WO2003092443A1 - Electromotive adjustment device - Google Patents

Abstract

The invention relates to an electromotive adjustment device for adjustable components of a slatted frame, said device being fitted with at least two drive trains having output elements which are connected to the respective component to be adjusted, either directly or using a coupling means, in such a way that the components to be adjusted can be adjusted either individually and/or together. The aim of the invention is to design one such device in such a way that the number of cost-intensive components can be reduced in order to reduce costs. According to the invention, the drive trains are driven by a drive motor downstream of which a rotational speed reducing mechanism (12, 13) provided with a worm wheel is arranged. The drive motor is connected to at least one coupling element (14, 15) in a positively locking and/or force locking manner. Said coupling elements (14, 15) can be switched by electromagnets (18, 19). The inventive electromotive adjustment device is especially suitable for a slatted frame.

Description

 Electromotive adjustment device

The invention relates to an electromotive adjustment device for the adjustable components of a piece of furniture, in particular a slatted frame, which is equipped with at least two drive trains, the output members of which are connected directly or via coupling elements to the component to be adjusted in such a way that the components to be adjusted are optionally individually and / or are adjustable together. The previously known electromotive ner adjusting devices of the type in question are equipped with two drive motors, on each of which a worm drive is arranged. Spindles are driven via the worm drives, on which spindle nuts are placed, which are secured against rotation. These spindle nuts form the output member of each drive train, which consists of the worm drive, the spindle and the spindle nut. The head and foot sections of a slatted frame are usually adjusted using the so-called double drives. Such electromotive ner adjusting devices have proven their worth in practice. However, since they are to be regarded as mass products, they should be able to be manufactured particularly cost-effectively, i.e. they should be structurally simple. However, the costs are influenced significantly by the two drive motors and the actuators.

The invention has for its object to design an electromotive adjusting device of the type described in the introduction in such a way that the number of components, in particular the cost-intensive components, can be reduced in order to reduce costs.

The task is solved by connecting the drive trains with a single drive motor.

The solution according to the invention eliminates at least one of the two drive motors. Even if one assumes that the power of the single drive motor must now be increased if necessary, one motor can be purchased at a lower price than two motors. In addition, there are no electrical or electronic components for controlling the second motor. In a further embodiment it is provided that a speed reduction drive is connected downstream of the drive motor, that it has a rotating body which can be positively and / or non-positively coupled to one or more coupling elements. In this embodiment, the speed reduction drive could in turn be a worm drive, so that in the solution according to the invention not only a motor but also a worm drive is saved. This coupling element could be switchable by means of an electrical switching element, preferably an electromagnet or a lifting magnet. The Depending on the switching position, the coupling element comes into contact with the rotating body. In a preferred embodiment, the coupling element is non-rotatably mounted on a spindle that moves and rotates the output member, preferably the spindle nut. Accordingly, two coupling elements are used in the embodiment according to the invention. In a preferred embodiment, these are designed as pulling couplings which can be moved in the axial direction with respect to the longitudinal axis of the spindles. In order for an electromagnetic circuit to be possible, it should be made of a magnetizable material, for example metal, a sintered material or using the casting process. To further reduce costs, it is provided that only the drive train can be put into operation in the electromotive ner setting device, since as a result the power of the motor only has to be designed for one drive train.

The invention is explained in more detail with reference to the accompanying drawings. Show it:

Figure 1 shows the electromotive adjustment device in a partial view, in a first embodiment and Figure 2 shows the electromotive adjustment device in a partial view, in a second embodiment.

