EP2832946A1 - Lever for a door actuator - Google Patents

Abstract

The invention relates to a lever (10) for connecting an output shaft (3) of a door operator (1) with a slide rail (9), comprising a first part (11) which is concentrically connected to the output shaft (3) or the output shaft (3 ), and a second part (12) which does not extend to the output shaft (3), one end of the second part (12) being detachably connected to the first part (11), and the other end of the second part (12) 12) is formed for connection to the slide rail (9).

Description

The invention relates to a lever for connecting an output shaft of a door operator with a slide rail. Furthermore, the invention relates to a Türbetätigeranordnung comprising the door operator and the corresponding lever.

Door operators are especially designed as door closers, power door closers or door drives. The door operator is usually mounted on the door leaf, on the wall or on the frame. The output shaft of the door operator is connected via a lever with a slide rail. In the slide rail, the lever or a slider connected to the slider is slidably guided. For example, if the door operator is on the door leaf, the slide rail is fastened to the frame or to the wall. If the door operator is on the wall or the frame, then the slide rail is fastened to the door leaf. The lever is a rigid component. One end of the lever is usually rotatably connected to the output shaft of the door operator. The other end of the lever is rotatably connected to the slider guided in the slide.

It is an object of the present invention to provide a lever for a Türbetätigeranordnung, the lever with a simple and inexpensive construction to ensure easy installation and easy maintenance of Türbetätigeranordnung.

The object is achieved by the features of the independent claim. The dependent claims have preferred embodiments of the invention the subject.

Thus, the object is achieved by a lever for connecting an output shaft of a door operator with a slide rail. For this purpose, the lever comprises at least a first part and a second part. The first part is concentrically connected to the output shaft of the door operator, or else the first part forms at least part of the output shaft of the door operator. The second part is detachably and detachably connected to the first part. The second part does not reach the output shaft. The connection between the lever and output shaft or between the lever and door operator is thus formed exclusively by the first part. One end of the second part is detachably connected to the first part. The other end of the second part is designed to connect to the slide rail. In particular, the slider is connected at this other end of the second part. The releasable connection between the first part and the second part of the lever makes it possible to connect and disconnect the two parts outside of the door operator. This simplifies both the assembly process and the maintenance process. The connection between the output shaft and the lever takes place exclusively via the first part. Thus, the first part can be firmly connected to the output shaft. Regardless of this connection between the first part and the output shaft, the connection between the first part and the second part can be solved.

It is preferably provided that the first part and the second part are connected to one another via a latching connection. This locking connection allows a very simple connection between the two parts, which can be easily solved again. It is not necessary to loosen screws or rivets.

The latching connection preferably has a pivotable latching hook. This pivotable latching hook is arranged either in the first part or in the second part. Thus, it is preferably provided that on the second part the pivotable latching hook is arranged, wherein the latching hook is designed to engage in a corresponding recess on the first part. Alternatively, it is preferably provided that the pivotable latching hook is arranged on the first part and the latching hook is designed to engage in a corresponding recess on the second part.

Furthermore, it is preferably provided that a first stop, preferably a first pin, is formed on the second part. The first part is formed so that it rests against the first stop during engagement and at the same time is pivotable about the first stop. In particular, the first part has a corresponding groove, in which engages the first stop, in particular the first pin.

Alternatively, it is provided that on the first part of the first stop is formed, then according to the second part of the groove is provided, in which engages the first stop.

Furthermore, it is preferably provided that the latching hook is acted upon by a spring. For example, if the latching hook is fixed to the second part, the spring is also arranged in the second part. The spring ensures that the latching hook is always in the correct position for establishing the latching connection.

The second part is preferably a tool engagement. A tool can be inserted via this tool intervention. By inserting the tool, the locking connection between the first and the second part can be solved. In particular, it is provided that the second part has a tubular cross section, for example produced by a correspondingly folded sheet metal. In the lateral surface of the second part is preferably this tool engagement, for example formed as a through hole. About the tool intervention the catch can be moved inside the second part.

