EP2921626A1 - Door closer - Google Patents

Abstract

A door closer (1) comprises a door closer housing, a closer shaft (2), a closer piston (4) and a closing force generator (6) which kaftbeaufschlag the closing piston (4) along a housing axis (12) of the door closer housing in the direction of the closer shaft (2) , The closer shaft (2) is rotatably mounted on the door closer housing about a shaft rotation axis (8) and has a lifting cam disk (3) with a control surface (9) extending along the shaft rotation axis (8). On the closing piston (4) a bearing roller (5) is rotatably mounted about a roller rotation axis (10). A bearing surface (11) of the bearing roller (5) extends along the roller rotation axis (10). About the bearing surface (11) of the bearing roller (5) of the closing force generator (6) kraftbeaufschlagte closing piston (4) on the control surface (9) provided on the closer shaft (2) Hubkurvenscheibe (3) is supported. The control surface (9) of the camshaft disc (3) provided on the closer shaft (2) and / or the bearing surface (11) of the bearing roller (5) are tiltable in a support plane extending along the shaft rotation axis (8) and the roller rotation axis (10).

Description

• mit einem Türschließergehäuse,
• mit einer Schließerwelle, die an dem Türschließergehäuse um eine Wellendrehachse drehbar gelagert ist und die im Innern des Türschließergehäuses mit einer Hubkurvenscheibe versehen ist, die ihrerseits eine sich längs der Wellendrehachse der Schließerwelle erstreckende Steuerfläche aufweist,
• mit einem Schließerkolben, der in dem Türschließergehäuse längs einer Gehäuseachse, die in Querrichtung der Wellendrehachse der Schließerwelle verläuft, beweglich geführt ist und der längs der Gehäuseachse an einer Seite der Schließerwelle angeordnet ist,
• mit einem Schließkrafterzeuger, welcher den Schließerkolben längs der Gehäuseachse in Richtung auf die Schließerwelle kraftbeaufschlagt sowie
• mit einer Lagerrolle, die zwischen dem Schließerkolben und der Schließerwelle angeordnet ist und die um eine längs der Wellendrehachse verlaufende Rollendrehachse drehbar ist und eine sich längs der Rollendrehachse erstreckende Lagerfläche aufweist, wobei der von dem Schließkrafterzeuger in Richtung auf die Schließerwelle kraftbeaufschlagte Schließerkolben in einer Abstützungsebene, die sich längs der Gehäuseachse und längs der Wellendrehachse und der Rollendrehachse erstreckt, über die Lagerfläche der Lagerrolle an der Steuerfläche der an der Schließerwelle vorgesehenen Hubkurvenscheibe abgestützt ist.

The invention relates to a door closer

• with a door closer housing,
• with a closer shaft, which is rotatably mounted on the door closer housing about a shaft rotation axis and which is provided in the interior of the door closer housing with a Hubkurvenscheibe, which in turn has a along the shaft rotation axis of the closer shaft extending control surface,
• with a closing piston, which is movably guided in the door closer housing along a housing axis, which runs in the transverse direction of the shaft rotation axis of the closer shaft, and which is arranged along the housing axis on one side of the closer shaft,
• with a closing force generator, which forces the closing piston along the housing axis in the direction of the closer shaft and
• with a bearing roller which is arranged between the closing piston and the closer shaft and which is rotatable about a roller rotational axis running along the shaft rotational axis and has a longitudinal axis of rotation of the roller bearing surface, wherein the closing force of the closing force generator toward the closer shaft in a support plane, which extends along the axis of the housing and along the shaft rotation axis and the roller rotation axis, over the bearing surface the bearing roller is supported on the control surface of the Hubkurvenscheibe provided on the closer shaft.

Door closers of the above type are common, for example, as overhead door closer. A generic overhead door closer is in DE 10 2004 041 358 A1 disclosed.