In the illustrated embodiment, the electromotive adjustment device contains two spindles 10, 11, which are each part of a drive train. In a manner not shown, a spindle nut secured against rotation is placed on each spindle 10, 11 and moves in the longitudinal direction of the spindles 10, 11 when the spindles 10, 11 rotate. These spindle nuts can press on a link lever, for example to adjust the head or foot section of a slatted frame. However, they can also be coupled to the components to be adjusted in a different way. In the illustrated exemplary embodiments, a worm wheel 12 is placed on the mutually facing ends of the spindles 10, 11 in a rotationally fixed manner. This worm wheel 12 is driven by a worm 13 which is non-rotatably mounted on the driven pin 14 of an otherwise not shown drive motor. In contrast to the embodiment shown, the output pin of the drive motor could also be designed as a worm. To the side of the worm wheel 12, two coupling elements 14, 15 are placed on bushings 16, 17, the bushes 16, 17 being connected to the spindles 10, 11 in a rotationally fixed manner. The coupling elements 14, 15 can be moved in the longitudinal direction of the spindles 10, 11, but take the spindles 10, 11 with them when the worm wheel 12 rotates, provided that they are in the of the worm wheel 12 with the spindles 10, 11, provided that they are in the operating position. The coupling elements 14, 15 or the pulling couplings are moved in the longitudinal directions of the spindles 10, 11 via magnets 18, 19.

In the embodiment according to FIG. 1, the worm wheel 12 is positively connected to the coupling elements 14, 15. On the sides facing one another, the coupling elements 14, 15 are provided with projecting pins 20, 21 which engage in corresponding bores in the worm wheel. When the magnets 18, 19 are switched accordingly, the pins 20, 21 either engage or disengage from the worm wheel 12. In the embodiment according to FIG. 2, the magnets 18, 19 are provided with two pins, which are located in circumferential grooves of the coupling elements 14 , 15 intervene. These coupling elements are ring-shaped and can also be switched via the magnets 18, 19 in such a way that entrainment takes place by the worm wheel 12 or that they stand still despite the worm wheel 12 rotating.

In a further embodiment, not shown in detail, the spindles 10, 11 could be driven via two bevel gears located opposite one another. At right angles to the axes of rotation of the bevel gears or to the longitudinal axes of the spindles 10, 11 is another bevel gear, which could also be switched via a magnet or a similar component and is only in engagement with a bevel gear. To reduce this middle bevel gear could be connected to the worm gear and consequently run synchronously.

The invention is not restricted to the exemplary embodiments shown and described. It is essential that the adjustment device has at least two drive trains which can be driven by a common motor, either either only one drive train being put into operation, or with a corresponding design of the drive motor for both drive trains.

Claims

claims

Electromotive adjustment device for the adjustable components of a piece of furniture, in particular a slatted frame, which is equipped with at least two drive trains, the output members of which are connected directly or via coupling means to the component to be adjusted in such a way that the components to be adjusted are optionally individually and / or jointly adjustable , characterized in that the drive trains can be connected in terms of drive technology to a single drive motor.

2. Electromotive adjustment device according to claim 1, characterized in that the drive motor is followed by a speed reduction drive (12, 13) which has a rotary body, preferably a worm wheel (12), and which with one or more coupling elements (14, 15) form and / or is non-positively connectable.

3. Electromotive adjusting device according to claim 2, characterized in that the coupling element (14, 15) can be switched by means of an electrical switching element, preferably an electromagnet (18, 19).

4. Electromotive adjusting device according to one or more of the preceding claims 1 to 3, characterized in that each coupling element on the threaded spindles (10, 11) rotatably mounted bushings in the longitudinal direction of the spindles (10, 11) is displaceable, but upon rotation in one Driver connection with this is.

5. Electromotive adjusting device according to claim 4, characterized in that the coupling element is designed as a pulling coupling which is movable in the axial direction, based on the longitudinal axes of the spindles (10, 11).

6. Electromotive adjusting device according to claim 1, characterized in that the coupling element is a displaceable bevel gear which can be brought into engagement with one or more bevel gears via at least one switching element. Electromotive adjusting device according to one or more of the preceding claims 1 to 6, characterized in that each coupling element (14, 15) consists of a magnetizable material, for example metal, a sintered material or a material produced by the casting process.