EP2318624B1 - Door opening mechanism with automatic adjustment of the door opening latch - Google Patents

Description

The invention relates to a remotely operable door openers for installation in a door, preferably in the fixed frame of a door, with a movable door latch and a remotely operable locking device which interacts directly or indirectly with the door latch such that the door latch in a blocking position and a release position is switchable.

In the following some definitions of terms are given:

The term "remotely operated door opener" in the present application is to be understood as "remotely actuable locking device for a door." The locking device has a remotely operable locking device and a door opener latch The blocking element on the output side interacts directly or indirectly with the door opener latch and switches the door opener latch on A locked position means that the door opener latch is blocked and therefore the door can not be opened, the release position means that it is unlocked and the door can be opened.

Under door opener is not only the opener of a door, but also a gate, a window and / or other closure device with movable stored wing understood. In the present application, the term door also means a gate, a window and / or another closure device with a movably mounted wing. But door opener does not mean that an aggregate must be provided to drive the opening movement of the door; However, such an aggregate may be provided as an additional device.

The term wing or door is understood in the present application, a rotary wing and / or a sliding sash consisting of one or more such wings. It may also be a non-negotiable, comparable closure device in the construction or furniture sector, such. also a smoke damper.

The term lock latch in the present application is understood to mean the latch cooperating with the door latch. It can be rigidly mounted or spring-mounted. It does not have to - but can - be arranged in conjunction with a lock.

As far as the state of the art is concerned:

By way of example, the DE 42 29 239 C1 called. This document describes a door opener of the type mentioned. The locking device is formed in this door opener as an electromechanical device consisting of a lever device and an electromagnet. The lever mechanism composed of a one-armed lever and a two-armed lever engages in this known door opener directly on the door opener trap constructed as a pivoting latch. The lever device is locked via the electromagnet in the case of energization, so that the door opener latch is thus present in energized electromagnet in its blocking position and is released when energized electromagnet. This known door opener thus works according to the so-called closed-circuit principle; in contrast to the also known working current principle, in which the release position when energized Electromagnet and the blocking position is present at non-energized electromagnet.

The from the DE 42 29 239 C1 Known door opener that works according to the quiescent current principle is a so-called escape door opener, ie it is designed for use in escape doors. For this application, it is necessary that when the power is switched off, the release position for opening the door is switched. To reliably even in the event that several people press against the door to ensure release of the door latch, which is essential for use as escape door opener is provided in this known door opener that the lever device is composed of a two-armed safety lever and a one-armed locking lever , The safety lever cooperates with its one arm as an anchor plate with the electromagnet and on his other arm, he has a specially designed stop for the locking lever. This stop assembly is designed so that there is a wedge-like displacement effect on the stop by the locking lever and thus safely comes with its power off the locking lever from its stop position, even if pressure is exerted on the door.

From the DE 10 2004 037 827 A1 an electric door opener is known in which the trained as a pivotal latch door latch is adjustable in stages. This stage adjustment is realized according to this document, that the door latch is composed of a base body and a, the case locking edge having blocking body. The main body and the locking body are coupled to one another via a complementary interlocking locking toothing and fixable on each other via a screw. About this gearing adjustment is possible in stages depending on the tooth spacing. The adjustable locking body is referred to in practice Aufschraubstück. The adjustment must be made manually.

From the EP 0 841447 A1 a door opener is known, the door opener latch is infinitely adjustable by the door opener trap of a body and it is composed of a locking block infinitely adjustable via an expansion device. Again, the adjustment is done manually.

The invention has the object of developing a door opener of the type mentioned, so that it is simple in construction and provides functional advantages over conventional door openers.

This object is achieved with the subject matter of patent claim 1. It is a remotely operated door opener for installation in a door with a fixed door frame and a movable door mounted thereon. The door opener has a movable door opener trap and a remotely controllable locking device, wherein the locking device directly or indirectly cooperates with the door opener latch such that the door opener latch is switchable in a blocking position and in a release position.

Essential in the solution is that an adjusting device is provided which automatically sets the door latch in a position in which the door latch in the closed position of the door with the latch is in abutment. The door opener can be mounted on a fixed door frame or door leaf. When interacting with the door latch latch lock is a latch of the door leaf or the door frame, depending on whether the door opener is mounted on the frame or on the door leaf.

With the adjusting device provided according to the invention an automatic adjustment of the door latch in the position in which in the closed position of the door the door latch with the latch latch is reached, that is, according to the invention an automatic adjustment of the door opener trap provided automatically the door latch in this Position. The door opener trap is thus self-adjusting. On a manual adjustment for adjusting the Aufschraubstücks, as required in the prior art, in order to install a setting on the structural conditions or at The maintenance to achieve an adaptation to the use and weather-related changes, can be dispensed with, or they may possibly be performed manually only as a rough pre-adjustment during assembly. The fine adjustment then takes place automatically during operation of the door opener via the automatic self-adjustment, preferably at or after each closing of the door and / or at or after each opening of the door again. With the adjusting movement, a relative movement between the latch and the door latch latch is generated, until such time as the door latch latch with the latch in the closed position of the door in the solid, preferably vibration-resistant stop.

The adjusting device according to the invention forms the drive for automatic self-adjustment of the door opener trap.

In preferred embodiments, the actuating device of the door opener latch can be configured as an energy storage device which can be acted upon when the door is opened and / or when the door is closed and / or as a motor device which can be operated with external energy. In the case of operable with external power motor device can be provided as a motor unit, an electric motor assembly, for example, designed as an electromechanical motor or electro-hydraulic motor or electromechanical pump. In the event of the forcibly acted upon energy storage device can be provided that this is designed as a preferably mechanical spring accumulator. However, the energy storage can also be designed as other energy storage, eg pneumatic storage. It is essential that it is charged when opening and / or closing the door and then provides the energy for the actuating movement of the door latch trap available.

The adjusting device of the door opener latch can be formed in embodiments of the invention at the same time as a restoring device of a driven-side locking member of the locking device. The restoring means may be the same or correspondingly constructed as the restoring means of the locking member of a conventional door opener, e.g. as energy storage, preferably mechanical spring device. This power storage can be stretched when opening the door on the action of the latch on the door latch latch and then provide the energy for the provision of the locking member available. In the present case, the locking member can act on the door opener latch for adjusting movement.

In preferred embodiments, it is provided that the door opener trap is formed and / or stored so that it can perform a maximum travel X mm, where X is at a value of 2 to 15, preferably at a value of 5 to 10.

High reliability is obtained with embodiments that provide that the actuator of the door latch is designed such that it acts on the door latch in the sense of adjusting movement, only in the closed position of the door or exclusively in an area extending from an open position of the Door with a door opening gap of Y mm extends to the closed position of the door, wherein Y is less than or equal to 15, preferably less than or equal to 10, more preferably less than or equal to 5.

Embodiments in which it is provided that the locking device of the door opener on the output side has a locking member, which is automatically traceable to the door latch in the closing direction via a tracking device and additionally in the tracked position preferably via the locking device can be determined.

