FR2779586A1 - DEVICE FOR ADJUSTING THE ROTATION SPEED OF A SWITCHING MOTOR WITH SERIAL EXCITATION OR SHUNT EXCITATION - Google Patents

Abstract

a) Device for adjusting the speed of rotation of a motor with commutator, series excitation or shunt excitation, on different rotational speed ranges, in particular for washing machines with low washing speed and d 'spinning and at higher spinning speeds and for d (other motors with series excitation. b) Device characterized in that two or more field coils (2, 3) are provided which can be switched on. circuii separately or in common and of which at least one field coil (3, 21) contains a tap on the field coil.c) The invention gives a washing machine greater convenience of switching between the different washing speeds and spinning as well as better acceleration behavior.

Description

DEVICE FOR ADJUSTING THE SPEED OF

  ROTATION OF A SWITCHED MOTOR

  EXCITATION SERIE OR A EXCITATION SHUNT.

  The invention relates to a device for regulating the speed of a switch motor, with series excitation or with shunt excitation, on different speed zones, in particular for washing machines with low speed of rotation. washing and spinning and at higher spin speed and for other series excitation motors From document DE 32 00 753 B1 there is known a switching device for adjusting the speed of a motor universal on different speed ranges, especially at low wash speeds and

  high spin speed.

  A field winding is provided here which, as desired, is supplied with voltage controlled with phase delay either via

  from its terminal remote from the armature, either via a socket.

  In particular, the field winding terminal and the socket are each connected via a triac to a first line

common power supply.

  From document DE 26 15 482 A1, there is also known a square cursor designed for two ranges of rotational speeds, in the case of which the field winding of the drive motor contains at least one tap and at least one diode can switch to the direct supply line of the winding

  field to reduce the rotation speed.

  In addition, document DE 37 28 609 C2 describes a device for limiting the current at the start of a centrifuge and for prohibiting uncontrolled operating states in the event of mains failures on washing machines, a device in which a drive motor, two field windings connected in series with plug, a tachometer generator coupled to the drive motor and an electronic circuit for controlling the speed of rotation. The field windings can be controlled via a common electronic control member using the electronic speed control circuit, only one field winding being controlled by a control member.

  additional control via the socket.

  The object of the invention is to create a simple device for adjusting the speed of rotation of a switch motor, with series excitation or with shunt excitation, over different ranges of speed, in particular for washing machines with low rotation speed of washing and spinning and rotation speeds

  higher spin levels and for other series excitation motors.

  This object is achieved by means of two or more field coils which can be connected separately or in common and at least one field coil of which is provided.

  contains a field winding plug.

  The advantages obtained with the invention are in particular constituted by the fact that with relatively simple means, in particular in the case of washing machines, it is possible on the one hand to obtain low speeds of rotation of washing and spinning and on the other hand also the highest spin rotation speeds. Furthermore, according to the invention, a favorable acceleration behavior is obtained in the case of motors with series excitation switch and shunt excitation, which also increases the service life.

brooms.

  Preferably, the field coils are each provided with

  minus an asymmetrical tap on field winding.

  Preferably, the field windings are mounted in series

  on the armature line of the drive motor.

  Preferably, the armature of the drive motor is arranged in the axis relative to the field windings so as to give a grip on the field winding symmetrical with respect to the

armature winding.

  Preferably, the field windings are made up of partial windings and the taps on field windings are

  arranged between the partial windings.

  Preferably, each field winding consists of three

or more, partial windings.

  Preferably, the number of turns of two partial windings is identical and that the third partial winding has a different number of turns compared to the other two partial windings. Preferably, to obtain a minimum speed of washing and spinning, the electric current flows through all

partial windings.

  Preferably, for a washing machine with asymmetrical or symmetrical setting of the partial windings, characterized in that in order to obtain a higher spin speed, the current flows through two partial windings of the same number of

  turns in each field winding.

  Preferably, for a washing machine with asymmetrical or symmetrical setting of the partial windings, characterized in that in order to obtain the highest spin speed, the current flows through each of the partial windings having the highest

  small number of turns in each field winding.

  Preferably, the field windings have the same number of turns and a center tap is provided between the

field windings.

  Preferably, the field winding disposed in front of the

  drive motor has a plug.

  The invention is described below using exemplary embodiments: - Figure la represents a diagram of a series excitation motor with an asymmetrical tap on field winding, - Figure lb represents a median tap on field winding of the series excitation motor of figure la, - figure lc represents a tap on one of the field windings of the series excitation motor of figure la, - figure 2a represents a diagram of a motor with series excitation with an asymmetrical tap on field winding, - Figure 2b represents a middle tap on field winding of the series excitation motor of figure 2a, - Figure 2c represents a tap on field winding with each time a partial winding of the two field windings, - Figure 3a shows a diagram of a series excitation motor with a symmetrical tap on the field winding, - Figure 3b shows a middle tap on the field winding of the figure e 3a, - Figure 3c shows n diagram of an excitation motor

  series with an asymmetrical plug on field winding.

  FIG. 1a represents a diagram of a series 1 excitation motor, for example in the form of a drive motor for washing machines, in which the two field coils 2 and 3 can be energized via of an electronic control circuit not shown, see the input arrow 6 and the output arrow 8. In the case of this switching device, a rotation speed of <1100 rpm is obtained for a washing machine for washing and spinning. FIG. 1b represents a switching device in which only the field winding 3 is connected to the voltage. Thanks to this central grip, a spinning rotation speed of <1400 rpm is obtained. An even higher speed of rotation of the series 1 excitation motor, and therefore of the washing machine drum, is obtained, by placing the plug on field winding 3 approximately in the middle. The rotation speed

  spin speed is approximately <1800 rpm.