For automatically closing a door leaf equipped with the known door closer, a closer shaft transmits the closing force generated by a closing spring to the door leaf to be closed. The closing force is built up when opening the then automatically closing door leaf. In the power flow between the closing spring and the closer shaft, a closing piston is arranged in the interior of a door closer housing, which moves when opening and closing the door leaf along a housing axis of the door closer housing. About a pivotable about a roller rotation axis bearing roller of the closing piston is supported on a Hubkurvenscheibe the closer shaft. In this case, the bearing roller is located on a control surface of the Hubkurvenscheibe with a parallel to the roller rotation axis extending bearing surface. The control surface of the Hubkurvenscheibe runs parallel to a shaft rotation axis about which the Hubkurvenscheibe provided with the closer shaft is rotatable. For automatically closing the door leaf, the Hubkurvenscheibe is applied to the closer shaft of the shutter spring on the closing piston and provided between the closing piston and the Hubkurvenscheibe bearing roller with the closing force. As a result of the application of force to the lifting cam disk, the closer shaft performs a rotary movement, which is converted, for example, via a linkage into a closing movement of the door leaf. Due to a connected to the opening of the door leaf rotation of the closer shaft mounted on the closer shaft Hubkurvenscheibe drives them acting on the bearing roller and on this the closing piston against the action of a force exerted by the closing spring restoring force along the housing axis of the door closer housing. Both when closing and when opening the door, the control surface roll on the Hubkurvenscheibe and the bearing surface on the bearing roller from each other.

When closing and also when opening the door closer equipped with the door leaf large forces are transmitted between the Hubkurvenscheibe the closer shaft and the closing piston associated bearing roller. If the Hubkurvenscheibe and the bearing roller, for example, due to assembly and / or manufacturing tolerances not optimally aligned with each other, the operation of the door closer is associated with excessive wear on the control surface of Hubkurvenscheibe and the bearing surface of the bearing roller. The excessive wear affects the efficiency of the door closer. An impairment of the door closer efficiency is also due to the fact that in a misalignment of the Hubkurvenscheibe and / or the bearing roller in the power transmission between the Hubkurvenscheibe and the bearing roller on the closer piston a tilting moment acts, due to which increases the friction, which in the movements of the Closing piston along the housing axis between the closing piston and this leading inner wall of the door closer housing occurs.

To remedy the disadvantages of the prior art described is the object of the present invention.

This object is achieved according to the invention by the door closer according to claim 1.

An optimal power transmission between the provided on the closer shaft Hubkurvenscheibe and the Schließerkolbenseitigen bearing roller results when the curved about the shaft rotation axis control surface of Hubkurvenscheibe and curved about the roller rotation axis bearing surface of the bearing roller in a along the shaft and the roller axis of rotation extending support plane with mutual line contact each other issue. A mutual line contact of the control surface on the Hubkurvenscheibe and the bearing surface on the bearing roller turns when both running parallel to the control surface of the Hubkurvenscheibe shaft rotation axis and parallel to the bearing surface of the bearing roller roller rotation axis. So that this also in manufacturing and / or assembly tolerances on the closer shaft and / or on the bearing roller and an associated misalignment of the Control surface of Hubkurvenscheibe and / or the bearing surface of the bearing roller is ensured, in the case of the invention in the plane of mutual support of Hubkurvenscheibe and the bearing roller Kippbeweglichkeit provided on the Hubkurvenscheibe control surface and / or a Kippbeweglichkeit the bearing surface of the bearing roller. Due to the Kippbeweglichkeit the control surface of the Hubkurvenscheibe and / or the bearing surface of the bearing roller are enabled to automatically align with respect to the other surface under the action of the force acting along the housing axis of the door closer housing force such that the control surface of Hubkurvenscheiben and the bearing surface line contact the bearing roller in the support plane. It is accordingly prevented that due to a misalignment of the control surface of the Hubkurvenscheibe and / or the bearing surface of the bearing roller between the control surface of Hubkurvenscheibe and the bearing surface of the bearing roller instead of the desired line contact results in an undesirable point contact in the support plane.

