DE3508483A1 - HOUSING FOR A TURBOMOLECULAR VACUUM PUMP - Google Patents

Description

35084 *

LEYBOLD-HERAEUS GMBH

Cologne-Bayental

Housing for a turbo molecular vacuum pump

The invention relates to a housing for a turbo-molecular vacuum pump with a connecting flange made of a material that conducts heat well, e.g. B. aluminum, and one Housing jacket. Copper or brass can also be used as the material for the connection flange.

Turbomolecular vacuum pumps belong to the high and ultra high vacuum pumps, d. i.e. that they have ultimate pressures up to

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Reach 10 mbar. In order to generate such a final pressure in a recipient in a reasonable time, it is necessary to bake it out, usually up to 200 ° C., sometimes even higher. As a result, the gas molecules that have diffused into the inner wall of the recipient are released relatively quickly, which would otherwise prevent the final pressure from being reached for a long time.

Increasingly, recipients that are part of ultra-high vacuum systems, including their connection flanges made of aluminum. In these cases it is advisable that the flange of the to be connected Turbomolecular vacuum pump is made of aluminum as a secure UHV seal - usually with a metallic one Sealing ring - this is only guaranteed if the flange and mating flange are made of the same material (and thus the same Coefficient of thermal expansion). In UHV systems with recipients made of aluminum, Usually turbo-molecular vacuum pumps are used, the housing including the connecting flange is also made of Consist of aluminum. The situation is similar for recipients made of copper or brass.

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35084B3

The disadvantage of such an arrangement is that the turbo-molecular vacuum pump during the bake-out of the The recipient is also very hot, which is not only important for the rotor - the rotor strength, i. H. the strength of the through the rotation of the tensile stressed aluminum blades, decreases with increasing temperature - but also for its storage - the bearing grease is no longer stable at higher temperatures (> 130 ° C) - is undesirable.

The present invention is based on the object of creating a housing for a turbomolecular vacuum pump, in which there is no longer any risk of undesirably strong heating during the heating of the recipient.

According to the invention this object is achieved in that the The housing jacket is designed at least in the area adjoining the connecting flange in such a way that the thermal conductivity is low in this area. For a turbo molecular vacuum pump with a designed in this way Housing, the thermal barrier prevents undesired heating of the housing and thus the inside located components, such as rotor, bearings and the like.

In Figures 1 to 6 different design options for a housing according to the invention are shown

In all figures, the housing jacket is indicated by 1 and the connecting flange which forms or surrounds the connecting opening 2 labeled 3. The flange 3 consists of aluminum or another material with good thermal conductivity like brass or copper. Other components of the turbo molecular vacuum pump are not shown since they are not the subject of the invention.

In the exemplary embodiment according to FIGS. 1 and 2, the housing jacket 1 adjoins the flange 3 directly.

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It either only exists in the area of the connection flange (Section 1 ', Figure 2) or as a whole (Figure 1) made of a material with low thermal conductivity, e.g. B. stainless steel, so that the flow of heat from the flange 3 to the housing jacket 1 is so severely hindered that an undesirably high level of heating of the housing jacket is prevented during the heating phase of the recipient, not shown.

The other FIGS. 3 to 6 show solutions in which there is a heat transmission barrier between the flange 3 and the housing jacket 1 4 is located.

In the embodiment according to FIG. 3, there is a thermal barrier 4 from an annular section 5 which is welded between the housing jacket 1 and the flange 3 or is soldered and made of a material with low thermal conductivity, e.g. B. stainless steel.

Fig. 4 shows a similar embodiment to Fig. 3. The thermal barrier 4 consists of a ring 6, also made of a material with low conductivity. In addition, the heat flow is restricted in that the annular section 6 partially has a reduced wall thickness.

In the embodiment according to FIG. 5, a heat transfer barrier 4 adjoins the flange 3, which also is made of aluminum. The limitation of the heat flow is achieved in that a meander-shaped Ring section 7 forms the thermal barrier 4.

In the embodiment of FIG. 6 is between the connecting flange 2 and the housing jacket 1 a bellows section 8. This consists of a material with a low Thermal conductivity, preferably stainless steel, so that between the flange 3 and the housing jacket 1 there is an effective limitation the heat flow is reached.

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The material used for the thermal barrier is essentially stainless steel. Stainless steel has thermal conductivity of 15, which is 14 times smaller than the thermal conductivity of aluminum. Also the Materials nickel or bronze are possible materials for the heat transfer barrier.

Claims (8)

M8 LEYBOLD-HERAEUS GMBH Cologne-Bayental Housing for a turbo-molecular vacuum pump Patent claims 1. Housing for a turbo molecular vacuum pump with a Connection flange made of a material that conducts heat well, e.g. B. aluminum, and a housing jacket, characterized in that the housing jacket (1) is at least partially attached to the connecting flange (3) adjoining area (V, 4) is designed so that the thermal conductivity in this area is low. 2. Housing according to claim 1, characterized characterized in that the housing jacket (1) adjoining the connecting flange (3) consists of a material with low thermal conductivity at least in the area of the connecting flange. 3. Housing according to claim 1, characterized in that there is between Connection flange (3) and housing jacket (1) a thermal barrier (4) is located. 4. Housing according to claim 3, characterized in that it is inclusive its connecting flange (2) is made of aluminum and that the thermal barrier (4) is directly attached connects the flange. 5. Housing according to claim 3 or 4, characterized in that the heat transmission barrier (4) of a housing portion (5 to 8) with ORiGtNAL INSPECTED 350848 ₅ smaller wall thickness and / or bellows-like design is formed. 6. Housing according to claim 3 or 4, characterized characterized in that an annular ₁₀ section (5, 6, 8) made of a material with low thermal conductivity forms the thermal barrier (4). 7. Housing according to claim 6, characterized in that the annular portion 15 (5, 6, 8) a reduced wall thickness and / or a has a bellows-like design. 8. Housing according to claim 6 or 7, characterized in that the heat 20 passage barrier (4) forming annular section (5, 6, 8) is made of stainless steel. ORIGINAL EMSPECTED