CS266582B2 - Electric motor for machine drive, e.g. washing machine - Google Patents

Abstract

Motor for control of an apparatus, preferably a stationery apparatus, for example a washing machine, characterised in that the motor 10 comprises an insulating component element 12 which is provided with wiring located inside the motor and serves as support for the component elements anticipated for operation of the motor 10. <IMAGE>

Description

The invention relates to an electric motor for driving a machine, for example a washing machine.

For current machines and devices, the mass-produced drive motor is mounted in the machine and then the wires are manually connected. The wound stators of the electric motors must be internally connected and connected to other components such as capacitors, chokes, carbon brushes and connection plugs. For example, a terminal block is provided at a suitable location to which all the wires coming from the motor converge as the leads of the field winding, tachogenerator or brushes. Wires coming from the outside, such as those of the mains connection or the control electronics, must also converge at this point. Moreover, in such a construction there is a risk of surface currents due to dust deposits on the components and at the switching points.

The purpose of the invention is to reduce the manufacturing requirements of such devices and machines, in particular the connection requirements of the drive motor, and to increase operational reliability. SUMMARY OF THE INVENTION The engine is designed as a collector motor and a printed circuit board is arranged perpendicularly to the shaft on its collector end shield, the conductor path system constituting the internal connections of the motor and carrying electrical components integrated into the conductor paths. wherein the side of the conductive track plate faces away from the stator.

This results in a drive motor which, in practice, forms a unit with the components necessary for its operation and the internal conductors. This finished unit can be pre-assembled and built-in as a complete unit into a machine or machine, for example a washing machine, without the need for further complicated and time-consuming work for the internal motor connection. By replacing conventional wiring with single wires, operational reliability is increased and the number of operating procedures for stator wiring and final assembly is reduced.

The finished unit may preferably be designed as a printed circuit board which forms the carrier of the components and is provided with conductive tracks for the internal connection of the motor.

For higher currents, according to another embodiment of the invention, the internal motor connection can be formed as a separate metal grid. Such a metal lattice can be intentionally adapted to the expected current intensities, while the lattice can conduct substantially higher currents than the printed circuit boards. For example, a grid can be created simply by punching.

For example, the metal lattice can be fixed to the insulating support components, for example on a board, for example by means of support points. The internal conductors of the motor, for example in the form of such a metal grid, may be surrounded at least on their substantial parts by an insulating component which forms the support component. This enables reliable compact connection technology with protection against contact and contamination. The contact points are encapsulated so that they are shock-proof, and the number of error possibilities is greatly reduced. The electrically necessary distances of the individual components can be easily maintained. Such a design allows for a compact design of the connecting conductors up to the connection plug.

For example, the conductors may be preferably cast into a preformed carrier plate or encapsulated with insulating plastic. According to a further feature of the invention, the conductors may be surrounded or possibly covered by insulating components.

According to a preferred embodiment, the components for the operation of the motor, for example capacitors, chokes, carbon brushes or plugs, are carried by or integrated with the printed circuit board or carrier plate, for example in specially designed chambers.

The components may be, for example, a coil of a tachogenerator which is mounted in direct conductive contact, for example, on a printed circuit board. Finally, the control electronics part of the motor can also be formed as a component and fastened directly to the printed circuit board. Thus, while the internal motor connection is in progress

CS 266 582 B2, for example, via a printed circuit board, the outer conductors can be connected via a single socket contact which is fitted to the pins of the printed circuit board and can be mechanically locked thereon by locking elements.

In an engine where it is possible to use a plastic end shield, the support plate is preferably designed as an engine end shield and the internal motor connection is formed by a metal grating.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be explained in conjunction with the exemplary embodiments shown in the drawing, wherein FIGS. 1 and 2 show schematically in various views the collector end of a PCB motor according to the invention; FIGS. 3a, 3b. 5 and 6 show two schematic views of the motor of a collector with a tachogenerator mounted on a printed circuit board, FIGS. 7 and 8 two further embodiments, FIG. 9 a plan view of a further embodiment of the invention and FIG. the broken plane AB in FIG. 9.

The drawing shows a stator 10 and a drive motor collector 11 having a printed circuit board 12 on the collector side, mounted in a manner not shown on a bearing shield on the collector side of the motor provided with a contact surface 63. In the embodiment according to FIG. 1, the wedges 14, located in the pole grooves, extend up to the plate 12 and have channels 15 in which the connecting conductors 16 are arranged between the stator and the plate 12. These include, for example, field winding connections for thermal protective switch and coil terminals. The connection between the connecting conductors 16 and the printed circuit board 12 is in the form of a plug connection. In this construction, the connection will occur during the assembly of the bearing shield including the plate

12. Testing of the stator 10 may be performed prior to mounting the bearing shield via contact pins 17 mounted in wedges 64. *

Giant. 2 shows the mounting of the brush holder 18, not encapsulated in plastic, on the plate 52 lying on the side facing away from the stator 10 and contacting them with the conductors of the plate 52. The positions of the brush holders 18 necessary for a different sense of rotation of the blasting are arranged on the plate 12. At the holes of the brush holders 18, a bearing surface and a suitable fastening, for example cast pins and locking discs, are provided in the bearing shield. Since both glasses 18 of the holder 18 are mounted on a single piece, there are no problems with adjusting their distance.