Particularly preferred embodiments provide that the adjusting device of the door opener latch and the tracking device of the locking member are designed as a common device. It can be provided here that the adjusting device forms the locking device. This can e.g. be realized in that the adjusting device has a self-locking motor assembly.

An advantageous functionality in the self-adjustment of the door latch and / or in the tracking of the locking member results in preferred embodiments, the provision that the actuator of the door latch and / or the tracking device of the locking member has a control device to the actuating speed and / or the force during to vary the positioning movement. It can be advantageously provided that the control device is connected to a memory device which detects the position of the door opener latch and / or the position of the locking member. Thus, a particularly effective control of the movement of the door opener or the locking member is obtained.

Particularly advantageous implementations arise with embodiments in which the locking device has a hydraulic circuit with remotely controllable valve. For driving the hydraulic circuit or for generating the hydraulic pressure, an electro-hydraulic pump can be provided as a motor unit. Alternatively or additionally, however, it is also possible for there to be a hydraulic return device, preferably a piston-cylinder system, in which the piston is supported on an energy store, for example a return spring. Preferred developments provide in this context that the locking member of the locking device as the output member of the adjusting device of Door opener trap is formed. In the embodiments with hydraulic circuit systems, a working piston may be provided which forms the locking member of the locking device and at the same time the output member of the adjusting device.

The automatic self-adjustment of the door opener trap is thus particularly advantageous implementable in embodiments of the door opener, in which the locking device has a hydraulic circuit in which a valve and a working piston is arranged. The working piston can act as a blocking member of the locking device interacting directly or indirectly with the door opener trap. The valve is designed as a remotely controllable valve which is switched so that when the valve is in the closed position the door opener latch is in the locked position, and when the valve is open, the door opener latch is in the release position. Furthermore, a force storage device having a return device is provided which acts on the working piston and / or the door opener trap in the sense of setting the blocking position. The energy accumulator can also be used as a mechanical return spring as another storage, e.g. be formed pneumatic accumulator. Instead of the return spring means or in addition to the return spring means also operable with external power motor assembly may be provided which acts on the working piston and / or the door latch in the sense of setting the locking position.

In these embodiments with a hydraulic locking device is thus provided that the locking device is switchable via a valve. This means that the locking device works with a hydraulic blocking, which can be switched on and off by the valve of the locking device. The valve may be designed as a valve with adjustable flow and / or as a check valve. The valve is in preferred embodiments as a check valve, preferably designed as open / close valve and can be designed in particular as an electrically controllable valve, for example as a solenoid valve. The valve can also be controlled via a mechanical actuator or hydraulically or pneumatically.

In particular, in embodiments with hydraulic locking device versions are possible in which the position of a cooperating with the door latch latching member can be positioned in any position in the locked position. The locking member can be actuated by the hydraulic circuit of the locking device, directly or indirectly in the case of an intermediate transmission. The blocking and release of the locking member via the remote controlled valve of the locking device. As a hydraulic medium different liquids can be used, for. B. rheological fluids. The blocking member may in this case be designed as a working piston, e.g. be connected to a piston of a piston-cylinder device of the hydraulic or pneumatic system. The working piston can be controlled by the valve of the locking device. Preferably, it is provided that the working piston or a part connected to the working piston interacts with the door-opener latch in abutment or cooperates with the door-opener latch with the interposition of a transmission gear.

As restoring devices for the door-opener trap, provision is made of restoring devices which lock the door-opener trap directly, i. act independently of the locking member. However, it is additionally or alternatively possible that the restoring device acts on the hydraulic medium of the hydraulic circuit. In these embodiments, the restoring device can ensure the return of the working member forming or connected to the locking member working piston.

In embodiments with a hydraulic locking device and / or hydraulic or pneumatic actuating device, the locking member or the working piston of the door opener catch can be tracked automatically during or after closing the door in a particularly simple manner. The automatic actuating device provided for this purpose may be formed solely by the resetting device having a force accumulator or else alternatively or additionally by a separate drive device, eg a separate device acted upon opening the door and / or closing the door Power storage device, eg spring device and / or a power source operable motor device, preferably electric motor device.

The trackable blocking element can be designed in certain embodiments as a pure blocking element whose function is merely to lock the door latch in the blocking position and to release it in the release position. However, other embodiments are possible in which the locking element is designed as a the door latch latching element.

There are provided preferred embodiments in which the return device is designed as a hydraulic device which is connected in the hydraulic circuit and a compensating cylinder and guided therein by the energy storage, e.g. Having a return spring acted balance piston. In these embodiments, it can be advantageously provided that the force accumulator cooperating with the balance piston is dimensioned so that it builds up a hydraulic pressure when opening the door, which is able to reset the working piston in the locked position or the working piston together with the door latch in to move the position in which the door opener latch in the closed position of the door in fixed stop with the lock latch. In the latter case, the self-adjustment of the door latch would be done via the device, which also causes the tracking of the locking member.

In particularly preferred embodiments, the door opener trap is specially designed for self-adjustment. It may be provided in this context that the door opener latch has a bearing body and on the bearing body during the closing of the door and / or the opening of the door movably guided case body. In preferred embodiments, it is provided that the case body is guided on the bearing body linearly displaceable.

Structurally particularly simple and reliable at the same time are embodiments in which it is provided that the case body is designed as a substantially female component and the bearing body as a substantially male component. The case body can be guided so particularly advantageous displaced on the bearing body.

In preferred embodiments, the bearing body in the door opener housing is movable, preferably pivotally mounted. However, there are also advantageous embodiments possible in which the bearing body is immovably mounted in the door opener housing. In particular, in these embodiments, a lock latch actuating body is advantageously provided in the door opener housing, which is arranged such that when closing the door, the latch latch is retracted by cooperation with the lock latch actuating body.

In order to obtain a particularly precise control of the movement of the case body relative to the bearing body, it can be provided that a locking device acting between the bearing body and the case body is provided, which can be switched off by interaction with the latch during the adjusting movement. The locking means may preferably comprise a two-armed spring-loaded shift lever which is pivotally mounted on the latch body and has at its first end a stop for the latch and at its second end a locking for releasable engagement with the bearing body. It can be provided that the locking of the shift lever and the bearing body have a locking teeth for releasable mutual engagement.

For a particularly functionally reliable interaction with the lock latch may be provided in preferred embodiments that the case body has a rigidly connected driver having a start-up side for cooperation with a slope of the latch and a driver side for engagement with the latch in the adjusting movement. In a preferred embodiment can be provided in this case that the bearing body is arranged immovably in the door opener housing and a lock latch actuating body is arranged in the door opener housing such that when closing the door, the latch bolt is retracted by cooperation with the lock latch actuating body. The driver is preferably arranged on the latch body so that the retracted again after retraction lock latch comes into contact with the driver.

For advantageous actuation of the door opener latch, which has a bearing body and a movable body case, preferred embodiments are provided in which the door latch, preferably the case body has a drive-side portion on which the output member of the actuator and / or the locking device engages such that the Fall body is driven or locked in the sense of adjusting movement. The drive-side portion of the door opener latch may preferably have a wedge surface and the output member have a wedge surface cooperating therewith.

