Method for mounting a door drive and door drive

Abstract

A method for mounting a door drive including a door actuator with a mounting section for the attachment to a counter-mounting section of a door, an attachment device for the attachment to a counter-attachment section of the door and a lever mechanism with a first end and with a second end, for the mobile support of the door actuator at the attachment device between a closing position and an opening position, where the attachment device is disposed at the first end of the lever mechanism and an axle assembly of the door actuator at a second end of the lever mechanism, and with an actuating unit of the door actuator for moving the axle assembly of the door actuator.

Claims

1. A method for mounting a door drive including a door actuator with a mounting section for the attachment to a counter-mounting section of a door, an attachment device for the attachment to a counter-attachment section of the door and a lever mechanism with a first end and with a second end, for the mobile support of the door actuator at the attachment device between a closing position and an opening position, wherein the attachment device is disposed at the first end of the lever mechanism and an axle assembly of the door actuator at the second end of the lever mechanism, and with an actuating unit of the door actuator for moving the axle assembly of the door actuator, the method comprising: attaching the attachment device to the counter-attachment section of the door, mounting the mounting section of the door actuator to the counter-mounting section of the door, moving the axle assembly of the door actuator into at least one first lever mounting position by means of the actuating unit, disposing and affixing the first end of the lever mechanism to the attachment device, disposing and affixing the second end of the lever mechanism to the axle assembly of the door actuator, wherein the actuating unit is formed as a motor unit, and the motor unit performs the movement of the axle assembly of the door actuator; wherein the axle assembly has a first axle lever and a second axle lever and the actuating unit moves the axle assembly of the door actuator into the first lever mounting position, when the first axle lever is being disposed and affixed to the axle assembly and the actuating unit moves the axle assembly of the door actuator into at least one second lever mounting position, when the second axle lever is being disposed and affixed to the axle assembly.

2. The method according to claim 1, wherein the actuating unit moves the axle assembly of the door actuator into the first lever mounting position or into a second lever mounting position, based on a recognition unit of the door drive recognizing the first axle lever or the second axle lever.

3. The method according to claim 1, wherein the actuating unit moves the axle assembly of the door actuator into the first lever mounting position or into a second lever mounting position, based on a switch position of a switch of the door drive.

4. The method according to claim 1, wherein the door drive includes a building power mains connection and/or an energy accumulator for the power supply for the door actuator.

5. The method according to claim 1, wherein the door drive includes a computing unit with a memory unit for controlling the actuating unit, wherein the memory unit is formed for storing the at least one first lever mounting position and at least one second lever mounting position.

6. A door drive including a door actuator with a mounting section for the attachment to a counter-mounting section of a door, an attachment device for the attachment to a counter-attachment section of the door and a lever mechanism with a first end and with a second end for the mobile support of the door actuator at the attachment device between a closing position and an opening position, wherein the attachment device is disposed at the first end of the lever mechanism, and an axle assembly of the door actuator is disposed at the second end of the lever mechanism with an actuating unit for moving the axle assembly, wherein the actuating unit is formed as a motor unit, and the motor unit performs the movement of the axle assembly of the door actuator; wherein the actuating unit is able to move the axle assembly of the door actuator into at least one first lever mounting position and into at least one second lever mounting position, wherein the actuating unit is able to move the axle assembly of the door actuator into a first lever mounting position or into a second lever mounting position, based on a recognition unit of the door drive recognizing a first axle lever or a second axle lever of the axle assembly.

7. The door drive according to claim 6, wherein the axle assembly is mobile at least from the closing position into the opening position via at least one lever mounting position.

8. The door drive according to claim 6, wherein the door actuator includes at least one abutment for the movement of the axle assembly and the lever mechanism to at least at one of the closing position, the first lever mounting position, the second lever mounting position, and the opening position.

9. The door drive according to claim 6, wherein the actuating unit is able to move the axle assembly of the door actuator into the first lever mounting position or into the second lever mounting position, based on a switch position of a switch of the door drive.

10. The door drive according to claim 6, wherein a computing unit of the door drive is formed with a memory unit for controlling the actuating unit, wherein the memory unit is formed for storing at least two lever mounting positions.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) An inventive method as well as an inventive door drive as well as the further advantages thereof will be explained in more detail based on the drawings. In the FIGS. 1 to 3, elements having the same function and the same effect are respectively identified by the same reference numerals. It is diagrammatically shown in:

(2) FIG. 1 a lateral view and a frontal view of a door drive with a door actuator with a mounting section at a counter-mounting section at a leaf of a door, an attachment device at a counter-attachment section at a casing of the door and a lever mechanism for the mobile support of the door actuator at the attachment device between a closing position and an opening position,

(3) FIG. 2 a lateral view and a frontal view of a door drive with a door actuator with a mounting section at a counter-mounting section at a casing of a door, an attachment device at a counter-attachment section at a leaf of the door and a lever mechanism for the mobile support of the door actuator at the attachment device between a closing position and an opening position,

(4) FIG. 3 a frontal view of a door drive with a door actuator with a recognition unit, with a switch, with a computing unit, with a memory unit and with an energy accumulator, an attachment device and with a lever mechanism for the mobile support of the door actuator at the attachment device between a closing position and an opening position.