  In the context of the invention, the field windings 2 and 3 can, according to FIGS. 2a to 2c, each consist of three partial windings 5, 7, 9 and 11, 13, 15. When all the partial windings 5, 7, 9; 11, 13, and 15 are traversed by the current, this results for example in a washing and spinning rotation speed of 1100 rpm see FIG. 2a. An increase in the speed of rotation of the drive motor 1 and therefore of the washing drum is obtained in order to change to a speed of rotation of 1400 rpm according to FIG. 2b by the means that the partial windings 7, 9, 13 and 15 showing the small numbers of turns are energized. To obtain the highest rotational speed of 1800 rpm, the current must only pass through the partial windings 9 and 15, see

figure 2c.

  The number of turns of the partial windings 7 and 13 and 9, 15 is identical, while the partial windings 5 and 11 have a different number of turns, for example a double number of turns, compared to the partial windings 7 and 13 or 9 and 15. FIGS. 3a-3c show circuit devices for a drive motor 17 in the case of which the field coils 19, 21 are arranged symmetrically with respect to the armature 4 of the drive motor 1. Here the field winding 19 is made up of partial windings 23, 25, 27 and the field winding 21 is made up of partial windings 23, 31, 33. If, according to FIG. 3a, all the partial windings 23, 25, 27, 29 and 31, 33 are energized, this again results in the lowest speed of rotation of the drive motor 17 of 1100 rpm. The partial windings 25, 27, 3 1 and 33 have an identical number of turns while the number of turns of the partial windings 23 and 29 is again double

  that of the partial windings 25, 27, 31 and 33.

  The spin rotation speed of 1400 rpm is obtained by means of which the two partial windings 25, 27, 31, 33, of the same number of turns in each field winding 19, 21, are energized, see Figure 3b. To obtain the highest speed of rotation of 1800 rpm of the drive motor 17, according to FIG. 2c, only a partial winding 27, 33 in each field winding 19, 21 having the smallest number of turns is put under

voltage.

  The circuit devices described above make it possible, with the simplest means, to obtain a favorable behavior in acceleration and an adjustment of the speed of rotation of the drive motor 1, 17 according to each of the desired functions like washing and spinning. in the case of washing machines, these drive motors 1, 17 being constituted by switch-type motors with series excitation or with shunt excitation. Thanks to this favorable acceleration behavior of the drive motors 1, 17, an increase in the life of the brushes is also obtained and

  therefore the lifetime of these drive motors.

  According to the invention, the drive motors described can advantageously be used in the case of washing machines but

  also in other cases of series excitation motors.

Claims (12)

  1. Device for adjusting the speed of a switch motor, series excitation or shunt excitation, on different speed zones, in particular for washing machines with low speed of washing and washing spinning and at higher spinning rotation speeds and for other series excitation motors, characterized in that two or more field coils (2, 3; 19, 22) are provided which can be switched on in circuit separately or in common and of which at least one field winding (3, 21) contains a tap on field winding. 2. Device according to claim 1, characterized in that the field coils (2, 3; 19, 21) are each provided with   minus an asymmetrical tap on field winding.   3. Device according to claim 2, characterized in that the field coils (2, 3) are mounted in series on the line   armature of the drive motor (1).   4. Device according to claim 2, characterized in that the armature (4) of the drive motor (17) is arranged in the axis relative to the field windings (19, 21) so as to give a grip on field winding symmetrical with respect to the armature winding. 5. Device according to claim 3 or 4, characterized in that the field windings (2, 3; 1'9, 21) consist of partial windings (5, 7, 9; 11, 13, 15; 23, 25, 27, 29, 31, 33) and that the sockets on field windings are arranged between the partial windings (5/7, 11, / 13, 23/25, 29/31) 6. Device according to claim 5, characterized in that each field winding (2, 3; 19, 21) consists of three, or more, partial windings (5, 7, 9; 11, 13, 15; 23 , 25, 27, 29, 31, 33).   7. Device according to claim 6, characterized in that the number of turns of two partial windings (7/13, 9/15; / 31; 27/33) is identical and that the third partial winding (5, 11, 23, 29) has a different number of turns compared to   two other partial windings (7/13, 9/15; 25/31; 27/33).   8. Device according to one of the preceding claims,   characterized in that to obtain a minimum washing and spinning rotation speed, the electric current passes through all the partial windings (5, 7, 9; 11, 13, 15; 23, 25, 27, 29, 31 , 33).   9. Device according to one of the preceding claims for   a washing machine with asymmetrical or symmetrical setting of the partial windings, characterized in that to obtain a higher spin speed, the current flows through two partial windings (7/139/15; 25/31; 27 / 33) of the same number   turns in each field winding (2, 3; 19, 21).   10. Device according to one of the preceding claims for   a washing machine with asymmetrical or symmetrical setting of the partial windings, characterized in that to obtain the highest spin speed, the current flows through each of the partial windings (9, 15,; 27, 33) having lowest number   turns in each field winding (2, 3, 19, 21).   11. Device according to claim 3 with asymmetrical tap on field coils, characterized in that the field coils (2, 3) have the same number of turns and as a plug   between the field windings (2, 3).   12. Device according to claim 3 with asymmetrical grip on field windings, characterized in that the field winding (3) disposed in front of the drive motor (1) has a take.