In the formation of the second part with a tubular cross-section is provided in particular that the lateral surface of the second part is partially recessed, so that the first part can be inserted and engaged via this recess.

As an alternative to the latching connection is provided that the first part is bolted to the second part. The screw is a detachable connection.

The connection between the first part and the second part is in particular formed without backlash.

As described above, the first part is connected to the second part at one end of the second part. At the other end of the second part, the connection to the slide rail takes place. For this purpose, in particular a third part is provided, which is firmly connected to the second part. At this third part, a through hole is particularly preferably formed. About this through hole, a slider can be rotatably connected to the third part. This slider in turn is slidably guided in the slide rail.

The first part preferably has a through hole for inserting the output shaft of the door operator.

Furthermore, it is preferably provided that the first part is partially formed as a cam. On this cam disk pressure rollers of the door operator can rest, so that on the cam and a rotational movement of the output shaft in a translatory movement in the door operator can be converted via the pressure rollers.

The invention further includes a door operator assembly. The door operator assembly, in turn, includes a door operator (eg, a door closer, power door closer, or door operator), a lever just described, and preferably also a slide rail. The subclaims and advantageous embodiments described within the scope of the lever according to the invention find correspondingly advantageous application to the door operator arrangement.

Fig. 1

eine erfindungsgemäße Türbetätigeranordnung gemäß einem ersten Ausführungsbeispiel,

Fig. 2

einen erfindungsgemäßen Hebel in Explosionsdarstellung gemäß dem ersten Ausführungsbeispiel,

Fig. 3

den erfindungsgemäßen Hebel während dem Einrasten gemäß dem ersten Ausführungsbeispiel,

Fig. 4

ein Detail des eingerasteten Hebels gemäß dem ersten Ausführungsbeispiel,

Fig. 5

eine Variante zum ersten Ausführungsbeispiel,

Fig. 6

den erfindungsgemäßen Hebel gemäß einem zweiten Ausführungsbeispiel,

Fig. 7

die Türbetätigeranordnung gemäß einem dritten Ausführungsbeispiel,

Fig. 8

den erfindungsgemäßen Hebel gemäß dem dritten Ausführungsbeispiel, und

Fig. 9

ein Detail des erfindungsgemäßen Hebels gemäß dem dritten Ausführungsbeispiel.

The invention will now be described in more detail by means of exemplary embodiments. Showing:

Fig. 1

a door actuator assembly according to the invention according to a first embodiment,

Fig. 2

an exploded lever according to the invention according to the first embodiment,

Fig. 3

the lever according to the invention during the latching according to the first embodiment,

Fig. 4

a detail of the locked lever according to the first embodiment,

Fig. 5

a variant of the first embodiment,

Fig. 6

the lever according to the invention according to a second embodiment,

Fig. 7

the Türbetätigeranordnung according to a third embodiment,

Fig. 8

the lever according to the invention according to the third embodiment, and

Fig. 9

a detail of the lever according to the invention according to the third embodiment.

The following is based on the Fig. 1 to 4 the first embodiment shown. Fig. 5 shows a variant of the first embodiment.

According to Fig. 1 For example, a door operator assembly includes a door operator 1, a lever 10, and a slide rail 9.

The door operator 1 in turn comprises a housing 2. In the housing 2, an output shaft 3 is rotatably mounted. On the output shaft 3 sits a cam plate 4. On both sides of the cam plate 4 are located in the housing 2 pressure rollers 5 at. The pressure rollers 5 are connected via a piston 8 with a closing spring 6 in conjunction. The closing spring 6 presses on the piston 8 on one of the pressure rollers 5. The pressure roller 5 in turn transmits the force to the cam plate 4. This allows a rotational movement of the output shaft 3 and a translational movement of the piston 8 are mutually converted.

Furthermore, the shows Fig. 1 another pump 7. By means of this pump 7, the piston 8 can be moved. Due to the pump 7, the arrangement can be used as a door drive. Without the pump 7, the arrangement can be used as a door closer.

The output shaft 3 is rotatably connected to a lever 10. The lever 10 in turn is rotatably connected to a slider 14. The slider 14 is guided linearly movable in the slide rail 9.