DETAILED DESCRIPTION

(5) FIG. 1 shows a lateral view and a frontal view of a door drive 1 with a door actuator 10, an attachment device 14 and a lever mechanism 16 for the mobile support of the door actuator 10 at the attachment device 14 between a closing position SP (not shown) and an opening position OP (not shown). The attachment device 14 is attached to a counter-attachment section 104 of the casing of a door 100. The door actuator 10 includes a mounting section 12, which is attached to a counter-mounting section 102 at the leaf of the door. A first end 18 of the lever mechanism 16 is disposed at and affixed to the attachment device 14. A second end 20 of the lever mechanism 16 is disposed at and affixed to the axle assembly 22 of the door actuator 10. The door 100 includes at least one door hinge 106 on the right side and consequently it is a right-opening door 100 in the sense of the disclosure. A first axle lever 24 of the lever mechanism 16 is mounted to the axle assembly 22 in a first lever mounting position 30 (not shown). In this embodiment, the attachment device 14 is embodied as a rail with lateral extension in the frontal view. Such a configured door drive 1 allows for reducing a proneness to errors during mounting and for reducing the time required for mounting in a particularly simple and inexpensive manner.

(6) FIG. 2 shows a lateral view and a frontal view of a door drive 1 with a door actuator 10, an attachment device 14 and a lever mechanism 16 for the mobile support of the door actuator 10 at an attachment device 14 between a closing position SP (not shown) and an opening position OP (not shown). The attachment device 14 is attached to a counter-attachment section 104 at the leaf of a door 100. The door actuator 10 includes a mounting section 12, which is attached to a counter-mounting section 102 at the casing of the door. A first end 18 of the lever mechanism 16 is disposed at and affixed, respectively mounted to the attachment device 14. A second end 20 of the lever mechanism 16 is disposed at and affixed, respectively mounted to the axle assembly 22 of the door actuator 10. The door 100 includes at least one door hinge 106 on the left side and consequently it is a left-opening door 100 in the sense of the disclosure. A second axle lever 26 of the lever mechanism 16 is mounted to the axle assembly 22 in a second lever mounting position 32 (not shown). Such a configured door drive 1 allows for reducing a proneness to errors during mounting and for reducing the time required for mounting in a particularly simple and inexpensive manner. The FIGS. 1 and 2 clearly show how two structurally identically designed door drives 1 of the disclosure can be employed for two different door movements of two doors 100, in that for example, a first axle lever 24 is mounted to the axle assembly 22 in a first lever mounting position 30 (not shown) (refer to FIG. 1) and for example a second axle lever 26 is mounted to the other axle assembly 22 in a second lever mounting position 32 (not shown) (refer to FIG. 2). The FIGS. 1 and 2 likewise show that the attachment unit 14 and the door actuator 10 can be respectively mounted both to the leaf of the door 100 and to the casing of the door 100, respectively to an adjoining wall and/or ceiling.

(7) FIG. 3 shows a frontal view of a door drive 1 with a door actuator 10, an attachment device 14 and a lever mechanism 16 for the mobile support of the door actuator 10 at the attachment device 14 between a closing position SP (not shown) and an opening position OP (not shown). The door actuator 10 includes an actuating unit 28, a recognition unit 40, a switch 43, a computing unit 50 with a memory unit 52 and an energy accumulator 44. An abutment 34 delimits and/or influences the movement of the axle assembly 22 of the door actuator 10. The actuating unit 28 develops the force for moving the axle assembly 22 of the door actuator 10 for example by means of a spring, a cylinder, a motor and/or another device. In the embodiment of the disclosure shown, the actuating unit 28 develops the force for moving the axle assembly 22 directly at the axle assembly 22. In this embodiment, the attachment device 14 is embodied as a bracket with considerably lesser lateral extension in the frontal view than compared to the FIGS. 1 and 2. Such a configured door drive 1 allows for mounting the door drive 1 in a particularly simple and inexpensive manner with a low proneness to errors during mounting and at reduced the time required for mounting.

(8) In addition to the illustrated exemplary embodiments, the disclosure allows for further design principles. This means, the disclosure is not considered to be limited to the exemplary embodiments, which are explained based on the Figures.