CN101608522B

CN101608522B - Drive unit for a swinging wing

Info

Publication number: CN101608522B
Application number: CN 200910149642
Authority: CN
Inventors: M·格伦策; T·哈尔布魏斯; H·文策尔
Original assignee: Geze GmbH
Current assignee: Geze GmbH
Priority date: 2008-06-18
Filing date: 2009-06-17
Publication date: 2012-12-05
Anticipated expiration: 2029-06-17
Also published as: CN101608522A; EP2136022B1; PL2136022T3; DK2136022T3; EP2136022A3; DE102008028633B4; DE102008028633A1; EP2136022A2

Abstract

The present invention relates to a drive unit having a connecting mechanism for a swinging wing, wherein the connecting mechanism includes a drive module hinged to the swinging wing and to its associated frame, the drive module has a drive housing moving by the drive of the drive module, the swinging wing is capable of moving between its closing position and opening position, wherein the drive housing is supported by a swinging axis extending by a distance with its barycemter. The drive housing is capable of moving to a structure-determined end position around the swinging axis under a condition of eliminating the clearance in a swinging direction basically on the closing position of the swinging wing.

Description

The drive unit that is used for swinging wing

Technical field

The present invention relates to a kind of drive unit that is used for swinging wing.

Background technology

Like this be used for can with respect to fixed frame motion, for example can to constitute the drive unit of swinging wing of the window of shaking the head, French window, ventilation valve etc. known by DE 20120604U1.The driver module that is used for swinging wing that is integrated in the bindiny mechanism comprises drive shell elongated, cuboid, in this drive shell, is provided with the drive chain that will shift out and move into through drive motor.At this, drive shell can swingingly be bearing on the frame section bar of swinging wing via the frame support bracket that is arranged on the shell end, and the free end of drive chain is hinged on the fixing framework.At this, the axis of oscillation of being stipulated by frame support bracket extends along the back side of drive shell, and the center of gravity of drive shell has to the tangible distance of axis of oscillation thus.The gravity of drive shell thereby generation are around the moment of axis of oscillation, and this moment must support through drive chain.According to framework condition structurally, drive shell when swinging wing is closed owing to be in the final position of slight inclination with respect to the horizontal plane in the height gap of chain side.But this possibly be undesirable, because because drive shell can let the people feel that this is a kind of unsteady driving solution from horizontal plane medium dip and consequent gap.In addition, may cause the wearing and tearing increase of driving mechanism sometimes owing to the tiltable motility in gap through drive shell.

Summary of the invention

The objective of the invention is to, develop a kind of drive unit that is used for swinging wing, this drive unit can be realized a kind of outward appearance of firm driving device structure mode.

Said purpose realizes through a kind of drive unit that is used for swinging wing; Said drive unit has a bindiny mechanism; This bindiny mechanism comprises and being hinged on the one hand on the swinging wing and the driver module on the framework under being hinged on the other hand; This driver module has a drive shell; Through the drive movement of this driver module, swinging wing can move between its fastening position and its open position, and wherein drive shell is around an axis of oscillation supporting of extending with its center of gravity partition distance; Wherein, drive shell can move in the final position structurally confirmed around axis of oscillation under the situation in the gap on the swaying direction eliminating basically in the fastening position of swinging wing.

Can for example under the situation in the existing gap of elimination, move in the final position of structurally confirming through the manual loading to driver module under the simplest situation according to drive unit of the present invention, driver module remains in this final position afterwards.

In order to realize more cosily handling drive unit, driver module preferably automatically moves in the final position of eliminating the gap by means of auxiliary drive.A kind of simple especially form of implementation of this auxiliary drive realizes through a spring assembly, and the spring force through this spring assembly loads driver module towards the final position of being confirmed by stop element all the time.Also can for example use the backstop that to regulate through adjustment screw as stop element in case of necessity, so that under the situation of compensation tolerance, can accurately regulate to the final position of the setting of driver module.

In being designed to elongated driver module-and this driver module can swingingly support via frame support bracket in its each end in known manner, and preferably can be in the loading spring of integrated two synchronous workings in each of two frame support brackets one.Butterfly spring/supporting leg the spring (Schenkelfeder) that structurally is complementary with frame support bracket can be arranged in these frame support brackets with saving the space especially.Therefore, they can surround a bearing sleeve in the hinge area of the frame support bracket that matches, thereby obtain compact arrangement form.At this, the spring that can in the driving solution that changes, use varying strength with mode simply is complementary with the intrinsic weight with the driver module of Different Weight, and the spring force through these springs is in the final position driver module reliably.