The motor electronics part of the control electronics is formed as a separate component 19 and is also arranged on a direct contact printed circuit board 12 (FIG. 3a). Pins 20 are attached to the printed circuit boards 12 for electrical connection outwards by means of a socket contact 21 which can be anchored to the circuit board 12 by means of a locking device 22, 23 (FIG. 4). Thus, in comparison with the prior art, the contact housing and the corresponding retaining plate can be omitted. Instead of the existing strong cable, a broadband ribbon cable 24 may be provided.

Giant. 5 and 6 show a tachogenerator 25 with a conventional coil 26 wound on a core and a magnet 27. The coil 26 is mounted directly on the circuit board 12 without additional wires inserted and the magnet 27 is fitted directly between the collector 11 and the bearing 8. A heat shield may optionally be provided from the collector side. The core of the coil 26 extends beyond an odd number of pole pitches.

The board 12 is protected on the PCB side by a polyurethane foam mat 29 against carbon dust and thermal effects. The mat 29 has, as a molded part, punched holes for the tachogenerator 25, the electronic component 49, the choke 30, the pins 20 and the socket contact 21, and can be fixed to the plate 12 by clamps (not shown).

The prefabricated printed circuit board 12 is attached to the inside of a bearing shield (not shown) and may, for example, be clamped on bolts or bolted. In the case of glasses, an additional fastening on the bearing surface of the bearing shield is expedient in order to prevent the plate 12 from oscillating.

CS 266 582 B2

The printed circuit board 12 thus forms the support of the conductor assembly, the brush holders 18, the pins 20, the socket contact 21, the tachogenerator 25, the control electronics and the interference suppressors. All internal motor wires, namely the leads from the tachogenerator 25 to the pins, the drive leads, the brush leads, the thermal protection leads, the leads to the plug and socket and the leads to the electronics are routed through the printed circuit board 12.

Giant. 7 shows the collector end of the motor, and FIG. 8 shows an insulating component formed as a support plate 34.

The stator 10 carries a stator winding with a head 31. The winding is led to four contact support points 32 which form contact transitions between the winding and the internal conductors 33 of the motor.

The internal motor conductors 33 form an integral part of the printed circuit board, which is formed as a support plate 34. According to FIG. 8, the internal conductors 33 consist of conductive tracks produced by punching, which are shown in partial view and are completely surrounded by an insulating carrier plate 34, for example, are embedded therein. The contact between the field winding in the stator 10 and the carrier plate 34 is provided through the contact support points 32 (FIG. 7), which engage in the contact holes 35 of the carrier plate 34. ^This carrier plate 34 simultaneously mechanically firmly seated on the stator 10. The support plate 34 It has an internal bore 36 for the passage of the motor rotor and at the same time forms a carrier for additional components, for example for brush holders 18, for plug housings 37, 38 and for the thermal switch 39.

A further preferred embodiment of the invention is shown in Figures 9 and 10, wherein the printed circuit board has the shape of a housing 40 consisting of a base plate 41 with a protruding edge 42. The outline of the base plate 41 is adapted to the motor component on which the housing 40 is to be fastened. An edge 43 can be fitted with a cover 43 which, in the case of an insulating plastic case 40, can be secured to the edge 42 by a plastic hinge 44 and forms conventional dust and / or liquid impermeable enclosure closure seals.

Suitably, the housing 40 has an opening 65 in the middle into which the motor collector 11 projects. This has the advantage that on the underside of the housing 40 facing the motor, brush holders 46 may be arranged integral with the housing 40. The holders 46 are shown as double V-shaped holders, such as used, for example, in a reversible motor. In addition, the housing 47 can also be made integrally with the housing 40 for connectors and tubing extensions 48 for conducting and / or insulating electrical conductors 52 which connect, for example, the field winding face 31 with the components housed in the housing 40.

The housing 40 of this kind may preferably be formed as one piece with one of the engine bearing supports. However, within the scope of the invention, the housing 40 can, on the other hand, be mounted as a separate component at any other point in the engine, conveniently by means of snap hooks, spring clips and the like.

According to a preferred embodiment of the invention, the housing 40 may serve as a leakproof housing for the wiring board 50 which is provided with components 52 necessary for engine operation, e.g., tachodynamic coil, interference suppressor, thermal sensor and electronic components, etc. and mounted on the housing 40 holders forming electrical contacts, or a shaped connection and / or snap hooks.