As a result of the line contact subject to the actuation of the door closer rolling surfaces on the Hubkurvenscheibe and the bearing roller at most minimal wear. If the force transmitted between the cam disc and the bearing roller is effective in a plane perpendicular to the support plane longitudinal center plane of the door closer, so by the automatic mutual alignment of the control surface of Hubkurvenscheibe and the bearing surface of the bearing roller offset the location of the power transmission between the Hubkurvenscheibe and the bearing roller compared with the longitudinal center plane of the door closer compared to a mutual point contact at least reduced. This is associated with a reduction of the tilting moment, which acts as a result of the offset of the location of the power transmission between the Hubkurvenscheibe and the bearing roller relative to the longitudinal center plane of the door closer to the closing piston and which endeavors to increase the closing piston between the closing piston and this inner wall of the door closer housing occurring friction with respect to the door closer housing to tilt.

Due to the mentioned effects of line contact of Hubkurvenscheibe and bearing roller of the door closer according to the invention has a particularly high efficiency. The force required to open the relevant door leaf is comparatively low. The closing force-generating and also the closing force-transmitting door closer components can build relatively small. The material used in the production of the door closer according to the invention is relatively low, the production costs are relatively low.

Particular embodiments of the door closer according to claim 1 emerge from the dependent claims 2 to 7.

Thus, the closer shaft can be mounted on the door closer housing such that tilting movements of the closer shaft are excluded relative to the door closer housing, the required for automatic mutual alignment of Hubkurvenscheibe and the bearing roller tilting mobility is provided in a preferred embodiment of the invention bearing roller side. For this purpose, it is evidenced in claim 2, the bearing roller in the direction of Kippbeweglichkeit the bearing surface of the bearing roller substantially free of play supported on the closing piston and the closing piston relative to the door closer housing tiltable.

Such a tilting movement of the closing piston does not exist on conventional door closers, on which the closing piston is linearly guided during movements along the housing axis via a fit on the door closer housing. In the case of the invention, the tilting movement of the closing piston relative to the door closer housing is made possible by the fact that the closing piston has a non-uniform outer diameter along the housing axis. The closing piston according to the invention has at least one piston portion of smaller diameter, at which the closing piston is spaced from a housing axis extending along the housing inner wall of the door closer housing and at least one piston portion of larger diameter, on which the closing piston on the housing inner wall of the door closer housing along the housing axis movable is guided (claim 3). The piston portion of smaller diameter allows due to the between this piston portion and the housing inner wall of the door closer housing existing game the desired tilting movement of the closing piston relative to the door closer housing. At the same time, the larger-diameter piston section ensures effective guidance of the closing piston during movements along the housing axis. In contact with the inner wall of the door closer housing is only the radially expanded portion of the closing piston. Only this piston section must therefore have good sliding properties. For the diameter or the reduced diameter piston sections good sliding properties are dispensable. Thus, it is unnecessary to grind and harden the or the reduced-diameter closing piston sections, for example, with steel closing pistons.

The non-uniform outer diameter of the closing piston is realized in a preferred embodiment of the invention by a gradation of the piston outer diameter. Depending on the position of the piston portion of larger diameter along the housing axis, a smaller diameter piston portion is provided only on the side of the larger diameter piston portion facing the bearing roller, or on both sides of the larger diameter piston portion, so that the normally open piston can perform a tilting movement, if necessary.

In the case of Erfindungsbauart according to claim 4, the closing piston is in several parts. A piston main body forms the piston portion of smaller diameter, a piston attached to the piston body radial piston extension the piston portion of larger diameter.

Evidently claim 5 is provided as a radial piston extension attached to the piston body piston ring. Such piston rings are commercially available and can be connected to manufacturing technology simple way with the piston body, insert for example in a circumferential groove of the piston body.

The multi-part design of the closer piston offers the advantage that each of the piston parts can be matched in its nature to the specific requirements. In this sense, claim 6 provides that the piston section larger diameter of the closing piston on the side facing the housing inner wall side of a friction-reducing material. For the piston body, a material can be selected which has no special sliding properties, but which is particularly suitable, for example, to absorb the forces acting between the closer piston and the closer shaft forces.

Claim 7 relates to a particularly practice-relevant design of the door closer according to the invention. In this case, a closing spring and accordingly a closing piston as a spring piston are provided as closing force.