For the stop element that need not add limits the relative swing that driver module winds the axis of oscillation that is limited frame support bracket, the base plate that one of circumference profile that stop element can be advantageously used by the control of a buck plate and frame support bracket moves with driver module forms.As the circumference profile that control is used, buck plate can be equipped with the backstop projection of wedge shape, and this backstop projection embeds rising in the fork-shaped backstop action wedge-shaped recess of base plate with the corresponding bigger angle of wedge.Certainly, backstop projection and fork-shaped backstop must be positioned at a common Plane of rotation for this reason.

The final position of backstop projection in fork-shaped backstop of support spring power is preferred to be coordinated with structurally definite final position of driver module so mutually, and promptly at least one circumference of driver module is positioned at one at least near the plane of level in this final position.

Description of drawings

Below according to the embodiment in the accompanying drawing further explanatory drawings.

Wherein:

The phantom drawing of drive unit when Fig. 1 is illustrated in swinging wing and closes;

The phantom drawing of drive unit when Fig. 2 is illustrated in swinging wing and partially opens;

Fig. 3 illustrates the lateral view of perspective in the carriage zone of drive unit;

Fig. 4 illustrates the frame support bracket according to Fig. 3 with independent exploded view;

Fig. 5 illustrates the frame support bracket according to the assembling of Fig. 4 with independent phantom drawing;

Fig. 6 illustrates the frame support bracket among Fig. 5 with the lateral view on right side.

The specific embodiment

At a drive unit 10 shown in Fig. 1 and 2, the swinging wing 20 of window can utilize this drive unit between its fastening position and unshowned position of opening fully, to swing.At this, the rectangular frame of swinging wing 20 is lived the sheet glass of printing opacity with common mode frame and can swingingly be bearing on the underframe section bar of window frame 22 around a horizontal axis with folding band 21 along the wing section bar of bottom.The upper frame section bar of swinging wing 20 is articulated and connected through the relative section bar of a drive chain 11 with window frame 22 in the zone line of central authorities.

At this, the chain support 12 that is fixed on the frame section bar of window frame 22 is used for the articulated link chain end.Because last chain link is provided with the end of hanger and is hinged on the horizontally extending axis of chain support 12, drive chain 11 can swingingly support along short transverse.Drive chain 11 is made up of a plurality of chain links of the quantity that determines its length in known manner, and these chain links interconnect through the rotating hinge fitting that is formed by pin each other.In drive chain 11, the pin near one of its narrow side vertically with the parallel setting of constant distance, and adjacent chain link when drive chain 11 stretches on relative narrow side each other the supporting.In other words, drive chain 11 only can be crooked hingedly towards the pin side from its straight extended position.Therefore, the sprocket wheel 13 that matches is embedded into the drive chain 11 from the narrow side with pin.

Sprocket wheel 13 itself can be rotated to support in the drive shell 14, drive chain 11 be passed in window frame 22 opposed case side on the opening at a center be directed in this drive shell.Elongated, cross section is that 14 of rectangle and the drive shell that is roughly cuboid on the whole are on the front of the upper profile that is fixed on swinging wing 20 on two ends respectively through a frame support bracket 15.Because drive shell 14 is shown taking off under the situation of case lid, so can be clear that the drive chain 11 that pushes is in the inner laying of drive shell 14.The also available opposite mode of drive unit 10 is provided with, and the drive shell 14 that wherein is bearing in swingably in the frame support bracket 15 is arranged on the window frame 22, and correspondingly the chain support 12 of coupling is arranged on the swinging wing 20.

Meet at right angles after the drive chain 11 of ground tensioning traverses in the drive shell 14 in

window frame

22 and 14 of drive shell, this drive chain at first twines engagement (embeddings) to wherein sprocket wheel 13 and spend through director element bending about 90 at this moment.Extend towards the right-hand member of drive shell 14 at this bending rear drive chain 11, after this, drive chain turns to 180 degree and thereby extends towards the zone line that is equipped with sprocket wheel 13 of drive shell 14 again in opposite direction at first straightly.Combine a corresponding guide channel to guarantee the laying in this saving space of drive chain 11 through the crooked deflection guide frame of a U-shaped, this guide channel is limited drive shell 14 case lid and that take off own.Through driving along the rotation of counter clockwise direction to sprocket wheel 13 via the moving motor 16 of the fax in the left shell halfbody that invisibly is arranged on drive shell 14; Drive chain 11 can shift out from drive shell 14 until the final position according to length thus, and swinging wing 20 moves at most in its open position of complete opening thus.

If the switching through drive motor 16 is rotated drive sprocket 13 along counter clockwise direction; Then drive chain 11 be drawn into not only in the drive shell 14 according to length and but also be in shown in, U-shaped stand crooked, in drive shell 14; Wherein swinging wing 20 is drawn to again on the window frame 22 through centre position shown in figure 2, up to it in the fastening position shown in Fig. 1.In this fastening position, swinging wing 20 is kept shut via drive motor 16, because the mechanical driving device of drive motor for example becomes self-locking through integrated Worm Gear Drive Design.The locking element that therefore, need not add for swinging wing 20.