Fig. 1 shows a purely schematic representation of the multi-part construction of the lever 10. A first part 11 of the lever 10 is rotatably connected to the output shaft 3. A third part 13 of the lever 10 is rotatably connected to the slider 14. Between the first part 11 and the third part 13, a second part 12 of the lever 10 extends. The second part 12 is fixedly connected to the first part 11 and the third part 13.

The connection between the first part 11 and the second part 12 is releasable to simplify the assembly and maintenance of the entire assembly.

The Fig. 2 to 4 show in detail the connection between the first part 11 and the second part 12. In Fig. 2 are the two parts 11, 12 not yet connected. Fig. 3 shows a state during the connection. In Fig. 4 are the two parts 11, 12 in the connected state.

The first part 11 comprises a through hole 15, here formed as a square. In this through hole 15, the output shaft 3 is inserted. Furthermore, the first part 11 has a first groove 16, a second groove 17 and a third groove 18. The grooves 16, 17, 18 are also more generally referred to as "recesses".

To the third groove 18 performs a trained on the first part 11 inlet slope 19th

Components of the second part 12 are a first bolt 20, a second bolt 21 and a third bolt 22. The first bolt 20 and the second bolt 21 are also generally referred to as stops.

At the third pin 22, a latching hook 23 is rotatably connected to the second part 12.

The latching hook 23 has an extension 24. When engaging the two parts 11, 12 is initially the inlet slope 19 at the extension 24 at. In the locked state according to Fig. 4 the extension 24 is in the third groove 18th

During engagement of the first pin 20 is inserted in the first groove 16. This allows a pivoting movement of the first part 11 to the first pin 20 is possible. In the locked state then serves the first pin 20 in the first groove 16 for a firm connection of the two parts 11, 12, so that the first part 11 can not be pulled out of the second part 12.

In the locked state according to Fig. 4 the second pin 21 is seated in the second groove 17. Thereby, an exact and play-free positioning of the first part 11 and the second part 12 is given.

The latching hook 23 is spring-loaded via a spring 25. In particular, the spring 25 is a wound around the third pin 22 wire. As an alternative to the wire, a leaf spring is used.

Especially Fig. 2 shows a through hole in the tubular second part 12. This through hole is formed as a tool engagement 26. Like for example Fig. 4 shows, the tool engagement 26 allows access to the latch hook 23. By inserting a thin object by the tool engagement 26, the latching hook 23 can be moved, thereby releasing the latching connection between the first and second parts 11, 12 is possible.

The third part 13 is inserted into the second part 12 and preferably connected to the second part 12 via a screw connection or a riveted connection.

Fig. 5 shows a variant of the first embodiment. According to this variant, the hole 15 in the first part 11 is not formed as a square, but as a polygon. Accordingly, then the output shaft would be formed as polygonal or multi-toothed shaft. Just as the connection between the first and second part 11, 12, and the connection between the first part 11 and the output shaft 3 is formed without play. Furthermore, it is preferably provided that the output shaft 3 and correspondingly the hole 15 are conical in order to achieve a solid and play-free connection here.

The second part 12 is formed in particular from a bent sheet metal or from an extruded profile. The first part 11 is preferably a stamped part or milled part or butted part.

Fig. 6 shows the lever 10 according to a second embodiment. In the second embodiment, the first part 11 is somewhat simpler than in the first embodiment configured. The first part 11 here has only the third groove 18. In this third groove 18 of the corresponding extension 24 of the latching hook 23 engages.

In the second embodiment, the spring 25 is formed as a spiral spring. On the opposite side of the projection 24 of the latching hook 23, a latching hook stop 28 is formed, which on an inner surface the tubular second part 12 abuts. In the second exemplary embodiment, the latching hook 23 can be actuated from the outside both without and with tool engagement, so that a very simple release of the connection between the first part 11 and the second part 12 is possible here.

Fig. 7 to 9 show a Türbetätigeranordnung according to the third embodiment. Fig. 7 shows a very flat-building door operator 1 with a corresponding lever 10. For clarity, here is the slide 9 is not shown.