Figur 1

eine perspektivische Teildarstellung eines Türschließers,

Figur 2

die Anordnung gemäß Figur 1 in der Ansicht in Richtung des Pfeils II in Figur 1,

Figur 3

die Anordnung gemäß den Figuren 1 und 2 in einer in Figur 2 senkrecht zu der Zeichenebene entlang der Linie III-III verlaufenden Darstellungsebene und

Figur 4

das Detail IV von Figur 3 in einer stark vergrößerten und stark überzeichneten Schnittdarstellung mit einer Schnittebene, die in Figur 3 senkrecht zu der Zeichenebene entlang der gestrichelten Gehäuseachse des Türschließergehäuses verläuft.

The invention will be explained in more detail below with reference to exemplary schematic illustrations. Show it:

FIG. 1

a partial perspective view of a door closer,

FIG. 2

the arrangement according to FIG. 1 in the view in the direction of the arrow II in FIG. 1 .

FIG. 3

the arrangement according to the Figures 1 and 2 in an in FIG. 2 perpendicular to the plane of the drawing along the line III-III extending plane and

FIG. 4

the detail IV of FIG. 3 in a greatly enlarged and heavily oversubscribed sectional view with a sectional plane in FIG. 3 runs perpendicular to the plane along the dashed housing axis of the door closer housing.

According to the FIGS. 1 to 3 a door closer 1 comprises a closer shaft 2 with a Hubkurvenscheibe 3 formed thereon, a closing piston 4 with a rotatably mounted thereon bearing roller 5, a closing spring 6 and a in FIG. 3 dashed lines indicated door closer housing. 7

The closer shaft 2 is rotatable about a shaft rotation axis 8 and otherwise stored without clearance on the door closer housing 7. The Hubkurvenscheibe 3 on the closer shaft 2 has a control surface 9, which extends parallel to the shaft rotation axis 8.

The bearing roller 5 is rotatable on the closing piston 4 about a roller rotation axis 10 and forms a bearing surface 11 at its periphery. Incidentally, the connection between the bearing roller 5 and the closing piston 4 is free of play.

The closing piston 4 is arranged in the interior of the door closer housing 7 along a housing axis 12 laterally next to the closer shaft 2 and along the Gehäseachse 12 slidably. At the side remote from the closer shaft 2, the closing piston 4 is moved in the direction of the lifting cam 3 of the closer shaft 2 by the closing spring 6 acting as closing force generator (arrow 13 in FIG FIG. 3 ).

Along the housing axis 12, the outer diameter of the closing piston 4 is stepped. On both sides of a piston portion 14 of larger diameter piston portions 15, 16 of smaller diameter are provided. The Kolbenabschitt 14 of larger diameter is formed by means of a designed as a sliding ring piston ring 17 which is inserted into a circumferential groove 18 on a piston body 19 of the closing piston 4. On the piston ring 17, the closing piston 4 has, in the illustrated example case, an outer diameter of 34 mm corresponding to the inner diameter of the hollow-cylindrical door closer housing 7. The opposite the piston portion 14 diameter-reduced piston portions 15, 16 on both sides of the piston ring 17 have a diameter of 33.7 mm and 33.5 mm. Accordingly, the closing piston 4 is only at the piston portion 14 with the inner wall of the door closer housing 7 in contact.

The door closer 1 is mounted in the usual manner on a door, not shown, and connected to the closer shaft 2 via a likewise not shown rods of conventional design to a fixed door frame. The FIGS. 1 to 4 show the conditions on the door closer 1 with the door closed.

If the door leaf is turned open, the closer to the fixed door frame via the linkage shaft 2 performs jointly with the molded thereon Hubkurvenscheibe 3 a rotational movement in an opening direction 20 ( FIG. 3 ). As a result, the control surface 9 of Hubkurvenscheibe 3 and the bearing surface 11 of the bearing roller 5 roll from each other and the closer piston 4 in the interior of the door closer housing 7 displaced along the housing axis 12 against the action of him acting on the closing spring 6 in FIG. 3 to the right. The closing spring 6 is biased due to the movement of the closing piston 4.