In preferred embodiments, the output member is formed as a linear thrust member which cooperates with the drive-side portion of the door latch. The drive member can be acted upon in a hydraulic or pneumatic system with hydraulic or pneumatic circuit. Alternatively or additionally, the output member may be indirectly or directly acted upon by the output member of an electromechanical motor, preferably a rotary motor.

In particularly preferred embodiments, it is provided that the door opener latch and / or a latch body movable on a bearing body of the door latch latch with an output member of the actuator and / or the locking device via a pawl transmission, which is controllable with an electromechanical motor assembly and / or a Elektrohubmagnetaggregat cooperates.

In the following, embodiments will be explained with reference to figures.

Figur 1

eine schematische Ansicht des Aufbaus eines ersten Ausführungsbeispiels eines erfindungsgemäßen Türöffners;

Figur 2

eine schematisch Ansicht des Aufbaus eines zweiten Ausführungsbeispiels eines erfindungsgemäßen Türöffners;

Figur 3

eine schematische Ansicht des Aufbaus eines dritten Ausführungsbeispiels eines erfindungsgemäßen Türöffners;

Figur 4

eine schematische Ansicht des Aufbaus eines vierten Ausführungsbeispiels eines erfindungsgemäßen Türöffners;

Figur 5

eine schematische Ansicht des Aufbaus eines fünften Ausführungsbeispiels eines erfindungsgemäßen Türöffners, in diesem Falle mit stufig oder stufenloser Selbsteinstellung der Türöffnerfalle über rotierende Bewegung der Schwenkfalle;

Figur 6

eine schematische Ansicht des Aufbaus eines sechsten Ausführungsbeispiels eines erfindungsgemäßen Türöffners, in diesem Falle mit stufig oder stufenloser Selbsteinstellung der zweiteiligen Türöffnerfalle mit linearer Selbsteinstellung des linear beweglichen Teils der Schwenkfalle;

Figur 7.1

eine schematische Ansicht des Aufbaus eines siebten Ausführungsbeispiels eines erfindungsgemäßen Türöffners, in diesem Falle mit stufig oder stufenloser linearer Selbsteinstellung einer Schwenkfalle mit Zwangsführung über Führungskurve, in Sperrstellung;

Figur 7.2

eine Ansicht des Ausführungsbeispiels in Figur 7.1, jedoch mit in Freigabeposition verfahrene, über eine Halteeinrichtung festgestellte Türöffnerfalle.

Figur 8.1

eine schematische Ansicht des Aufbaus eines achten Ausführungsbeispiels eines erfindungsgemäßen Türöffners mit stufiger oder stufenloser linearer Selbsteinstellung der linear beweglichen Türöffnerfalle mit Führung der Schlossfalle am Türöffnergehäuse, in Sperrstellung;

Figur 8.2

eine Ansicht des Ausführungsbeispiels in Figur 8.1, jedoch mit in Freigabeposition verfahrener und festgestellter Türöffnerfalle beim Auslösen der Halteeinrichtung durch die Schlossfalle;

Figur 9.1

eine schematische Ansicht des Aufbaus eines neunten Ausführungsbeispiels eines erfindungsgemäßen Türöffners mit stufiger oder stufenloser linearer Selbsteinstellung mit Betätigungsschieber für die Schlossfalle, in Sperrstellung;

Figur 9.2

eine Ansicht des Ausführungsbeispiels in Figur 9.1, jedoch beim Betätigen der Schlossfalle durch den Betätigungsschieber beim Öffnen der Tür;

Figur 10a

eine Schaltungsanordnung der Komponenten des Türöffners in Figur 10, in der Sperrstellung;

Figur 10b

die Schaltungsanordnung in Figur 16a, jedoch in der Freigabestellung;

Figur 10c

die Schaltungsanordnung in Figur 16a, jedoch beim Übergang in die Sperrstellung;

Figuren 11a bis 11 d

ein weiteres Ausführungsbeispiel der erfindungsgemäßen Vorrichtung mit einer speziellen Türöffnerfalle mit verschiebbaren Fallenkörper;

Figuren 12a bis 12d

noch ein weiteres Ausführungsbeispiel der erfindungsgemäßen Vorrichtung mit gegenüber Figur 11 abgewandelter Türöffnerfalle;

Figur 13

ein erstes Ausführungsbeispiel der Stelleinrichtung in den Figuren 11a bis 12d;

Figur 14

ein zweites Ausführungsbeispiel der Stelleinrichtung in den Figuren 11a bis 12d

Figur 15

ein drittes Ausführungsbeispiel der Stelleinrichtung in den Figuren 11a bis 12 d

Show

FIG. 1

a schematic view of the construction of a first embodiment of a door opener according to the invention;

FIG. 2

a schematic view of the structure of a second embodiment of a door opener according to the invention;

FIG. 3

a schematic view of the construction of a third embodiment of a door opener according to the invention;

FIG. 4

a schematic view of the structure of a fourth embodiment of a door opener according to the invention;

FIG. 5

a schematic view of the structure of a fifth embodiment of a door opener according to the invention, in this case with gradual or continuous self-adjustment of the door opener trap via rotating movement of the pivot latch;

FIG. 6

a schematic view of the construction of a sixth embodiment of a door opener according to the invention, in this case with gradual or continuous self-adjustment of the two-piece door latch with linear self-adjustment of the linearly movable part of the pivoting latch;

Figure 7.1

a schematic view of the structure of a seventh embodiment of a door opener according to the invention, in this case with gradual or continuous linear self-adjustment of a pivoting latch with positive guidance on guide cam, in the blocking position;

Figure 7.2

a view of the embodiment in Figure 7.1 , but with in the release position moved over a holding device detected door opener trap.

Figure 8.1

a schematic view of the structure of an eighth embodiment of a door opener according to the invention with gradual or continuous linear self-adjustment of the linearly movable door latch latch with the guide of the latch on the door opener housing, in locked position;

Figure 8.2

a view of the embodiment in Figure 8.1 , but with the door opener latch moved and released in the release position when the retaining device is triggered by the latch;

Figure 9.1

a schematic view of the structure of a ninth embodiment of a door opener according to the invention with gradual or continuous linear self-adjustment with slide control for the latch, in the locked position;

FIG. 9.2

a view of the embodiment in Figure 9.1 , but upon actuation of the latch by the operating slide when opening the door;

FIG. 10a

a circuit arrangement of the components of the door opener in FIG. 10 in the locked position;

FIG. 10b

the circuit arrangement in Figure 16a, but in the release position;

FIG. 10c

the circuit arrangement in Figure 16a, but at the transition to the blocking position;

FIGS. 11a to 11d

a further embodiment of the device according to the invention with a special door opener trap with movable case body;

FIGS. 12a to 12d

Yet another embodiment of the device according to the invention with opposite FIG. 11 modified door opener trap;

