DE29603173U1 - Electromotive furniture drive - Google Patents

Description

Electric motor furniture drive

The invention relates to an electric motor furniture drive, which is designed as a single or double drive, which is equipped with at least one drive gear motor, the respective output pin of which can be coupled to an adjusting spindle, onto which a spindle nut secured against rotation is placed, which interacts with a linkage lever from which the adjustment movement is derived.

The electric motor furniture drive in question is used, for example, to adjust the head and foot sections of slatted frames, beds, loungers and the like. Depending on the application, it can be equipped as a single drive with a drive gear motor and an adjusting spindle or as a double drive with two drive gear motors and two adjusting spindles. The upward and downward movement takes place when the drive gear motor is switched on. During the upward movement, the spindle nut is moved away from the drive gear motor and pivots the linkage lever, which is not yet coupled to the spindle nut. During the downward movement, the linkage lever is pressed against the front end of the spindle nut by the weight of the furniture component to be lowered. The

LOESENBECK & STRACKE - PATENT ATTORNEY '■

15 February 1996

Dewert

Sheet

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Speed is determined by the linear speed of the spindle nut.

There is often a desire to lift the furniture component to be adjusted by hand. The spindle nut then remains in its original position, with the result that the furniture component to be adjusted falls freely when lowered. It can even happen that the linkage lever hits the spindle nut. In the furniture drives known to date, the adjusting spindle is self-locking, as it must be guaranteed that the furniture component to be adjusted remains in every position within the adjustment range.

The object of the present invention is to ensure that, when the furniture component is lifted by hand, it does not fall down unhindered in free fall when the fitting is actuated accordingly.

The task is solved by the spindle nut being designed in two parts and consisting of an internal thread body placed on the adjusting spindle and a thrust element connected to the control lever, the drive connection between the output pin of the drive gear motor and the control spindle being disengageable, and the internal thread body being connectable to the thrust element by coupling elements, so that when the adjusting spindle is driven by the drive gear motor, the internal thread body is separated from the thrust element and is coupled to one another in the disengaged position. In the normal operating state, in which both the raising and lowering of the furniture component is motorized, the internal thread body presses against the thrust element during the upward movement, whereby the control lever is pivoted accordingly. During the downward movement, the thrust element presses against the internal thread body, so that the downward movement also takes place at a speed determined by the speed of the adjusting spindle. If the furniture component is to be lifted manually from a lower position, the drive connection of the output pin to the adjusting spindle is first interrupted. This can be done in various ways. Since the adjusting spindle is no longer self-locking, it is set in rotation when the furniture component is lifted, since the internal thread body is coupled to the thrust element at the same time as it is disengaged. The self-locking in the furniture drive according to the invention now lies in the drive gear motor itself. If the component is lowered by operating the fitting, it cannot suddenly fall down, since the two-part spindle nut acts like a braking element. This design of the furniture drive ensures that both during motorized movement and during

LOESENBECK & STRACKE - PATENT ATTORNEYS.'-!

February 21, 1996

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Adjust the spindle nut by hand so that it always remains in the same position for a corresponding height or inclination of the furniture component.

In a further embodiment, the coupling elements are formed by profiles that can be fitted into one another. This then creates a positive connection, so that displacement of the internal thread body towards the thrust element is prevented.

A structurally simple and durable solution is achieved if the thrust element has an outer area that overlaps the internal thread body, and the surfaces of the overlapping areas that face each other are profiled like a rack. The thrust element is expediently equipped with two areas that are opposite each other and overlap the internal thread body. The rack-like design achieves a highly resilient form fit. In order to bring them into one another in the case of manual adjustment, it is provided that at least the areas of the thrust element that have profiles are elastically deformable. Bringing the profiles into one another is particularly beneficial if the areas of the thrust element that have profiles can be deformed by pressure elements in the form of drivable eccentric rollers.

The drive gear motor usually has a worm drive. In order to decouple the drive connection between the output pin of the drive gear motor and the adjusting spindle, the worm wheel can be disengaged from the worm according to a first suggestion. However, according to a further suggestion, a switchable coupling can be mounted between the output pin of the drive gear motor and the adjusting spindle!

The linkage lever is connected to the thrust piece in the simplest way by a bolt that engages in a slotted hole that is perpendicular to the longitudinal axis of the adjusting spindle, which is preferably located in the thrust piece and where the bolt is then firmly inserted into the linkage lever.

The invention is explained in more detail with reference to the accompanying drawings. They show:

Figure 1 The two-part spindle nut that can be moved inside the housing

with the connected linkage lever as a detail and

Figure 2 the articulated connection of the control lever with the spindle nut

pointing.

LOESENBECK& STRACKE - PATENT APPLICATION ·..·' ,·. · ·..: 15 February 1996

S :

The spindle nut 10 shown in Fig. 1 and 2 consists of an internal thread body 12 placed on a spindle 11 and a push element 13 that can be connected to it and partially overlaps the internal thread body 12. The spindle 11 is driven in a manner not explained in more detail by a gear motor (not shown) or a similar drive element. A switchable clutch (not shown) can be arranged in this drive train in order to interrupt the drive connection. This interruption can also take place by bringing the worm wheel out of engagement with the worm in a worm drive. The internal thread body 12 and the push element 13 are profiled like a rack in the opposing, upper and lower as well as overlapping areas, whereby the elevations of the internal thread body 12 can engage in the recesses of the push element 13. This positive connection is made, if necessary, by pressure elements that act from the outside on the toothed area of the thrust element 13. These pressure elements can be, for example, driven eccentric rollers 14. From Fig. 1 it can be seen that the spindle nut or the internal thread body 12 and the thrust element 13 have a square outer contour so that they are secured against twisting. For this purpose they are guided in a guide channel of the housing 15. The adjusting spindle 11 can be made of steel or a suitable plastic. The internal thread body 12 and the thrust element 13 are made of a suitable plastic, whereby the areas of the thrust element 13 that carry the profiles allow the necessary deformation.

