ES2205609T3 - DEVICE FOR CONTROLLING THE MOVEMENT OF A DARK DEVICE. - Google Patents

Abstract

The device comprises a wind (10) for the belt driven by a motor (19), a wheel (17) driven by the moving belt, sensor devices (25) for detecting the rotation of the wheel, and an electronic control arrangement (27) for switching off the drive motor in at least one presettable position of the blind. Further sensor devices (26) are provided for detecting the rotation of the wind or a rotating element (22) connected with it. The device controls the movement of a blind by means of a belt (11), and comprises a wind (10) for the belt driven by a motor (19), a wheel (17) driven by the moving belt, sensor devices (25) for detecting the rotation of the wheel, and an electronic control arrangement (27) for switching off the drive motor in at least one presettable position of the blind. Further sensor devices (26) are provided for detecting the rotation of the wind or a rotating element (22) connected with it. An evaluation arrangement forms relative values of the respective signals of both sensor devices (25, 26) as a current position signal, whereby the drive motor is switched off by means of a switch-off arrangement when reaching a predetermined nominal position.

Description

Device to control the movement of a dimming device.

State of the art

The invention relates to a device for control the movement of a dimming device, in special a blind, a roller blind or a curtain of sheets, by means of a canvas tape according to the gender of the claim 1.

Of the document EP-A-0 924 379 a known tape reel of this class, where sensors are used "Hall" arranged with an angular displacement to generate two phase shifted signals, which are valued in a device electronic control to establish the direction of rotation of a electric motor.

In a known document device DE-A-195 23914 detects the Rotations of an inversion roller for the canvas tape. The Detected signals can now be used, without further final or reference switches, for relative measurement. Automatic error correction is not possible, that is, even if reference values are stored there is a risk that these, because of erroneous signals, disturbed impulses or aging phenomena, lose their exact subordination to final positions

Also, from document DE-A- 44 04 682 a device for controlling movement is known, in the that the number of rotations of the motor or of a piece of gear attached to it. Also here are the same inconveniences, that is, it is necessary to apply switches additional end or reference, or frequent is required subsequent adjustment of position values, if necessary, stored and subordinates.

Advantages of the invention

The device according to the invention with the particularities of the main claim have the advantage of that, by means of the dynamic detection of only two signals of sensor, an absolute value on the position can be obtained respective for example a blind armor. The absolute determination of positions is thereby independent of True drive speed If for example they are deleted end positions stored due to a power failure or an unintended reset signal can be recovered automatically. The evaluation of the two sensor signals can be done in a simple way

Through the measures mentioned in the subordinate claims are possible refinements and advantageous improvements of the device indicated in the claim principal.

By means of detection they can conveniently scan marks or teeth on the roller and the winder or in the rotating element that is in union drive with them, and become signals corresponding. With it the signals of the detection means they are preferably counting signals or frequency signals derived from these.

A simple valuation possibility consists of in which the signals of the detection means can be fed to a stage of quotient formation to form the values Relational

In a preferred execution, the installation of disconnection shows at least one comparator to compare position values, derived from relational values, with at minus a preset disconnection position value, where the disconnection installation can be operated by the at least a comparator

The roller driven by the canvas tape is conveniently the tape reversing roller, necessary for anyway.

He drew

An example of Execution of the invention, which is explained in more detail in the following description. Here they show:

fig. 1 a schematic representation in court  longitudinal of an electric drive device, for a blind armor, through a drive belt, Y

fig. 2 a block connection scheme of An electronic device to control movement.

Description of the execution example

According to fig. 1, a flat 12 tape box it contains a winder 10 for a canvas tape 11, where the tape box 12 is configured in such a way that it can enter a wall recess 13, available anyway, for a manually operated winding roller in a building wall 14. A tape box 12 has applied a motor housing 15, such that it makes flat contact with the building wall 14 outside the wall recess 13 and, with this overlaps the boundaries of the wall recess 13 towards the four sides, so that the wall recess 13 is fully covered. With this, the motor housing 15 can also be removably configured from tape box 12.

The canvas tape 11 can be rolled and be developed by means of the winder 10 in the tape box 12, which is there rotatably mounted almost centrally, and runs from it outward on an inversion roller 17, to  through the motor housing 15 and a carcass opening not represented, and then almost parallel to the building wall 14 up to a blind box not shown, configured in the usual way, in which a winding axis is operated swivel mounted to roll and develop the armor of canvas tape blind 11.

In the motor housing 15, a reduction gear 18 is arranged in the central region, which is driven by an electric drive motor 19. The drive motor 10 drives through a helical wheel 20 a first toothed wheel 21, this one second cogwheel 22 and this the winder 10. for this the winder 10 has a toothed crown 23. In the reversing roller 17 composed of non-ferromagnetic material, for example of synthetic material, permanent ferromagnetic or magnetic elements 24 have been inserted into the outer perimeter region. During the movement of the canvas tape 11, the reversing roller 17 rotates, and the elements 24 pass through a first sensor 25, in which each of these elements 24 generates a signal. In the case of permanent magnetic elements 24 the sensor can be configured, for example, as a Reed type switch. As an alternative to this it is possible to configure the first sensor 25 according to the document
DE-A-44 14 280.

A second sensor 26 has been arranged, which can be also configured according to the document DE-A-44 14 280, in the region of teeth of the second cogwheel 22, such that during the rotation of this cogwheel 22 each tooth generates a signal in the second sensor 26. The two sensors 25, 26 are connected to one electronic control installation 27, which is housed in the lower region of the motor housing 15.