FIG. 13

a first embodiment of the adjusting device in the FIGS. 11a to 12d ;

FIG. 14

a second embodiment of the adjusting device in the FIGS. 11a to 12d

FIG. 15

a third embodiment of the adjusting device in the FIGS. 11a to 12 d

FIG. 1 shows a schematic view of a door opener with hydraulic detection of the locking member 2 via an electrically actuated hydraulic valve 5. The door opener latch 1 is designed as a pivoting latch. The locking member 2 is formed as a hydraulic piston 2k of the hydraulic circuit of the locking device. The hydraulic piston 2k is guided as a working piston in a hydraulic cylinder 2z and forms a piston-cylinder device 20 of the hydraulic circuit of the locking device. In the hydraulic circuit, except for the piston-cylinder device 20 with the hydraulic piston formed as a locking member 2, a surge tank 3z provided with a return spring 3f. This acted upon by the spring 3f piston-cylinder unit forms a hydraulic return device 30 of the locking member. The hydraulic piston-cylinder unit 20 and the surge tank 3z, that is, the hydraulic return device 30, are - as in FIG. 1 recognizable - connected via hydraulic channels, wherein in the one hydraulic channel, a check valve 4 and in the other hydraulic channel, the valve 5 is arranged, which is electrically controllable to turn on and off the determination of the piston 2.

The door opener is preferably mounted on the stationary frame of a door. In the closed position of the door, the door opener latch 1 engages behind the door leaf Lock latch or the like. The latch is in FIG. 1 not shown. The latch may be formed conventionally, ie as a resilient latch with an inlet slope over which the latch when closing the door by the door latch 1 is suppressed and finally engages behind in the closed position and is in abutment with her. In the stop position, the latch with its vertical stop surface is in the stop with the door opener trap 1 in the blocking position.

In an alternative reverse mounting the door opener can be mounted door leaf fixed and cooperate with the door latch with a latch arranged on the stationary frame latch or the like accordingly.

It is essential in the embodiment according to the invention that the locking member 2 is automatically tracked when closing the door each of the door latch latch 1 and in any end position of the door latch 1 is detectable. The automatic reset takes place under the action of the return spring 3f. The determination is made via the hydraulic locking device 20. A so-called self-adjustment of the door latch 1 is obtained in the embodiment that the door latch 1 is actively driven to its actuator movement to lock latch through the locking member 2 until the door latch 1 in its final position in the closed position the door is in contact with the latch.

In the embodiment in FIG. 1 is for the control of the locking member 2, the hydraulic circuit is used, ie, the working medium of the circuit is hydraulic oil. Instead of hydraulic oil, a comparable liquid or even a gaseous working medium, eg air, can be used.

The illustrated door opener can operate on the closed-circuit principle. In this case, the valve 5 is connected electrically zuhaltend. That is, as long as the valve is energized, the valve is closed and thus locks the locking element 2 in its blocking position. When the power is turned off, the valve opens.

As a variant, it is possible to operate the door opener also in the working current principle. For this purpose, the valve 5 must be switched electrically open, that is as long as that Valve 5 is not energized, it is closed by locking the locking element 2. When the valve 5 is energized, it opens with the release of the locking element. 2

In addition, a pressure relief valve can also be arranged in a hydraulic connecting channel, which ensures that when an overload on the door, the hydraulic detection is released by the pressure relief valve opens. The pressure relief valve may preferably be variably adjustable to a predetermined overload.

The functioning of the door opener in FIG. 1 is as follows:

In the closed position of the door, the door opener latch 1 engages behind the latch. As long as the valve 5 is closed, the locking member 2, that is, the working piston 2 k, against movement in FIG. 1 hydraulically blocked to the right and thereby simultaneously the door opener latch 1 detected, ie it is in its so-called. Locking position. She is detected and thus blocked, so she is in the portrayal in FIG. 1 can not turn clockwise. It thus holds the lock catch, not shown, in the stop position. The door can not be opened as long as this blockage by the door opener trap 1 exists.

Only when the valve 5 is opened by electrical actuation, the locking position of the door opener latch 1 is released, ie it comes in the release position. This means that it is released, allowing it to pivot about its pivot axis 1s FIG. 1 can turn clockwise. When the door is opened, the door-opener catch is turned out of position via the latch of the door. During this rotation of the door opener latch 1, the locking member 2, ie the working piston 2k of the hydraulic piston-cylinder device 20 in FIG. 1 moved to the right. The hydraulic medium is thereby moved in the hydraulic circuit so that it flows through the hydraulic line of the open valve 5 and flows into the compensating cylinder 3z, which is acted upon by the return spring 3f hydraulic piston-cylinder device 30. The spring piston 3k is therefore acted upon by compression of the return spring 3f and in FIG. 1 moved to the left.

As soon as the door opener latch 1 comes out of engagement with the latch during the opening process, the return flow of the hydraulic medium takes place under the action of the return spring 3f. The oil reflux can, as long as the valve 5 is opened, flow back through the flow channel of the valve 5. However, when the valve 5 is already closed, the oil return flow through the check valve 4. It opens automatically when pressurized in the return direction, so that the oil return flow can take place through the line of the check valve 4. Under the action of the oil reflux, the working piston 2k of the hydraulic piston-cylinder device 20 is returned to its closed position.

The provision of the working piston 2k takes place, as already explained, in the embodiment in FIG. 1 under the action of the hydraulic return device 30. In the illustrated case, this force device 30 is acted upon by the return spring 3k hydraulic piston-cylinder device 30, ie in this case is provided as the actual power unit exclusively the mechanical return spring 3k. Alternatively or additionally, however, this force device 30 may also have a power-operated motor. About the force device with return spring 3f and / or power-operated engine is the explained provision, ie tracking the locking member and in addition the explained self-adjustment of the door latch. There are modifications of the embodiment are conceivable in which the automatic means of the locking member 2 takes place via the force means, however, a self-adjustment is not carried out by this device.

In embodiments in which the door opener latch 1 does not have a separate return device, as shown in FIG FIG. 1 the case remains, the locking member 2, that is, the working piston 2k, during its entire movement during opening and closing in each case permanently in abutment with the door latch 1. When the valve is closed, the blocking of the door latch 1 is against movement in the release direction. In the closed position of the door while the hydraulically blocked locking member 2 is in contact with the door latch 1, which in turn is engaged behind by the latch of the closed door and is in abutment with this.

FIG. 2 shows one opposite FIG. 1 modified version. The modification is that a restoring device 33 is provided, which does not like the rest in FIG. 1 provided hydraulic return device 30 via the hydraulic circuit and the locking element 2 acts on the door latch 1, but acts directly on the door opener trap independently. The restoring device 33 may be a helical compression spring which is supported with its one end on the door opener housing 6 and with its other end on the door opener latch 1.

FIG. 3 shows one opposite FIG. 1 modified embodiment, in which the modification consists in that between the hydraulically actuated locking member 2 and the door latch latch 1, a one-armed lever 2w is connected. In this one-armed lever 2 w is a so-called change, which acts as a transmission between the locking element 2 and the door latch 1.

