KR20180000720U - Drive seal - Google Patents

Abstract

The sealing structure of the present invention overcoming the difficulties in sealing between two complicated sealing surfaces includes a seal carrier having a peripheral edge formed to match the complicated geometry of the sealing surface and a seal extending from the peripheral edge of the seal carrier do.

Description

Drive Seal {DRIVE SEAL}

The present invention relates to a sealing structure, and more particularly, to a sealing structure for sealing between a vacuum pump housing and an electronic driving housing.

Turbomolecular pumps (TMPs) are used in many devices such as mass spectrometers and scanning electron microscopes to achieve the low pressures needed to operate these devices correctly.

The housing that houses the turbo molecular pump motor and the electronic drive necessary to operate the internal electronics may be located remotely from the TMP casing or may be connected directly to the casing. As electronic circuits become smaller, more and more TMPs are being manufactured in which the drive housing is directly connected to the TMP casing.

In order to protect the drive electronics housed in the housing from particulate matter and moisture from the surrounding environment, the outer surface portion of the turbomolecular pump casing to which the drive portion is attached and the inner surface of the electromagnetic drive housing attached to the outer surface portion of the pump casing A sealing element should be located between the parts.

Currently, seals to protect against the entry of particulates and moisture occur in two ways.

The first method is to use a sealing foam applied between the two elements when attaching the pump casing and drive housing together. This initially provides excellent sealing, but for example, to service the TMP, it is necessary to completely remove the foam residue from the surfaces of the drive housing and the TMP when it is necessary to remove the drive housing, The new foam can be reapplied when reattached. In addition, it is known that occasionally when the sealed foam is applied in production, it is damaged during transport and creates a leakage path into the drive housing.

The second known method is to form a seal groove on the outer TMP casing surface and / or the inner drive housing surface to accommodate a seal for sealing between the two elements. However, placing the seal element in a complicated three-dimensional non-flat seal groove is time consuming and requires a high degree of accuracy to achieve accurate sealing without pinching or damaging the seal. Also, if it is necessary to remove the drive housing, it is necessary to reposition the seal in the groove, which adds considerable time to the process.

The present invention solves the above-mentioned problems.

Thus, the present invention is directed to an apparatus for sealing between the non-planar outer surface portion of a vacuum pump casing (such as a turbo molecular pump) and the non-planar inner surface portion of the housing removably attached to the outer surface portion of the vacuum pump casing A seal structure comprising: a seal structure comprising a seal carrier and a seal, the seal extending from a periphery of the carrier and connected to the periphery, the periphery of the seal carrier defining an inner surface portion of the housing, Which is formed to conform to the non-flat shape of the outer surface portion of the sealing structure.

Further particularly preferred aspects are set forth in the independent and dependent claims of the appended claims. The features of the dependent claims may be combined with the features of the independent claims when appropriate and in combination with others not expressly stated in the claims.

By providing the seal structure with a seal carrier that is shaped to conform to the inner surface of the electronic drive housing and to the often complicated three dimensional non-planar surface of both TMP casings, it is possible, without problems associated with conventional sealing methods, An efficient seal can be achieved repeatedly.

Embodiments of the present invention will be further described with reference to the accompanying drawings.
Figure 1 illustrates, by way of example, a sealing structure according to the present invention,
Figure 2 illustrates, by way of example, a sealing structure located on an inner, non-planar surface portion of a drive housing according to an embodiment of the present invention,
3 illustrates by way of example a corresponding non-planar surface portion of a turbomolecular pump for receiving a sealing structure located in the inner surface portion of the drive housing of Fig.

1 to 3, the sealing structure 2 includes a seal carrier 4 and at least the outer peripheral edge of the seal carrier has a complicated three-dimensional non-planar inner surface portion 44 of the drive housing 12 Dimensional non-planar outer surface portion 46 of the turbomolecular pump casing 24, respectively.