The in Fig. 7 shown door operator 1 is particularly suitable for a Untersturzmontage to a door. Like in Fig. 1 also includes the door operator 1 in Fig. 7 a housing 2. The output shaft 3 is formed by a cam disk 4. The cam plate 4 is here a part of the first part 11 of the lever 10 which is rotatably arranged about an axis 30. Along the axis 30, for example, a solid bolt is used. About pressure rollers 4, the rotational movement of the output shaft 3 is converted into a translational movement of the closing spring 6. In the embodiment shown, there are two parallel shutter springs 6. Furthermore, the pressure rollers 5 are connected to a damping piston 29.

Fig. 8 shows the in Fig. 7 used lever 10 in detail. The connection between the first part 11 and the second part 12 is the same as in the first embodiment. The only difference is that in the third embodiment, the first part 11 is partially formed as a cam plate 4. As a result, via the hole 15 is not necessarily a rotationally fixed connection with the output shaft 3. It is crucial that takes place via the hole 15, a rotatable mounting of the first part 11 within the housing 2 of the door operator 1.

Fig. 9 shows the first part 11 of the third embodiment in detail. This clearly shows that, just as in the first embodiment, the three grooves 16, 17 and 18 are provided for the latching connection.

LIST OF REFERENCE NUMBERS

1

door actuators

2

casing

3

output shaft

4

cam

5

pressure rollers

6

closer spring

7

pump

8th

piston

9

slide

10

lever

11

First part

12

Second part

13

Third part

14

slide

15

hole

16

First groove

17

Second groove

18

Third groove (recess for locking lever)

19

run-in slope

20

First bolt (first stop)

21

Second bolt

22

Third bolt

23

latch hook

24

extension

25

feather

26

tool engagement

27

recess

28

Latch hook stop

29

damping piston

30

axis

Claims (13)

Lever (10) for connecting an output shaft (3) of a door operator (1) with a slide rail (9), comprising - A first part (11) concentrically with the output shaft (3) is connectable or the output shaft (3) forms, and a second part (12) which does not extend to the output shaft (3), one end of the second part (12) being detachably connected to the first part (11), and the other end of the second part (12) to Connecting with the slide rail (9) is formed. Lever according to claim 1, characterized in that the first part (11) and the second part (12) are connected to one another via a latching connection. Lever according to claim 2, characterized in that on the second part (12) a pivotable latching hook (23) is arranged, which is designed for engagement in a corresponding recess (18) on the first part (11), or
that on the first part a pivotable latching hook is arranged, which is designed to engage in a corresponding recess on the second part. Lever according to one of claims 2 or 3, characterized in that on the second part (12) a first stop (20), preferably a first pin, is formed, wherein the first part (11) for locking on the first stop (20). is present and about the first stop (20) is pivotable, or
in that a first stop, preferably a first pin, is formed on the first part, wherein the second part engages for engagement abuts the first stop and is pivotable about the first stop. Lever according to one of claims 3 or 4, characterized in that the latching hook (23) by a spring (25) is acted upon. Lever according to one of claims 2 to 5, characterized in that in the second part (12) a tool engagement (26) is formed, wherein via the tool engagement (26) the latching connection between the first part (11) and the second part (12). is solvable. Lever according to claim 1, characterized in that the first part (11) with the second part (12) is screwed. Lever according to one of the preceding claims, characterized in that the second part (12) is designed as a tube whose lateral surface for receiving the first part (11) is partially recessed. Lever according to one of the preceding claims, characterized in that the connection between the first part (11) and the second part (12) is formed without play. Lever according to one of the preceding claims, characterized in that in the first part (11) has a through hole (15) for insertion of the output shaft (3) is formed. Lever according to one of the preceding claims, characterized in that the first part (11) is designed as a cam disc (4) for a cam drive of the door operator (1). Lever according to one of the preceding claims, characterized by a third part (13) fixedly connected to the second part (12) is and is designed for connection to the slide rail (9). Door operator assembly comprising a lever (10) according to one of the preceding claims and a door operator (1).

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