FIG. 4 shows a comparison with the embodiment in FIG. 3 modified version, wherein the modification consists in that between the hydraulically actuated locking member 2 and the one-armed lever 2w a one-armed latching lever 2s is arranged, which cooperates with the hydraulically actuated locking member 2. The locking lever 2s can be locked and unlocked via the hydraulically actuated blocking element 2.

In the FIGS. 3 and 4 a reset device is not shown. However, the provided restoring device can interact directly with the door opener latch 1, z. B. as in FIG. 2 be performed as a restoring device 33, or acting on the case via the hydraulic locking element 2, z. B. as in FIG. 1 be designed as a hydraulic return device 30.

FIG. 5 shows a further embodiment in which it is provided that the hydraulically actuated locking member 2 each of the door opener latch 1 is automatically tracked in the closing direction and in the tracked position, when the door latch 1 in the closed position of the door is engaged with the latch latch, via the hydraulic Valve 5 is detected. This means that the door latch 1 also in this embodiment, an automatic self-adjustment having. The conventional manual adjustment of the door latch, in which the adjustment of the door latch on the structural situation of the door during assembly or maintenance of the door opener as a manual adjustment by a Verstellkörper - a so-called Aufschraubstück - is set manually on the body of the door latch, is therefore no longer necessary in these designs. The reason for this is because the door opener latch 1 is automatically automatically adjustable in the optimum position to lock latch and the determination of the locking member 2 in any arbitrarily tracked position is possible and takes place automatically.

The tracking movement of the door latch 1 occurs in the execution in FIG. 5 is driven by turning the pivotal latch 1 about its pivot axis 1s via the return device 33. In that regard, there is a difference to the in FIG. 1 illustrated embodiment. In addition, however, even when running in FIG. 5 be provided that the hydraulic locking element 2 causes not only the tracking of the locking element 2, but also the provision of the door opener trap 1 under hydraulic loading.

In FIG. 5 In addition, an intermediate stop 11 is provided, which cooperates with the lock latch 1. This intermediate stop 11 may be formed as a memory device that holds the door latch 1 after opening the door in an intermediate position and when closing the door, preferably triggered by the latch, is released, then the automatic adjustment and adjustment of the latch 1, as above described to enable.

The reset device 33 in FIG. 5 can like the Rückkstelleinrichtung 33 in FIG. 2 be designed as a preloaded mechanical spring device which is acted upon opening the door and then automatically resets the door latch 1 when closing the door. The bias of the return device 33 ensures that it spends the door opener latch 1 in the closed position of the door each up to the stop position to the latch. Additionally or alternatively, the restoring device 33 but also have a motor drive with external energy, z. B. an electric motor unit.

FIG. 6 shows a relation to the embodiment in FIG. 5 modified embodiment. The modification consists in that the door opener latch 1 is formed here as a pivoting latch with a pivotable base body 1a and a linearly movable latch body 1b. The pivotable base body 1a cooperates with the hydraulically actuated blocking element 2. The linearly movable latch body 1 b is acted upon by an actuator 2I to bring the linearly movable latch body 1I into engagement with the latch and lock there. The actuating device 2I is connected to the hydraulic circuit of the blocking element 2 and is also released via the hydraulic valve 5. This actuator 2I may be connected to a memory device 2m. The actuating device 2I can be designed as an automatic spring device or as a power-operated engine unit.

The Figures 7.1 and 7.2 show a relation to the embodiment in FIG. 5 modified embodiment. The modification consists in that the door opener latch 1 is designed here as a positively driven latch via a guide cam 1f.

In this embodiment, a holding device 12 is additionally provided, which locks the door latch 1 after opening the door in the open position, as shown in Figure 7.2 is shown. This lock is then released when closing the door. For this purpose, the holding device 12 on a trigger element 12a, which is confirmed by the latch when closing the door.

The Figures 8.1 and 8.2 show a relation to the embodiment in the Figures 7.1 and 7.2 modified embodiment. The modification consists in that here the door opener latch 1 is designed as a linearly displaceable latch and a lock latch guide 6a for the latch 90 is provided on the door opener housing 6. When you open the door, the door latch 1 is under the action of the latch 90 up in the in Figure 8.2 shown position. The lock latch guide 6a causes the lock latch 90 finally disengages when the door is opened.

The door opener latch 1 is in the in Figure 8.2 shown position on the holding device 12 and remains in this position as long as the door is open. When the door is closed, the trigger element 12a of the holding device 12 is then actuated via the latch 90 in the sense of a release of the holding device. The door opener trap 1 then moves under the action of the hydraulically actuated locking element 2 down in the in Figure 8.1 illustrated blocking position. When the door is closed, the lock catch 90 engages under the locking edge of the door latch 1 in the optimal engagement due to the made by the locking element 2 continuous tracking and detection.

The Figures 9.1 and 9.2 show a relation to the embodiment in the Figures 8.1 and 8.2 modified embodiment. The modification consists in that here no lock latch guide 6a is provided, but a lock latch actuator 19, which pushes back the latch 90 via a preferably hydraulically actuated plunger during the opening process. The lock latch actuator 19 may be connected to the hydraulic device of the locking device. But it can also be used as a separate motor device, eg. B. be designed as an electric motor.

The automatic tracking of the locking member in the hydraulic door opener and the automatic self-adjustment of the door latch is explained for an embodiment of a hydraulic door opener with reference to the schematic diagrams 10a, 10b and 10c in the following again in detail. The circuit diagrams show the hydraulic circuit with the components of the door opener. The circuit diagram 16a shows the door opener in the blocking position. The circuit diagram 10b shows him in the release position and the circuit diagram 16c in the transition position in the transition to the blocking position. The components of the door opener, which is based on these circuit diagrams are shown schematically in the circuit diagrams. The components are components which, in conjunction with the preceding embodiments of the FIGS. 1 to 9 already explained. It is a door opener trap 1 and a hydraulic locking device with hydraulic circuit. In the hydraulic circuit is a hydraulic piston-cylinder device 20 with hydraulic piston 2k, a hydraulic acting return device 30, an electrically actuated check valve 5 and a check valve 4 connected.

The piston 2k of the hydraulic piston-cylinder device 20 forms in the illustrated embodiment, the locking member 2, which interacts directly with the door latch 1.

The hydraulic spring storage device 30 consists of a hydraulic compensating cylinder 3z in which a spring piston 3k acted upon by a helical compression spring 3f is guided as a compensating piston. The helical spring 3f forms the return spring, which ensures that the piston 2k forming the locking member 2 is automatically reset automatically after opening the door into its locking position. This automatic reset of the locking member is thus under the action of the hydraulic spring storage device 30. This is connected via the hydraulic circuit with the piston-cylinder device 20, the working piston 2k as a locking member with the door latch 1 cooperates. The hydraulic spring storage device 30 is designed so that the locking member 2 and the working piston 2k each of the door opener latch 1 is stopped in abutment permanently.

