A vacuum pump comprises: a cylindrical rotor; multiple heat insulating pins; and a stator having a cylindrical portion arranged with a predetermined gap in an outer peripheral side of the rotor and a fixing portion to be fixed to a pump base through the multiple heat insulating pins. The heat insulating pins have a lower thermal conductivity than those of the stator and the pump base, and support the fixing portion.

A vacuum pump which can prevent lowering of an exhaust performance of the vacuum pump, even if a linked-type thread groove spacer is fastened by a fixing bolt, is provided.

The linked-type thread groove spacer according to an embodiment of the present invention includes a structure for linking a Siegbahn pump portion and a thread-groove pump portion. When this linked-type thread groove spacer is to be fastened, a countersunk hole is provided in advance in an exhaust channel portion, and the linked-type thread groove spacer is fastened to a base by a fixing bolt. As a result, a head part of the fixing bolt does not protrude to the exhaust channel, and the head part of the fixing bolt does not make resistance against an exhaust gas. Thus, lowering of the exhaust performance of the vacuum pump can be suppressed.

A thermoelectric fan including: a heat collector; a thermoelectric generator (TEG) thermally coupled to the heat collector; a heat sink thermally coupled to the TEG and positioned to provide a temperature differential across the TEG; a motor in electrical communication with the TEG; a fan blade coupled to the motor and configured to generate a first airflow through the heat sink; and a heat sink shield configured to shield the heat sink from a second airflow, the second airflow having a higher temperature than the first airflow. The second airflow may be generated by the fan blade interacting with the first airflow. A heat sink shield for a thermoelectric fan wherein the heat sink shield is configured to attach to the thermoelectric fan and configured to at least partially shield the heat sink from a vorticity vector field and related air flows generated by the fan blade.

A sealing-and-insulating arrangement for guiding electrical connections through a housing. The sealing-and-insulating arrangement exhibits a connection arrangement with at least one electrically conductive connecting element and a retaining element, as well as a support element with a mounting element with a connection pass-through that is enclosed by a wall. Here, the connecting element is arranged in such a way that it is enclosed by the retaining element and has both a form and fluid-tight connection to the retaining element via a form element and that the connecting element projects beyond the retaining element with a first and a second section. The connecting element is arranged such that its first section projects through the connection pass-through and into the mounting element.

Air compressor comprising a centrifugal-type compression wheel defining an axial direction and a radial direction, an air intake opening extending circumferentially around the compression wheel and opening onto a compression part, the compression part comprising a first portion forming a volute for the ejection of compressed air which is mounted facing the compression wheel in the radial direction, and an at least partly annular second portion extending around the first portion, the second portion comprising a central orifice receiving at least part of the compression wheel and an air deflection torus, the volute being made of metallic material and the torus made of thermoplastic material filled with non-metallic elements, the thermoplastic material having a thermal expansion corresponding to that of the metallic material.

An exhaust gas turbocharger may include a turbine and a compressor for compression of charge air for an internal combustion engine, and a controllable actuator and a component mechanically adjustable via the actuator. The compressor may include a compressor casing through which charge air is flowable. A holding device may be integrally disposed on the compressor casing. The actuator may be coupled to the holding device, and may be secured to the compressor casing via the holding device. The holding device may have at least one integrally formed protective contour that may extend around the actuator in certain regions at a separation distance from the actuator, and may enclose the actuator in certain regions, such that the actuator is shielded in certain regions from external influences via the at least one protective contour.

The disclosure relates to a rotor assembly (10) having an integrated heat conducting channel for a high-speed radial ventilator, comprising a bearing tube (20) which is axially open on the inside and in which a shaft (40) that supports a ventilator wheel (30) is mounted on bearings (24, 25). Shaft comprises a rotor (50) of a canned motor, wherein the bearing tube (20) has an outwardly protruding radial projection (21), a heat dissipation portion (23) of which at least partially extends beyond the outer circumference (31) of the ventilator wheel (30), and which provides an integrated heat conducting channel that extends from the bearing (24) to the heat dissipation portion (23).

A radial fan (1) or centrifugal blower is provided having a fan housing (2) with a spiral pressure chamber (D) and a rotor assembly (10) comprising an internally axially open bearing tube (20), in which a shaft (40) carrying a fan wheel (30) is mounted with a rotor (50) of a canned motor. An air-guiding channel (L) between a first pressure-chamber region (2a) and a second pressure-chamber region (2b) of the spiral pressure chamber (D) is formed between the bearing tube (20) and the wall (W) of the canned motor, so that an air flow flows through the air-guiding channel (L) from one pressure-chamber region (2a, 2b) to the other and in the process dissipates heat from the bearing tube (20) into the pressure chamber (D).

To provide a vacuum pump that is capable of efficiently cooling gas and requires less maintenance. The vacuum pump includes: a main body casing having an inlet portion and an outlet portion for gas; a turbomolecular pump mechanism portion in which a stator blade and a rotor blade are formed; a thread groove pump mechanism portion provided at a downstream side of the turbomolecular pump mechanism portion; a cooling trap portion that cools the gas led out from the turbomolecular pump mechanism portion and causes the gas to flow out to a side of the thread groove pump mechanism portion; and a partition wall that guides the gas led out from the turbomolecular pump mechanism portion to the cooling trap portion.

An impeller back surface cooling structure for cooling a back surface of a compressor impeller of a supercharger includes: a first member facing a back surface of a compressor impeller via a gap; and a second member extending in a circumferential direction of the compressor impeller and forming, between the first member and the second member, a cooling passage through which a cooling medium being a liquid flows.