Abstract: A pump arrangement includes an axial-flow machine and a drive to convey fluid mounted in a housing. The axial-flow machine is formed by at least one first rotor having permanent magnets, a shaft connected to the first rotor and a stator arrangement with stator teeth distributed concentrically around the shaft axis circumferentially and axially separated from the first rotor by an air gap. The stator teeth have axially-opposite end portions and a tooth core therebetween wound with at least one coil winding. The second end portion, turned away from the first rotor, of each stator tooth forms a tooth root joined to a back plate. The first rotor is an eccentric disk and on the side away from the stator arrangement has an eccentric cam, radially spaced from the shaft axis, and rotatably and torque-transmittingly connected to the drive. An axial-flow machine and a compressor includes the pump arrangement.

Abstract: A toothed wheel has a hub part, a web part and a toothed crown, wherein at least one transition region having a rounding is formed in the web part and the transition region has a height h in an axial direction of the toothed wheel and a length L in a radial direction, and wherein the toothed crown of the toothed wheel has a maximum width A and the web part has a minimum width B, each in the axial direction of the toothed wheel, wherein the maximum width A is larger than the minimum width B. The rounding is situated within a band that is calculated from the formula y=L*(K6*(K7*x)6+K5*(K7*x)5+K4*(K7*x)4+K3*(K7*x)3+K2*(K7*x)2+K1*(K7*x)1)+h and a bandwidth of ±50% of the height h, wherein: h=0.375*(A?B), L=2*h, K1=?3.5855/L, K2=5.4612/L, K3=?4.8237/L, K4=2.2556/L, K5=?0.5227/L, K6=0.0473/L, K7=3.36/L.

Abstract: The invention relates to a method for production of a sintered component (2), comprising the steps: making available an iron-based powder having chromium; filling the powder into a powder press; pressing the powder to form a green compact; sintering the green compact to form the sintered component (2); post-compacting the sintered component (2); hardening the sintered component (2).

Abstract: The invention relates to a method for the production of a component having soft-magnetic properties, from an SMC powder, comprising the steps of filling the SMC powder into a powder press (1), pressing the SMC powder to form the component, removing the component from the powder press (1), if necessary reworking the component. Pressing the SMC powder to form the component is carried out at a temperature between 300° C. and 650° C.

Abstract: The invention relates to a method for producing a toothed sintered component (1) according to which a green compact with a bearing mount (10) is pressed from a powder, the green compact is sintered and hardened and then at least one sliding bearing element is inserted into the bearing mount (10). The sliding bearing element is inserted into the bearing mount (10), which has a sintered-smooth surface (14), wherein a multi-layered sliding bearing element (11) is used as the sliding bearing element.

Abstract: An axial-flow machine has a dimensionally stable assembly, a machine shaft, a rotor fastened on the machine shaft and provided with a rotor hub, permanent magnets disposed circularly around the machine shaft, an adhesive and a brace, which is disposed on the outer circumference of the rotor and encircles it in closed manner and which urges the permanent magnets with a radially inwardly directed tension force, and stators disposed on both sides of the rotor. The permanent magnets are seated on the rotor hub via first adhesive joints equipped with adhesive and adjoin one another via second adhesive joints equipped with adhesive, wherein the permanent magnets, the rotor hub, the brace and the adhesive form the dimensionally stable assembly, the radial and axial dimensional stability of which is determined substantially by the radial tension force of the brace on the permanent magnets.

Abstract: A bearing cover for a split bearing arrangement includes a stiffening element between threaded bores for receiving threaded bolts in order to connect the bearing cover to a bearing block. Provided between two clamping surfaces is a first radially inner bearing support surface having an at least approximately arcuate cross-section as viewed in the axial direction. Adjoining the bearing support surface and following the cross-sectional contour of the bearing support surface, a reinforcing web is provided on the stiffening element which has a varying height as viewed perpendicular to the bearing support surface, and the tallest height is disposed in the region of the half angular span of the bearing support surface.

Abstract: The invention relates to a bearing cover (3) for a split bearing arrangement (1), which comprises a bearing block (2) in addition to the bearing cover (3), wherein the bearing cover (3) has a clamping surface (6), which in an assembled state of the bearing arrangement (1) fits against a counter clamping surface (5) of the bearing block (2), and wherein at least one projection (7) is formed on the clamping surface (6) and projects from the latter, which can be pushed into the counter clamping surface (5) of the bearing block (2), and which has a round or round-convex cross-sectional form in a plan view of the clamping surface (6).

Abstract: The invention relates to a bearing arrangement (1) comprising a bearing cover (3) and a bearing block (2) fitting onto the latter, which bearing block in the area of the bearing cover (3) comprises a recess (9) in which the bearing cover (3) can be arranged and which comprises vertical deformation elements (15) with a longitudinal extension (19), wherein the vertical deformation elements (15) have a greater degree of plastic deformability than the bearing block (2).

Abstract: The invention relates to a device (4) for positioning meshing teeth (3, 8, 9) of a gear drive without any play, comprising a gear assembly (5), which gear assembly (5) comprises a main gear (6) having first teeth (8) and a gear (7) that is rotatable relative thereto in the circumferential direction having second teeth (9), and the main gear (6) comprises a hub part (10) on which the rotatable gear (7) is disposed, and a tolerance compensating element (12) comprising a shaft part (13) and a compensating part (14) is disposed radially underneath the main gear (6), and the compensating part (14) is connected to the shaft part (13) and to the hub part (10) of the main gear (6) so that the main gear (6) is connected exclusively via the compensating part (14) to the shaft part (13), and the compensating part (14) is made at least partially from a rubber elastic material.