The door opener latch 1 is formed in the illustrated case as a pivotal latch pivotable about its pivot axis 1s. It has a so-called. Aufschraubstück 1j. The Aufschraubstück 1 j has in cross-section L-shaped and is on the body of the door latch 1 in different positions on ribs by means not shown screws detectable, ie adjustable to adjust the door latch 1 to the structural conditions. The adjustment in the adjustment is done so that the door opener latch 1 with its Aufschraubstück 1 j in the closed position of the door engages behind the latch of the door and rests against the lock latch vibration. This adjustment with the Aufschraubstück 1j can be done in the illustrated embodiment as a rough pre-adjustment, since in addition an adjusting device is provided, via which the door latch 1 is automatically placed in vibration-proof contact with the latch.

In the case illustrated, the door opener latch 1 cooperates therewith with a restoring spring 33, which is directly supported by its one end on the door opener latch and is supported with its other end in the door opener housing 6. About this return spring 33 ensures that the door opener latch 1 is reset in each case after opening the door back to its closed position in which it is behind with the door closed by the latch case with this in the attack. The return spring 33 is designed so that the door latch is self-adjusting during operation, i. that the door opener latch comes in each case in the closed position of the door in vibration-proof contact with the latch bolt.

Instead of the return spring 33 or in addition to this, the hydraulic spring storage device 30 or a in the Figures 10 not shown power-operated engine unit perform this effect. Such a motor unit can be connected as a hydraulic pump in the hydraulic circuit or act as an electromechanical motor via a gear on the locking member or directly to the door latch 1.

The self-adjustment of the door opener latch may preferably be designed so that the door opener latch can actively drive a stroke of 5 mm. There are also versions with larger stroke possible. In particular, with these embodiments, e.g. with a driven stroke of 10 mm (or 15 mm), a closing of the door leaf is brought into the closed position. The door opener latch acts in these embodiments for closing the door leaf as a catch element, which can be engaged and disengaged with the latch or another corresponding mating element and can be brought into each end of the closing movement in each case for closing in each case again in engagement.

The check valve 4 in the circuit in FIGS. 10a to 10c consists of a 4k acted upon by a helical compression spring 4r locking ball. The check valve 4 is connected between the hydraulic spring storage device 30 and the hydraulic piston-cylinder device 20. The check valve 4 can only be flowed through in one direction, in the FIGS. 10a to 10c from right to left, thereby ensuring that the hydraulic medium in the hydraulic circuit from the piston-cylinder device 20 to the hydraulic Spring storage device 30 can flow only through the valve 5 and can not get directly to the hydraulic spring accumulator 30 while bypassing the valve 5.

In the illustrated case, it has a valve tappet 5v, which is arranged in a cylindrical magnet coil 5s and is rigidly connected to the front side of a plate-shaped magnet armature 5a. The valve lifter 5v is supported on a return spring 5r. The magnetic coil 5s is connected via a switch 57 to a voltage source 58. The valve lifter 5v connected to the armature 5a is drawn into the solenoid coil 5s when the switch 57 is closed. In this case, the return spring 5r is compressed. The valve stem 5v, with its rear end section facing away from the magnet armature 5a, passes through the hydraulic connecting line 56 and has two through holes arranged axially one behind the other and perpendicular to the longitudinal axis and offset by 90 °. A front through-hole 5dv faces the armature 5a, and a rear through-hole 5dh faces the rear end portion. The axial distance between the two through holes corresponds to the working stroke of the valve stem 5v.

In the in Fig. 10a to 10c illustrated case, the check valve 5 is connected as a load current valve, ie the door latch 1 is released when the switch 57 is closed.

When the switch 57 is open, as shown in Fig. 16a, the door opener latch 1 is locked. Although the rear through-hole 5dh is located in the plane of the connecting pipe 16, it can not connect the two portions of the connecting pipe 16 adjacent to the valve lifter 5v because its longitudinal axis is not aligned with the longitudinal axis of the connecting pipe 16.

When the switch 57 is closed, as in Fig. 10b shown, the valve stem 5v is drawn into the solenoid coil 5s. The front through-hole 5dv engages in the connection line 16 and connects the two on the surface of the Valve tappet 5v ending portions of the connecting line 16 with each other. The check valve 5 is open.

As can be seen in the circuit diagrams 10a, 10b and 10c, upon pivoting of the released door opener latch 1 through the latch of the door, the working piston 2k is pressed into its cylinder and the balancing piston 3k is pressurized because of the opened check valve 5. The compensating piston 3k is moved back and compresses the restoring spring 3f acting on the balance piston 3k. Further, acting on the door opener latch 1 return spring 33 is compressed. This return spring 33 immediately returns the door opener latch 1 to the locked position as soon as the latch is out of engagement with the door opener latch.

Will now, as in Fig. 10c shown, the switch 57 opened again and thus the check valve 5 is closed, presses the balance piston 3k acting return spring 3f the balance piston 2k in its initial position. As a result of the pressure rise in the connecting line 16 between the balance piston 3k and the check valve 4 now opens the check valve 4, whereby in the connecting line 16 between the check valve 4 and the piston 2k, the pressure rises and the working piston 2k is brought into its initial position. The check valve 4 prevents that acting on the piston 2k hydraulic pressure is reduced again. The locking device 2 is locked again.

It can also be provided to dispense with the return spring 33 acting on the door opener latch 1 and to dimension the return spring 3f acting on the compensating piston 3k in such a way that the door latch latch 1 is reset by the power piston 2k.

The following are in connection with the FIGS. 11 to 15 Embodiments described in which the door opener trap is specially designed for the purpose of self-adjustment and the door opener trap cooperates with the locking member of the door opener in the sense of the basic functions of a door opener, namely in terms of blocking and release as well as in the sense of self-adjustment of the door latch.

The FIGS. 11a, 11b, 11c, 11d show such an embodiment. The door opener latch 1 cooperates with an output member 2, an adjusting device 200. In addition, the adjusting device 200 also forms the locking device of the door opener, over which in the closed position of the door, the door latch 1 can be locked.

The assembly consisting of door latch 1 and adjusting device 200 is arranged in a common housing 6. The door opener latch 1 has a pivotably mounted bearing body 110 with a pivot axis 110 s, which is encompassed by a displaceable latch body 10. The trap body 10 has a through hole, which may be, for example, as in the in Fig. 9a to 9d illustrated embodiment may have a rectangular cross-section and is penetrated by the bearing body 110. At its end portion facing away from the pivot axis 110s, the latch body 10 has a hook-shaped carrier 10m which points upwards and is provided with a latch 90 of a door leaf (in FIG Fig. 11a to 11d not shown) cooperates.