If the door is released after opening, then the closing spring 6 can relax. As a result of the application of force by the closing spring 6, the closing piston 4 moves along the housing axis 12 back into the position according to FIG. 3 , The force exerted by the closing spring 6 in the direction of arrow 13 closing force is removed via the rotatably mounted on the lock piston 4 bearing roller 5 in the Hubkurvenscheibe 3 of the closer shaft 2 and thereby causes an opening direction 20 opposite closing rotational movement of the Hubkurvenscheibe 3 and the closer shaft. 2 Over the linkage between the closer shaft 2 and the fixed door frame, the closing rotational movement of the closer shaft 2 is converted into a closing movement of the door leaf provided with the door closer 1. Due to the geometry of the Hubkurvenscheibe 3 and provided on this control surface 9 vary the force applied to open the door leaf and the force exerted upon closing the door leaf on this force in the desired manner on the opening angle of the door leaf.

For the power transmission between the bearing roller 5 on the closing piston 4 and the Hubkurvenscheibe 3 on the closer shaft 2 then optimal conditions exist when the curved about the roller axis 10 bearing surface 11 of the bearing roller 5 and the curved axis of rotation 8 control surface 9 of the cam disc 3 in a Support level 21, as in FIG. 3 along the housing axis 12 extends perpendicular to the plane of the drawing, are linearly supported against each other. A line contact of the bearing surface 11 on the bearing roller 5 and the control surface 9 on the Hubkurvenscheibe 3 turns when the bearing surface 11 of the bearing roller 5 parallel to the roller rotation axis 10 and the control surface 9 Hubkurvenscheibe 3 parallel to the shaft rotation axis 8 and also the roller rotation axis 10 and the shaft rotation axis 8 parallel to each other.

From such optimal conditions, the actual conditions on the door closer 1 may differ, for example as a result of manufacturing and / or assembly tolerances. It is conceivable in particular an undesirable inclination of the closer shaft 2, as in FIG. 4 is sketched heavily overdrawn. In this case, if the closing piston 4 had a uniform external diameter and if the closing piston 4 were consequently guided over the entire length thereof on the inner wall of the door closer housing 7 along the housing axis 12, then an in FIG. 4 dashed lines indicated point contact of the bearing roller side bearing surface 11 and the closing shaft-side control surface 9. When opening and closing the door leaf, the Hubkurvenscheibe 3 and the bearing roller 5 along a line of contact would roll on each other. As a result of the edge pressure occurring Hubkurvenscheibe 3 and the bearing roller 5 would be subjected during operation of the door closer 1 an extremely heavy wear. The service life of the Hubkurvenscheibe 3 and the bearing roller 5 would greatly reduce the wear due to the optimal conditions, the efficiency of the door closer 1 would deteriorate due to wear.

A deterioration in the efficiency of the door closer 1 would also result from the fact that the point of mutual support of Hubkurvenscheibe 3 and the bearing roller 5 with respect to a in FIG. 4 also indicated by dashed lines longitudinal center plane 22 of the door closer 1 would be offset relatively far. The longitudinal center plane 22 of the door closer 1 extends in FIG. 2 perpendicular to the plane of the drawing along the housing axis 12.

As a result of the large offset of the contact point of Hubkurvenscheibe 3 and the bearing roller 5 with respect to the longitudinal center plane 22 of the door closer 1 would act on the closing piston 4 a magnitude large tilting moment, which would endeavor to tilt the closing piston 4 relative to the inner wall of the door closer housing 7. In FIG. 4 the tilting moment is illustrated by an arrow 23.

The described negative effects of an undesired misalignment of the closer shaft 2 and thus also the shaft rotation axis 8 arise on the door closer 1 according to the FIGS. 1 to 4 due to the special design of the closing piston 4 not a. Rather, the gradation of the outer diameter of the closing piston 4 allows a tilting movement of the closing piston 4 in the support plane, without causing an increase in friction at the contact surface between the closing piston 4 and the inner wall of the door closer housing 7 would be connected. Since the extension of the piston ring 17 on the lock piston 4 along the housing axis 12 is dimensioned relatively small and since the piston ring 17 is disposed near the closer to the closing spring 6 end of the closer piston 4 and has a certain elasticity, the closing piston 4 relative to the inner wall of the door closer housing 7 perform a pivoting movement, in which the piston ring 17 forms a pivot bearing for the closer piston 4 with the inner wall of the door closer housing 7.