The sealing structure 2 also includes a seal 6 extending from the outer peripheral edge of the carrier 4 and connected to this edge. When the sealing structure 2 is disposed between the pump casing 24 and the drive housing 12, the seal 6 is provided on the casing surface portion 46 to seal between the drive housing 12 and the pump casing 24, ) And the housing surface portion 44, respectively. In other words, the seal 6 extending from the peripheral edge of the seal carrier 4 cooperates with both the casing outer surface portion and the housing inner surface portion to form a seal therebetween.

Use of a sealing structure (2) comprising a seal carrier (4) and a seal (6) according to claim 1 enables rapid assembly and reliable sealing between the turbo molecular pump and the electronic drive housing.

The seal carrier 4 may substantially retain the shape of the outer surface portion 46 of the turbo molecular pump casing 24 and the inner surface portion 44 of the drive housing 12 but may be configured such that the carrier itself or the carrier But may be formed of any suitable material that allows some degree of flexibility to accommodate the differences in tolerances of the individual devices being made. Thermoplastic engineer polymers, such as, for example, polybutylene terephthalate, have at least an outer edge or periphery thereof that conforms to or conforms to the non-planar shape of the inner surface portion of the housing and the outer surface portion of the turbomolecular pump casing By injection molding with a glass filler.

The seal 6 may be formed of any suitable sealing material, for example a thermoplastic polyester elastomer, which is injection molded onto the peripheral edge of the seal carrier. The seal may also be made of a suitable seal material that is secured to the peripheral edge of the seal carrier with an adhesive or other suitable connection means so that only one attachment to the complicated three-dimensional carrier shape is required, and when servicing the drive or turbo molecular pump To allow rapid removal or replacement of the sealing structure.

The seal carrier may also allow some degree of heat conduction from the pump casing to the electronics such that heat can be removed from the pump (such as a motor) through the carrier through the electronics cooling circuit. The seal carrier 4 includes at least one electrical feedthrough 8, which allows the cable to be transported from the turbo molecular pump motor (not shown) to the electronics driver within the housing 12 through the encapsulating structure 2, 10, 48).

The sealing structure 2 may also be retrofitted with a combination of an existing drive housing and a TMP casing instead of the previously described sealing foam or fitting seal.

While the exemplary embodiments of the present invention have been disclosed herein in detail with reference to the accompanying drawings, it is to be understood that the present invention is not limited to the precise embodiments, and that those skilled in the art will readily appreciate that the scope of the present invention as defined in the appended claims, It will be understood that various modifications and alterations may be made therein without departing from the spirit and scope of the invention.

2 - Sealing structure
4 - Seal carrier
6 - seal
8 - feed through
10 - Feedthrough
12 - drive housing
16 - Fixed position
18 - Fixed position
44 - Sealing surface
24 - Turbo Molecular Pump Housing
46 - Sealing surface
48 - Feedthrough
66 - Fixed position

Claims (6)

A sealing structure for sealing between the non-flat outer surface portion of the vacuum pump casing and the non-flat inner surface portion of the housing removably attached to the outer surface portion of the vacuum pump casing,
Wherein the seal structure includes a seal carrier and a seal, the seal extends from a periphery of the carrier and is connected to the periphery, and a periphery of the seal carrier defines a ratio between an inner surface portion of the housing and an outer surface portion of the vacuum pump casing Shaped to conform to the flat shapes
Sealing structure. The method according to claim 1,
The seal is formed from at least one of the thermoplastic polyester elastomers
Sealing structure. 3. The method according to claim 1 or 2,
The seal carrier is formed of a thermoplastic engineering polymer
Sealing structure. 4. The method according to any one of claims 1 to 3,
Wherein the seal carrier is an injection molded seal carrier, the seal being injection molded onto the seal carrier
Sealing structure. 5. The method according to any one of claims 1 to 4,
The vacuum casing is a turbomolecular pump casing
Sealing structure. A seal carrier as herein described substantially in the specification and / or drawings.

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