On the displaceable latch body 10, a pivotally mounted locking lever 10h is arranged, wherein the locking lever 10h is arranged on the door leaf zugten side of the case body 10 and the pivot axis of the locking lever 10h is aligned parallel to the pivot axis 110s of the bearing body 110. A first end portion of the lock lever 10h is formed as a stopper end 10a and cooperates with the lock catch 90. A second end portion of the locking lever 10 h is formed as a locking engagement end 10 e and cooperates with formed on the case body 10 sawtooth-shaped recesses. In a section lying between the stop end 10 a and the pivot axis of the locking lever 10 h, a compression spring 10 r is arranged between the locking lever 10 h and the latch body 10, which presses the locking engagement end 10 e onto the latch body 10. The locking engagement end 10e may slide along an arcuate release stop 10f when it is no longer in engagement with the saw-toothed recesses.

On the side facing away from the door bottom of the case body 10 is attached to the Case body 10, a wedge surface 10k formed, which cooperates with the output member 2 of the adjusting device 200.

Fig. 11a now shows the device in a first position in which the lock latch 90 has not yet come to rest on the wedge surface K of the driver 10m of the case body 10. The case body 10 is locked on the bearing body 110, because the locking engagement end 10e of the locking lever 10h engages in one of the sawtooth-shaped latching recesses of the bearing body 110.

When closing the door leaf (see Fig. 11b) the lock catch 90 comes into contact with the driver 10m and thus solves a in the Fig. 11a to 11d Switching device not shown, the drive of the actuator 200, whereby the output member 2 moves back into the actuator 200 and the door latch 1 in the closed position in Fig. 11b is pivoted. It can be provided that the latch 90 is suppressed before it falls behind the driver 10m, as in Fig. 11b shown. The door opener latch 1 is only pivoted so far that the latch 90 in this position of the door still has a small distance to the top of the stop end 10a of the locking lever 10h.

Then the output member 2 of the actuator 200 is operated again and now pivots the door latch 1 in its horizontal position in Fig. 11c back. In this case, the locking lever 10h is pivoted so far that it comes out of engagement with the locking recesses of the bearing body 110. The pressure spring 10r acting on the locking lever 10h is dimensioned such that the lock catch 90 is not overpressed during the pivoting of the locking lever 10h ( Fig. 11c ).

Now, the case body 10 is released again, so that the output member 2 of the actuator 200 when sliding along on the wedge surface 10k of the case body can push back the latch body 10 in the direction of the pivot axis 110s. In this case, the door is taken over the latch 90 as long as until it at the in Fig. 11a to 11d not shown door frame is applied and the closed position of the door is made. In the closed position of the door a vibration-proof system of the case body 10 is obtained at the lock latch 90.

It is envisaged that the adjusting device 200 also works as a locking device, which prevents the mounting of the door leaf. Upon release of the door opener latch 1 can either be provided that the actuator 200 pulls the output member 2 or that the output member 2 can be overpressed. In both cases, the in Fig. 11a to 11d Go through the positions shown in reverse order, ie starting at the in Fig. 11d position shown up to the in Fig. 11a position shown.

The adjusting device 200 thus forms a device for closing the door leaf in its closed position. At the same time it forms a device for self-adjustment of the door latch 1, by the device ensures that the door latch 1 is automatically placed in the closed position of the door in a vibration-proof contact with the latch 90.

When opening the door, the positions are in the order of 11d, 11c, 11b, 11a run through. When closing the door, the position in the order of Fig. 11a, 11b, 11c, 11d run through.

The Fig. 12a to 12d show a further embodiment, wherein the device substantially as in Fig. 11a to 11d is formed device, with the difference that further a lock latch actuating body 110b is provided and that the bearing body 110 is not pivotable, but is fixedly arranged on the housing 6. The lock latch actuating body 110b has a straight front surface and an oblique rear surface. The straight front surface of the lock latch cooperates with the inclined surface of the door latch when closing to overpress the latch when closing. The oblique rear surface of the lock latch acts when opening the door with the rear straight portion of the latch 90 together to overpress the latch 90 when opening. When closing the door, the positions are in the order of Fig. 12a, 12c, 12d run through. When opening the door, the positions are in the order of Fig. 12d, 12c, 12b, 12a run through.

The Fig. 13 to 15 Now show embodiments of the actuator 200th

The Fig. 13 shows an actuator 200 on a hydraulic basis. The output member 2 is designed as a working piston 2k of a piston-cylinder device 20, which is connectable via a magnetic check valve 5 with a hydraulic pump 220. The check valve 5 has a valve tappet with three switching chambers, which are arranged one behind the other in the longitudinal axis of the valve tappet. Further, a hydraulic spring storage device 30 is provided, which is also connected via the check valve 5 with the hydraulic pump 220. The hydraulic pump 220 generates the required operating pressure in the hydraulic circuit.

In a first position of the check valve 5, the connections of the piston-cylinder device and the spring storage device 30 are interrupted with the hydraulic pump 220. The output member 2, d. H. the piston of the piston-cylinder device 20 is locked against the impressions in the cylinder. Consequently, the door latch 1 is locked.

In a second position of the check valve 5, the hydraulic pump 220 is connected with respect to the output member 2 in the printing operation. When the pump 220 is turned on, the driven member 2 is pushed out of the cylinder. When the hydraulic pump 220 is switched off when pushing the output member 2 into the cylinder of the piston-cylinder device 20, the spring of the spring-loaded device 30 is tensioned, so that the output member 2 is pressed under the action of the spring in the direction of the cylinder of the piston-cylinder device, if it is not or only slightly charged.

In a third position of the check valve 5, the hydraulic pump 220 is connected with respect to the output member 2 in the suction mode. Consequently, the output member 2 is pulled into the cylinder of the piston-cylinder device 20 in the release position and at the same time the spring of the spring-loaded device 30 is tensioned.

The Fig. 14 shows a second embodiment of the locking device 200. An electromechanical rotary motor 230 drives a Schraubspindelgetriebe 235, the output member in the manner of a spindle nut on the screw continuously a linear movement along the longitudinal axis of the output shaft of the Rotation motor 230 performs and has a Z-shaped guide curve 236. The driven member 2 of the adjusting device 200 is guided linearly as a piston in the cylinder and has at its lower end portion a roller which rolls in the guide curve 236. The two end portions of the guide cam 236 are directed perpendicular to the guide straight line of the output member 2 and connected by an inclined guide portion. As a result of the end sections of the guide cam 236 oriented perpendicular to the guide straight line of the driven element 2, it is a self-locking cam mechanism, whereby the screw spindle gear 235 is also a self-locking gear. Consequently, when the power is interrupted, the door opener latch 1 is locked in any position.

In the in Fig. 15 illustrated embodiment, a pawl transmission for moving the output member 2 is provided.

A first rotatably mounted spring-loaded lever 21 is formed as a pawl and cooperates with the output member 2 of the actuator 200 together. The lever 21 is pressed by a leg spring 21 against the rear circular arc-shaped end portion of the driven member 2.

A second rotatably mounted spring-loaded lever 22 is arranged at an angle to the first lever 21 and has on the lever 21 facing the longitudinal side of a circular arc sawtooth-shaped switching portion, in which the pawl portion of the lever 21 engages. Between the pivot bearing facing away from the end portion of the lever 21 and the inner wall of the housing of the actuating device, a compression spring 22f is arranged, which acts on the inner wall of the housing facing the longitudinal side of the lever 22. On the opposite longitudinal side of the lever 22, a solenoid 240 is arranged, whose longitudinal axis is aligned with the longitudinal axis of the compression spring designed as a compression spring 22 f and the linearly movable output member rests on the lever 22.