As a result, the bearing surface 11 of the locking piston 4 rotatably mounted on the bearing roller 5 can adjust their orientation in the support plane 21 to the orientation of the control surface 9 of the Hubkurvenscheibe 3. Regardless of the inclination of the closer shaft 2 thus results in the support plane 21 line contact between the bearing surface 11 of the bearing roller 5 and the control surface 9 Hubkurvenscheibe 3. The occurring in the operation of the door closer 1 on the bearing surface and the control surface 9 wear is minimized acting on the closing piston 4 tilting moment is compared to the conditions in the in FIG. 4 Dashed lines indicated orientation of the bearing roller 5 significantly reduced.

During the movement along the housing axis 12, the closing piston 4 is in contact exclusively with the piston ring 17 with the inner wall of the door closer housing 7. As a result of the good sliding properties of the piston ring 17, the movements performed by the closer piston 4 against the action of the closing spring 6 and also the movements of the closer piston 4 due to the action of the closing spring 6 along the housing axis 12 are subject to only a slight friction.

Claims (7)

door closers • with a door closer housing (7), With a closer shaft (2), which is rotatably mounted on the door closer housing (7) about a shaft rotation axis (8) and which is provided inside the door closer housing (7) with a Hubkurvenscheibe (3), which in turn along the shaft axis of rotation ( 8) of the closer shaft (2) extending control surface (9), With a closing piston (4) which in the door closer housing (7) along a housing axis (12) which extends in the transverse direction of the shaft rotation axis (8) of the shutter shaft (2) is guided, and along the housing axis (12) at a Side of the closer shaft (2) is arranged, • with a closing force generator (6), which force the closing piston (4) along the housing axis (12) in the direction of the closer shaft (2) and With a bearing roller (5) which is arranged between the closing piston (4) and the closer shaft (2) and which is rotatable about a roller rotation axis (10) running along the shaft rotation axis (8) and extends along the roller rotation axis (10) Bearing surface (11), said of the closing force generator (6) in the direction of the closer shaft (2) force-loaded closing piston (4) in a support plane (21) along the housing axis (12) and along the shaft rotation axis (8) and the roller rotation axis (10) extends over the bearing surface (11) of the bearing roller (5) on the control surface (9) of the cam disc (3) provided on the shutter shaft (2), characterized in that
the control surface (9) of the Hubkurvenscheibe (3) provided on the closer shaft (2) and / or the bearing surface (11) of the bearing roller (5) in the support plane (21) is or are tiltable. Door closer according to claim 1, characterized in that the bearing surface (11) of the bearing roller (5) in the support plane (21) is tiltable by the bearing roller (5) in the direction of Kippbeweglichkeit the bearing surface (11) of the bearing roller (5) substantially play is supported on the closing piston (4) and the closing piston (4) is tiltable relative to the door closer housing (7). Door closer according to claim 2, characterized in that the closing piston (4) is tiltable relative to the door closer housing (7) in that the closing piston (4) along the housing axis (12) has a non-uniform outer diameter and at least one piston portion (15, 16) smaller Diameter at which the closing piston (4) from a longitudinal axis of the housing (12) extending housing inner wall of the door closer housing (7) is spaced and at least one piston portion (14) of larger diameter, on which the closing piston (4) on the housing Inner wall of the door closer housing (7) along the housing axis (12) is movably guided. Door closer according to Claim 3, characterized in that the closing piston (4) has a piston base body (19) forming the piston section (15, 16) of smaller diameter, to which a radial piston extension forming the piston section (14) of larger diameter is attached. Door closer according to Claim 4, characterized in that a piston ring (17) attached to the piston main body (19) is provided as the radial piston extension. Door closer according to one of claims 3 to 5, characterized in that the piston portion (14) of larger diameter of the closing piston (4) on the housing inner wall of the door closer housing (7) facing side consists of a friction-reducing material. Door closer according to one of the preceding claims, characterized in that the closing force generator (6) is a Schließerfeder- and a closing piston (4), a spring piston are provided.

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