When opening and closing swinging wing 20 through drive chain 11, the upper frame section bar of swinging wing 20 geometrical axis around folding band 21 on a circuit orbit moves.That occur this moment, must compensate through the rotation between drive shell 14 and the swinging wing 20 on the frame support bracket 15 that two mirror images constitute symmetrically with respect to the height tolerance of chain support 12, can realize that thus sprocket wheel 13 does not on the skew embed in the drive chain 11 of (being engaged to) straight extension between chain support 12 and drive shell 14.At this; This coupling to the instantaneous position of rotation between drive shell 14 and the swinging wing 20 is automatically through along with realizing away from the decline of chain support 12 drive chains 11 gradually, and wherein drive shell 14 is directed towards the outer circumferential side of swinging wing 20 rotation and the straight chain direction between window frame 22 and drive shell 14 through sprocket wheel 13 ground that meets at right angles.

In Fig. 3, mark how much axis of oscillation 17, drive shell 14 can swingingly support around this axis of oscillation on essential angular range with respect to the frame section bar that the parallel axes of swinging wing 20 is extended by means of frame support bracket 15.This axis of oscillation 17 extends also near the flat back side of drive shell 14 thereby arrives roughly extending with the distance of the corresponding center of gravity line of longitudinal central axis line obvious (bigger) of drive shell 14 with one.Therefore, through moment of gravity generation of drive shell 14, this moment loads around 17 pairs of frame support brackets of axis of oscillation 15 along clockwise direction.But this moment supports through an actuating device of the spring; Thereby drive shell 14 is remained in its final position of structurally confirming, the outer circumferential side of the outer circumferential side on drive shell 14 tops and parallel with it bottom meet at right angles flatly and on this plane with swinging wing 20 orientation.

As the independent view that is combined in one of frame support bracket 15 that two mirror images among Fig. 4,5 and 6 constitute symmetrically can find out well; The rotation 17 that is parallel to how much axiss of oscillation of folding band 21 is confirmed that by the center, hole of a Supporting ring 15.1 this Supporting ring is side-prominent down from it transverse to the board plane ground of the buck plate 15.2 of a rectangle.Buck plate 15.2 on the adjacent slotted hole 18 of two side direction planar recline on the front by means of the upper frame section bar common, that unshowned hold-down screw is screwed to swinging wing 20.Fixed reliably via the screw thread of this buck plate is fixing transverse to buck plate 15.2 outstanding Supporting rings 15.1, because this Supporting ring 15.1 is integrally processed by for example aluminium diecasting with buck plate 15.2.In addition, on buck plate 15.2 visible distolateral, form the backstop projection 15.3 of a wedge shape, this backstop projection covers Supporting ring 15.1 but to have lateral distance ground with it outstanding from the lower area of buck plate 15.2.

In the perpendicular of baffle plate 15.3, the base plate 15.4 of frame support bracket 15 can swingingly support around the rotation 17 that aligns with the longitudinal central axis line of Supporting ring 15.1.At this, meet at right angles ground and be parallel to lower zone the extending of drive shell 14 of the board plane of the Plane of rotation of base plate 15.4 and opposed buck plate 15.2 by its covering distolaterally.In the overlay area between base plate 15.4 and drive shell 14, they securely but can interconnect with dismantling easily, wherein the multi-piece type between the two connects the hole that is passed in the base plate 15.4 and fixes with hold-down screw 19.