As drive of drive motor 19,  configured for example as a direct current motor, it they use batteries not represented, for example in the region top of the motor housing 15, which may also be configured as rechargeable batteries. Alternative or additionally a power supply to through a connection cable. The engine handling of drive 19 or electronic control system 27 se performed through management elements not represented, in the flat outer side of the motor housing 15 away from the wall of building 14.

In fig. 2 the region of the electronic control installation 27, in wiring diagram in blocks, which affects the disconnection of the drive motor 19 when reaching the two final positions. In principle, as is naturally, disconnections can also be made in this way. desired intermediate positions. Otherwise, an installation electronic control of this class is known for example of DE-A-440 4682.

The two sensors 25, 26 are connected to a stage of quotient formation 28 or a divisor. The output of this quotient formation stage 28 is linked to an input respective two comparators 29, 30 for the two positions late. The corresponding final positions, in which you must Disconnection occurs, can be preset through inputs comparators 31, 32. The outputs of comparators 29, 30 control, through an "O" element 33, a disconnector 34 in the drive motor current circuit 19. As is natural, the circuit depicted in fig. 2 can also materialize through a microcontroller, or the functions corresponding materialize additionally by means of a microcontroller available anyway.

When wrapping the canvas tape 11 over the winder 10, increasingly increases the diameter of the winding 35 of The canvas tape. Because winder 10 rotates with number of constant revolutions, constantly increases the speed of the canvas tape, so that it increases respectively, so constant, the number of revolutions of the reversing roller 17. During the winding these processes run in a way inverse

The basic idea of the present invention is now that in each position of the canvas tape and, thus, in any position of the blind armor, there is a certain ratio of the number of revolutions between the roller inversion 17 and winder 10. The number of revolutions of the reversing roller 17 is thereby in a fixed relationship with relation to the speed of the canvas tape. Through this speed ratio can be determined in this way the position of the canvas tape or the position of the armor of the shutter or other dimming device operated by the canvas tape, such as a rolling shutter or a curtain of sheets. If for example in the lower position of an armor of rolled shutter, the diameter of the winding 35 of the canvas tape it is equal to the diameter of the reversing roller 17, and if it is assumed also that the diameter of the winder 10 corresponds to three and a half times the diameter of the second gear 22, under the other premise that the number of teeth of the second wheel serrated 22 corresponds to the number of elements 24 of the inversion roller 17, the relationship between the number of revolutions of the reversing roller 17 and the number of revolutions of the second gear 2 is 1: 3.5. With this speed ratio is reached therefore the lower end position of the blind armor. Yes now I know part also as an example, that in the lower end position of the blind reinforcement, the diameter of the winding 35 of the belt of canvas is 3.5 times larger than the diameter of the roller inversion 17, the ratio of the number of revolutions is then of 1: 1. In the quotient formation stage 28, this ratio of number of revolutions is formed by means that the signals f1 of the first sensor 25 is divided by the signals f2 of the second sensor 26. For comparators 29, 30 they are precalculated as values of comparison of the lower disconnection value Au and the value of upper disconnection Ao, which correspond to the ratio of the number of revolutions available there. The output signal of the comparators 29, 30 generated later in each case leads to the opening of disconnector 34 and, thus, to disconnection of drive motor 19. Switching, necessary during the disconnection, from the direction of rotation of the drive motor can be produced according to the state of the art indicated, to ensure that the drive motor is reconnected present the opposite direction of operation, by means of a connection order or a radio signal. The engine reconnection of drive can be done by manual closing or wireless disconnector 34.

The storage of comparison values Au and Ao can be done for example, by means of which the values formed in each case in the quotient formation stage 28 Feed intermediate. In a learning mode they can stored later, in the lower disconnection position the last value stored as Au value and, correspondingly, in the upper disconnection position the value Ao as the value of comparison. This can be done manually or automatically.

If you want to modify the signal ratio between the signal sequences f1 and f2, the second sensor 26 can explore another cogwheel or directly the cogwheel of the winder 10, or the number of elements 24 to be explored is varied in or on the reversing roller 17.

Claims (8)

1. Device for controlling the movement of a darkening device, especially a blind, a roller blind or a sheet curtain, by means of a canvas tape (11), with a winder (10) driven by motor for the tape of canvas (11), with a roller driven by the canvas belt (11) that moves, with detection means to detect the rotation of the roller and with an electronic control installation (27) to disconnect the drive motor (19 ) in at least one presettable position of the darkening device, where other detection means (26) are provided for detecting the rotation of the winder (10) or of a rotation element (22) which is in drive connection with the same, characterized in that an evaluation installation (28) is provided to form relational values of the respective signals (f1, f2) of the two detection means (25, 26) as a real position signal, where when l is reached With the preset position values, the drive motor (19) can be switched off by means of a disconnection installation (34). 2. Device according to claim 1, characterized in that by means of the detection means (25, 26), marks (24) or teeth can be explored on the roller (17) and the winder (10) or on the rotating element (22) which is in drive junction with them, and become corresponding signals (f1, f2). Device according to claim 1 or 2, characterized in that the signals of the detection means (25, 26) are counting signals or frequency signals or signals of the number of revolutions derived from them. Device according to claim 2 or 3, characterized in that the signals (f1, f2) of the detection means (25, 26) can be fed to a stage of quotient formation, as an evaluation system (28), to form the relational values Device according to one of the preceding claims, characterized in that the disconnection installation (34) can be controlled by at least one comparator (29, 30) to compare the position values, derived from the relational values, with at least one value of preset disconnection position. Device according to one of the preceding claims, characterized in that the roller (17) is configured as a tape reversing roller. Device according to one of the preceding claims, characterized in that the rotation element (22), which is in drive connection with the winder (10), is a gearwheel of a reduction gear (18). Device according to one of the preceding claims, characterized in that the electronic control installation (27) is materialized by means of a microcontroller.