A further advantage is that the housing 40 is particularly suitable for accommodating machine pre-fabricated electrical connecting elements 49, 51. Such elements may consist of insulated cable conductors 49 with plug connectors attached or insulated and / or non-insulated wire sections 51 bent into of a certain shape. Depressions, channels, grooves, and the like may be provided inside or outside the housing 40 for guiding, holding and / or insulating them. Especially when using pre-bent wire sections which conform to the contours of the guide ducts and extensions 48 adjoining and guiding them winding face 31, can be used with automatic assembly. Thus, providing the insulating part as a housing 40 has a number of advantages.

Claims (21)

SUBJECT OF THE INVENTION An electric motor for driving a machine, for example a washing machine, characterized in that it is designed as a collector motor and on its bearing shield on the collector side a printed circuit board (12) is arranged perpendicular to the shaft. it carries electrical components integrated into the conductive tracks, the printed circuit board (12) being facing away from the stator (10) with its conductive track side. Electric motor according to claim 1, characterized in that the printed circuit board (12) is mounted on the brush holders (18) arranged on the bearing shield. Electric motor according to Claims 1 and 2, characterized in that in the stator (10) at least a part of the groove-closing wedges (14) extends into the plane of the printed circuit board (12) and is provided with channels (15) through which the connecting conductors (16) pass. ) from the stator (10) connected to the conductive tracks of the printed circuit board (12) by contact pins (17). Electric motor according to one of Claims 1 to 3, characterized in that the brush holders (18) are fastened to the printed circuit board (12) in direct electrical contact. Electric motor according to one of Claims 1 to 4, characterized in that a rod coil (26) of the tachogenerator (25), whose magnet (27) is arranged between the collector (11), is fixed in direct electrical contact on the printed circuit board (12). ) and bearing (28) on the motor shaft. Electric motor according to one of Claims 1 to 4, characterized in that an annular coil (26) of the tachogenerator (25) including a pole housing surrounding the magnet (27) mounted on the motor shaft is arranged on the printed circuit board (12). Electric motor according to one of Claims 1 to 6, characterized in that the printed circuit board (12) is provided with pins (20) for connection to an external socket contact (21) which is releasably mechanically fixed thereon by a locking device (22). 23). Electric motor according to one of Claims 1 to 7, characterized in that the conductive tracks (33) in the form of a metal grid are punched out of brass sheet and fastened directly to the printed circuit board (12). Electric motor according to one of Claims 1 to 8, characterized in that the printed circuit board is designed as a bearing plate (34) in the form of a bearing shield and the course of the conductive tracks (33) is adapted to its shape. Electric motor according to claim 9, characterized in that the support plate (34) is connected electrically and / or mechanically to the electric motor or the ends of the field winding via the contact cams (32) and the contact openings (35). 11. An electric motor according to claim 1, 9 and 10, characterized in that the printed circuit board is formed as a housing (40), wherein an edge (42) forming the side walls of the housing (40) is arranged on the periphery of the motherboard (41). An electric motor according to claim 11, characterized in that the housing (40) is closed in a dust-tight and / or liquid-tight manner by a cover (43) mounted on its edge (42). 13. Electric motor according to claim 11 or 12, characterized in that the housing (40) is made as one piece of insulating material and connected to the cover (43) by a plastic hinge (44). 14. Electric motor according to claim 11, characterized in that the housing (40) at least partially surrounds the collector (11) and the brush holders (46) are fastened on its side facing the collector (11). CS 266 582 B2 15. An electric motor as claimed in claim 11 and one of claims 12 to 14, characterized in that the housing (40) is formed in one piece with a further motor part, for example a bearing rack. 16. The electric motor according to claim 11 and one of claims 12 to 15, characterized in that the housing (40) is provided with fastening elements which can be locked, for example, by elasticity on the mating parts mounted on the engine parts. 17. The electric motor according to claim 11 and one of claims 12 to 16, characterized in that extensions (48) are provided on the housing (40) through which the electrical conductors (49) or the connecting elements (49, 51) pass. Electric motor according to claim 17, characterized in that the connecting elements (49) are designed as pre-fabricated cable conductors with fixed pin contacts. An electric motor according to claim 17, characterized in that the connecting elements (51) are constructed as sections of wire ready to be assembled, bent into predetermined shapes and optionally insulated. 20. The electric motor according to claim 11 and one of claims 12 to 19, characterized in that the conductor-like connecting elements (49) extend in the housing (40) in an insulated manner by depressions, channels, grooves and the like. Electric motor according to one of Claims 11 to 20, characterized in that a wiring plate (50) is arranged in the housing (40) for receiving the electrical and / or electronic components (52).