this case, the valve 16 is opened in advance to purge Ar gas or the like from the purge gas flow passage 14 of the vaporizer head 8. The carrier gas is flowed toward the carrier path 10 to purge the carrier path 10. As a result, it is possible to prevent air from entering the inside of the transport passage 10 through the upper and lower openings of the carburetor head 8. Further, since the carrier gas is constantly supplied from the port 5 of the carburetor main body 2, air will not be mixed inside.

Then, after the vaporizer head 8 is connected to the vaporizer main body 2, the filament 4 is electrically heated by discharging the condenser or the like. As a result, the sample is instantly vaporized. Then, the vaporized sample is introduced from the vaporizer head 8 by the carrier gas supplied from the port 5 into the vaporizer main body 2.
It is introduced through 12 into the plasma torch. This allows
The sample is excited and emits light in plasma.

<Effects of the Invention> According to the present invention, the vaporizer head is provided with the purging gas passage communicating with the conveying passage. Therefore, the purging gas is caused to flow from the purging gas passage to purge the conveying passage. This makes it possible to prevent air from being mixed into the carburetor head. Therefore, even when connecting the vaporizer head to the vaporizer main body, it is possible to reliably prevent the occurrence of conditions such as air being abruptly introduced to the plasma torch and plasma being extinguished. Is demonstrated.

[Brief description of drawings]

FIG. 1 is a front view of a resistance heating vaporizer of an ICP emission spectroscopy analyzer according to an embodiment of the present invention, and FIG. 2 is a front sectional view of a resistance heating vaporizer of a conventional ICP emission spectroscopy analyzer. 1 ... Resistance heating vaporizer of ICP emission spectroscopic analyzer, 2 ...
Vaporizer body, 4 ... Filament, 8 ... Vaporizer head, 10 ... Transport path, 14 ... Purging gas flow path.

Claims (1)

[Claims] 1. A vaporizer main body provided with a filament for resistance heating for vaporizing a sample, and a transport path for guiding the sample vaporized and heated by the filament to a plasma torch. In the resistance heating vaporizer of the ICP emission spectroscopic analyzer in which the formed vaporizer head is detachably provided, in the vaporizer head, a purge gas flow path for supplying a purge gas to the vaporizer head is provided in the transport path. Set up in communication,
An IC characterized in that, when the vaporizer head is separated from the vaporizer body, a purge gas is supplied to the vaporizer head to prevent air from flowing into the vaporizer head.
Resistance heating vaporizer of P emission spectroscopy analyzer.