At a distance from the free end associated with a control lever 16, the thrust element 13 of the spindle nut 10 is provided with an elongated hole 17 which runs transversely to the longitudinal axis of the adjusting spindle 11 and which runs in a vertical direction. The control lever 16 is angular. In the end area facing the spindle nut 11, a bolt 18 is firmly inserted therein, which runs parallel and at a distance from the axis of rotation 19 of the control lever 16. The height of the elongated hole 17 is designed so that the bolt 18 has space for the height differences during the pivoting movement. The starting position in which the furniture component to be adjusted (not shown) is pivoted from a flat to a raised position is shown in volume. The other end position in which the furniture component to be adjusted has reached the upper position is shown in dash-dotted lines.

In normal operating conditions, i.e. when the upward and downward adjustment of the furniture component is carried out by means of the furniture drive, the profiles of the internal thread body 12 and the thrust element 13 are disengaged. When raising

LOESENBECK& STRACKE - PATENTANmTJ^ BlEtE^El-D.. ^: .:. · \. ^: 15 February 1996

."·«.··. .·%.··. , »Description sheet

When the furniture component is moved, the thrust element 13 is then moved outwards by the movement of the internal thread body 12. When the furniture component is lowered, the movement takes place in the opposite direction, since in both movements the outer face of the internal thread body 12 touches the adjacent surface of the thrust element 13. If the furniture component to be adjusted is to be raised by hand, the drive connection between the output pin of the drive gear motor and the adjusting spindle is first disengaged or interrupted. At the same time, the teeth of the internal thread body 12 and the thrust element 13 are brought into engagement. The adjusting movement of the furniture component then pulls the spindle nut 10 along and causes the adjusting spindle 11 to rotate. Each position within the adjustment range of the furniture component is assigned a defined position of the spindle nut 10. During the downward movement, the thrust piece 13 presses against the internal thread body 12, whereby the adjusting spindle 11 is also set in rotation, but the direction of rotation is opposite to that during the upward movement. However, the prerequisite for these movements is that the adjusting spindle 11 is not self-locking.

LOESENBECK & STRAACKE

15 February 1996

Claims (1)

Protection claims Electromotive furniture drive, which is designed as a single or double drive, which is equipped with at least one drive gear motor, the respective output pin of which can be coupled to an adjusting spindle, onto which a spindle nut secured against rotation is placed, which interacts with a link lever from which the adjustment movement is derived, characterized in that the spindle nut (10) is designed in two parts and consists of an internal thread body (12) placed on the adjusting spindle (11) and a thrust element (13) connected to the link lever (16), that the drive connection between the output pin of the drive gear motor and the steep spindle (11) can be disengaged, and that the internal thread body (12) can be connected to the thrust element (13) by coupling elements, so that when the adjusting spindle (11) is driven by the drive gear motor, the internal thread body (12) is pressed against the thrust element (13) separated and coupled to the thrust element (13) in the disengaged position. Electromotive furniture drive according to claim 1, characterized in that the coupling elements of the internally threaded body (12) and the thrust element (13) are formed by profiles which can be brought into one another. Electromotive furniture drive according to claim 2, characterized in that the thrust element (13) has at least one outer region which overlaps the internal thread body (12), and that the mutually associated LÖSENBECK & STRACKE - 15 February 1996 Oewert .·'..··, ."..·% . ·§£ shepherd's claims Sheet 2 facing surfaces of the overlapping areas are profiled like racks. 4. Electromotive furniture drive according to claim 3, characterized in that at least the regions of the thrust element (13) having the profiles are elastically deformable. 5. Electromotive furniture drive according to one or more of the preceding claims 1 to 4, characterized in that the elastic regions of the sliding element (13) can be deformed by two pressure elements in the form of drivable eccentric rollers (14). 6. Electromotive furniture drive according to claim 1, characterized in that a switchable clutch is provided in the drive train for decoupling the adjusting spindle (11) with the output pin of the drive gear motor. 7. Electromotive furniture drive according to claim 1, in which the drive gear motor includes a worm drive, characterized in that in order to decouple the spindle (11) from the output pin of the drive gear motor, the worm wheel can be brought out of engagement with the worm. 8. Electromotive furniture drive according to claim 1, characterized in that the articulated coupling of the linkage lever (16) with the sliding element (13) by a bolt (18) which engages in a long hole (17) which is perpendicular to the longitudinal axis of the spindle (11). 9. Electromotive furniture drive according to claim 8, characterized in that the bolt (18) is inserted in the linkage lever (16), and that the elongated hole (17) is at a distance from the free front end of the thrust element (13). LOESENBECK&STRACKE-PATENTAH^LTK-'Ö^üEf^D..: .j, \ .J 15 February 1996