The recesses of the sawtooth-shaped switching portion of the lever 22 have a shape congruent with the switching portion of the lever 21 and are directed so that the driven member 2 can not be pushed back, that is not is lowerable. The output member 2 is thus locked in one direction. The output member 2 is unlocked by operating the solenoid 240, wherein the switching portion of the lever 21 for the operating period out of engagement with the sawtooth-shaped switching portion of the lever 22 passes.

The lever 21 is in each case a tooth in the direction of the output member 2 weiterschaltet upon brief actuation of the solenoid 240, wherein the working capacity of the output member 2 is determined by the spring force of the leg spring 21 f. With long-term actuation of the solenoid 240, the leg spring 21f moves the output member 2 until the closed position of the door is reached, as in the above in Fig. 11a to 11d describe. The leg spring 21f thus acts as a servomotor, here as a spring motor.

It is also possible as a particularly interesting embodiment variant that with the device in FIG. 15 a pure barrier device is formed. In this case, it is important that the spring force of the compression spring 22f, taking into account the lever ratios and the spring force of the leg spring 21f is so small that the leg spring as long as the first lever 21 presses out of the recess - wherein the second lever 22, the compression spring 22f squeezes -, Until the lever 21 abuts the actuator 2 and thereby falls into one of the recesses. In the same way as in the previously described embodiment of FIG. 15 is now locked in this embodiment, the actuator 2 as long until the solenoid 240 pivots the second lever 22 in the direction of the compression spring 22f and the first lever 21 falls from the recess or at least disengaged when the locking member 2 in the release position in FIG. 15 is applied downward.

LIST OF REFERENCE NUMBERS

1

strike latch

1s

swivel axis

1a

Case body

1l

linearly movable trap body

1f

guide curve

1j

mounted attachment

10

movable trap body

10m

takeaway

10h

locking lever

10a

stop end

10e

Arretiereingriffsende

10f

release stopper

10k

wedge surface

110

bearing body

110s

swivel axis

110b

Lock latch actuator body

2

locking member

2k

working piston

2z

hydraulic cylinder

2w

change

2s

locking lever

2l

actuator

2m

Memory device

20

Piston-cylinder device with working piston 2k

200

setting device

220

hydraulic pump

230

electromechanical rotary motor

235

transmission

236

guide curve

240

electromechanical motor

21

first spring-loaded lever

22

second spring-loaded lever

3f

Return spring

3k

balance piston

3z

compensating cylinder

30

hydraulic spring storage device

33

Return spring outside hydraulic circuit

4

check valve

4r

feather

4k

Bullet

5

check valve

5s

solenoid

5a

armature

5v

tappet

5dh

rear through hole

5dv

front through hole

5r

Return spring

5u

Switch recess

58

power source

57

switch

6

door opener housing

6a

Guide bevel for lock latch

11

intermediate stop

12

holder

12a

trigger member

16

Hydraulic line of the hydraulic circuit

16v

branch

19

Lock latch actuator

90

latch

Claims (15)

1. Remote-controllable door opener for integration in a door, having a preferably fixed door frame and a moveable door wing mounted thereon,
   having a moveable door opening latch (1) and a remote-controllable locking device (2) which interacts directly or indirectly with the door opening latch (1) in such a way that the door opening latch (1) can be switched to a locking position and a release position,
   wherein the door opener can be mounted on the door frame or the door wing and the door wing and/or door frame has a locking latch (90),
   characterised in that,
   a positioning device (200) is provided which automatically sets the door opening latch (1) into a position, wherein the door opening latch (1) is in contact with locking latch (90) when the door is in the closed position.
2. Door opener according to claim 1,
   characterised in that,
   the positioning device (200) of the door opening latch (1) is necessarily designed as a chargeable power storage device (3, 30, 33) and/or as a motor device (220, 230, 240) which can be operated by auxiliary power when the door is being opened and/or closed.
3. Door opener according to one of the preceding claims, characterised in that,
   the locking device has a locking element (2, 2k) on its output side, which can be automatically tracked to the door opening latch (1) in the closing direction using a tracking device (200), and which can be locked in the tracked position preferably with the locking device.
4. Door opener according to claim 3,
   characterised in that,
   the positioning device of the door opening latch (1) and the tracking device of the locking element (2) are designed as a mutual device (200).
5. Door opener according to claim 3 or 4,
   characterised in that,
   the locking element (2) is designed as an output element (2k) of the positioning device (200) of the door opening latch (1).
6. Door opener according to one of the preceding claims,
   characterised in that,
   the positioning device (200) of the door opening latch (1) and/or the tracking device (200) of the locking element (2) is designed for the continuous or staggered positioning of the door opening latch (1) and/or locking element (2).
7. Door opener according to one of the preceding claims,
   characterised in that,
   the positioning device (200) of the door opening latch (1) and/or the tracking device (200) of the locking element (2) has a control device for varying the positioning speed and/or the positioning power during the positioning movement.
8. Door opener according to claim 7,
   characterised in that,
   the control device is connected to a memory device, which detects the position of the door opening latch and/or the position of the locking element.
9. Door opener according to one of the preceding claims,
   characterised in that,
   the door opening latch (1) has a bearing support (110) and a latch body (10) connected moveably to the bearing support (110) while the door is being closed and/or opened.
10. Door opener according to claim 9,
    characterised in that,
    the latch body (10) is connected linearly and moveably to the bearing support (110).
11. Door opener according to one of claims 9 or 10,
    characterised in that,
    an active clamping device (10h) is provided between the bearing support (110) and the latch body (10), which can be opened by interacting with the locking latch (90) during the positioning movement.
12. Door opener according to one of claims 9 to 11,
    characterised in that,
    the bearing support (110) is arranged immovably in the door opener housing (6) and a locking latch actuation body (110b) is arranged in the door opener housing (6) in such a way that the locking latch (90) can be retracted when the door is closing by interacting with the locking latch actuation body (110b), and the actuator (10m) is arranged on the latch body (10) in such a way that the redeployed locking latch (90) is applied to the actuator (10m) after having been retracted.
13. Door opener according to one of the preceding claims,
    characterised in that,
    the door opening latch (1), preferably the latch body (10), has an input-side section (10k), with which an output element (2, 2k) of the positioning device (200) and/or the locking device (20) comes into contact in such a way that the latch body (10) is activated in line with the positioning movement.
14. Door opener according to claim 13,
    characterised in that,
    the output element (2k) is charged with an hydraulic circuit by an hydraulic or pneumatic system (200, 220).
15. Door opener according to one of claims 13 or 14,
    characterised in that,
    the output element (2, 2k) is charged directly or indirectly by the output of an electromechanical motor (200, 230), preferably a revolving cylinder motor.

Images