In the end regions of buck plate 15.2, the bearing sleeve 15.5 of a hollow cylinder laterally stretches out from the wide side of base plate 15.4, and the hole of this bearing sleeve is provided with sightless internal thread.Under assembled state, one have a threaded rod 25.1 axial pin 25 screw in the said internal thread, wherein stretch out the end of threaded rod 15.1 one with larger-diameter cylindrical pin tightening latch 25.2.The pin bar 25.2 that is provided with the pin head at the other end passes the hole that a packing ring 26 also then passes a support sleeve 27, and this support sleeve itself passes the hole of Supporting ring 15.1.At this, supporting base 27 has the axle collar that forms on the end of bearing sleeve 15.5 (one).When axially pin 25 screwed in, support sleeve 27 was held against in Supporting ring 15.1 thus on the annular end face of bearing sleeve 15.5, thus fixing its bearing position in Supporting ring 15.1.Bearing sleeve 15.5 is surrounded by the circle of a butterfly spring 28 with certain circumferential clearance, and this butterfly spring is arranged between the wide side of annular end face and base plate 15.4 of Supporting ring 15.1 vertically.At this, a spring legs of the butterfly spring 28 of rotation pretension is bearing on the base plate 15.4, and another spring legs is bearing on the buck plate 15.2.Butterfly spring 28 act on rotary driving force on the base plate 15.4 in the short limit supporting of this fork-shaped backstop 15.6 of widening via wedge shape.This fork-shaped backstop 15.6 is formed by two straight limiting faces of the triangular notches of base plate 15.4, and this recess is by in the folding corner region of buck plate 15.2, reserving.If overcoming the spring force of butterfly spring 28, base plate 15.4 is pressed downward from drive shell 14; Then at first compensate the existing rotary gap of the stopper protrusion 15.3 between each limit of fork-shaped backstop 15.6; Another limit of fork-shaped backstop 15.6 abuts on the corresponding surface on its stopper protrusion 15.3 afterwards, and base plate 15.4 is prevented to continue swing by locking thus.Even in order also to have guaranteed essential rotary gap when the disadvantageous position of related features, the basis of fork-shaped backstop 15.6 as the limit basic point of dihedral through roughly interior rounding of angle (Hohlkehle) 15.7 expansions of semicircle.

When swinging wing 20 was closed, drive shell 14 was therefore owing to the auxiliary drive that is formed by the butterfly springs 28 that are arranged in the carriage 15 moves in definite final position automatically.Because the revolving force of butterfly spring 28 keeps working in the final position of confirming through fork-shaped backstop 15.6 and affiliated stopper protrusion 15.3, so drive shell 14 remains on after it moves in identical all the time, the stable final position.

Reference numerals list

10 drive units

11 drive chains

12 chain supports

13 sprocket wheels

14 drive shell

15 frame support brackets

15.1 Supporting ring

15.2 buck plate

15.3 stopper protrusion

15.4 base plate

15.5 bearing sleeve

15.6 fork-shaped backstop

15.7 interior rounding of angle

16 drive motors

17 axiss of oscillation

18 slotted holes

19 hold-down screws

20 swinging wings

21 folding bands

22 window frame

25 axial pins

25.1 threaded rod

25.2 pin bar

26 packing rings

27 supporting bases

28 butterfly springs

Claims

1. the drive unit that is used for swinging wing; Has a bindiny mechanism; This bindiny mechanism comprises and being hinged on the one hand on the swinging wing and the driver module on the framework under being hinged on the other hand; This driver module has a drive shell; Through the drive movement of this driver module, swinging wing can move between its fastening position and its open position, and wherein drive shell is around an axis of oscillation supporting of extending with its center of gravity partition distance; It is characterized in that drive shell (14) can move in the final position structurally confirmed around axis of oscillation (17) under the situation in the gap on the swaying direction eliminating basically in the fastening position of swinging wing (20).

2. drive unit according to claim 1 is characterized in that, is provided with drive shell (14) by means of auxiliary drive the moving automatically in the position of breasting the tape.

3. drive unit according to claim 2 is characterized in that said auxiliary drive is formed by spring assembly, and the spring force through this spring assembly is driven into drive shell (14) in the final position of confirming through stop element.

4. drive unit according to claim 3; It is characterized in that; Drive shell (14) is designed to elongated and is arranged on frame support brackets (15) on its each end around axis of oscillation (17) supporting via two, wherein in frame support bracket (15), distinguishes a spring of integrated spring assembly.

5. drive unit according to claim 4 is characterized in that, said two springs that are integrated in the frame support bracket (15) constitute butterfly spring (28) respectively.

6. drive unit according to claim 5; It is characterized in that; Frame support bracket (15) has a buck plate (15.2) and a base plate (15.4) that has Supporting ring (15.1) respectively as critical piece; This base plate have one with Supporting ring (15.1) with one heart from the outstanding bearing sleeve (15.5) of this base plate, this buck plate and base plate hingedly interconnect, wherein bearing sleeve (15.5) is surrounded by the turn of affiliated butterfly spring (28) in the frame support bracket of having assembled (15).

7. drive unit according to claim 6 is characterized in that, is respectively equipped with an axial pin (25), is used between Supporting ring (15.1) and bearing sleeve (15.5), realizing being articulated and connected.

8. drive unit according to claim 7 is characterized in that, axially pin (25) is bearing in the Supporting ring (15.1) through a concentric support sleeve (27) that is provided with.

9. drive unit according to claim 6 is characterized in that, between buck plate (15.2) and base plate (15.4), has the control profile that has backstop, is used for being limited in the relative swing between drive shell (14) and the buck plate (15.2).

10. drive unit according to claim 9 is characterized in that, confirms the final position of drive shell (14) through the backstop of control profile, and in this final position, at least one outer circumferential side of drive shell (14) is positioned at a plane near level.