Abstract: The invention relates to an assembly (1) comprising a first component (2) with an internal toothing (4) and a second component (3) with an external toothing (6), wherein the two components (2, 3) can be connected to one another by a press fit, which is formed between the internal and the external toothing (4, 6), and wherein the internal and the external toothing (4, 6) each comprise a plurality of teeth (5, 7). The teeth (5) of the internal toothing (4) of the first component (2) and/or the teeth (7) of the external toothing (6) of the second component (3) comprise recesses (13, 15) along the tooth flanks (12, 14).

Abstract: A gear arrangement with a divided spur toothing includes a main gear and a gear rotatable to the latter in a circumferential direction. The main gear has a hub on which the rotatable gear is arranged. A spring element is arranged between the main gear and the rotatable gear. With the spring element, the rotatable gear is pretensioned in the circumferential direction against the main gear. A first spur toothing part of the spur toothing is formed on the main gear and a second spur toothing part of the spur toothing is formed on the rotatable gear. The first spur toothing part has a first axis of rotation and the second spur toothing part has a second axis of rotation. The second axis of rotation of the second spur toothing part is offset relative to the first axis of rotation of the first spur toothing part.

Abstract: A gear transmission stage has two intermeshing gears hardened by heat treatment. In order to improve the noise behavior, one of the two gears has a final form determined by hard fine machining and the other gear has a form which is determined by heat treatment and is close to finished contours.

Abstract: The invention relates to a bearing cover (3) for a split bearing arrangement (1). Disposed between threaded bores (10) for receiving threaded bolts in order to connect the bearing cover (3) to a bearing block (2) is a stiffening element (16). Provided between two clamping surfaces (7) is a first radially inner bearing support surface (4) having an at least approximately arcuate cross-section as viewed in the axial direction (13). Adjoining the bearing support surface (4) and following the cross-sectional contour of the bearing support surface (4), a reinforcing web (19) is provided on the stiffening element (16) which has a varying height (20) as viewed perpendicular to the bearing support surface (4), and the tallest height (20) is disposed in the region of the half angular span of the bearing support surface (4).

Abstract: The invention relates to a bearing cover (3) for a split bearing arrangement (1), which in addition to the bearing cover (3) comprises a bearing block (2), wherein the bearing cover (3) comprises clamping surfaces (7), which in the assembled state of the bearing arrangement (1) bear on counter clamping surfaces (8) of the bearing block (2), and the clamping surfaces (7) have a sinter-roughened surface at least in some areas.

Abstract: A method forms a crowning on a sintered component made from a sintering powder, in particular on the teeth of a sintered component including a toothing. The sintered component is calibrated in that the sintered component is introduced into a calibration tool. The sintered component includes a forming chamber with at least one forming wall. In the forming wall a crowning is formed which is inverse to the crowning of the sintered component to be formed. After calibration the sintered component is removed again from the calibration tool. The size of the forming chamber of the calibration tool remains unchanged at least for the time period beginning with the insertion of the sintered component into the calibration tool and ending after the removal of the sintered molding from the calibration tool.

Abstract: The invention relates to a belt wheel (1) with a main body (2), which has a hub (4), on which a rim (3) is arranged, wherein the rim (3) is formed by a separate component from the main body (2), which component is connected in a form-fitting and/or force-fitting manner to the main body (2) by at least one connecting element (8), wherein the connecting element (8) comprises a first and a second connecting element part (9, 10), one of which is formed on the hub (4) and one of which is formed on the rim (3). The first connecting element part (9) is designed to be cam-like and the second connecting element part (10) is formed by at least one recess (17).

Abstract: The invention relates to a bearing cover (3) for a split bearing arrangement (1) which comprises a bearing block (2) in addition to the bearing cover (3), and the bearing cover (3) has clamping surfaces (4) which lie against co-operating clamping surfaces (5) of the bearing block (2) when the bearing arrangement (1) is in the assembled state, and a first radially inner bearing support surface (12) having an at least approximately curved cross-section as viewed in the axial direction is provided between the two clamping surfaces (4). An additional surface (15) is provided between at least one of the clamping surfaces (4) and the first radially inner bearing support surface (12) which directly adjoins the first radially inner bearing support surface (12) and clamping surface (4) and which is disposed at an obtuse angle (16) to the first radially inner bearing support surface (12) and at an acute angle (17) to the clamping surface (5).

Abstract: The invention relates to a swashplate (5) for a swashplate compressor (1) comprising a main swashplate body (8), which is made from a sintering material, and to a method for producing the swashplate (5).

Abstract: The invention relates to an assembly (1) at least comprising a first metal component (2) having a first surface region (5) and a second metal component (3) having a second surface region (7), wherein the two surface regions (5, 7) face each other, and the first and the second component (2, 3) are connected cohesively together at least in a subregion of the two surface regions (5, 7), and wherein at least one of the two metal components (2, 3) is a sintered component, wherein that surface region (7) of the sintered component that has the cohesive connection has a higher density than the adjoining further surface region of the sintered component.