EP1566509B1 - Adapter for fitting and lock mechanism for a door, a window or the like - Google Patents

Abstract

Mounting drive (1) for a window, door, etc. comprises a handle and a torque-transferring adapter having a first connecting zone (50) connected to the handle and a second connecting zone (51) connected to the mounting drive. The first connecting zone is a square recess (49) and the second connecting zone is a Torx rod (52), or the first and the second connecting zones are each Torx rods.

Description

The invention relates to a fitting mechanism for a window, a door or the like.

It is known to connect the nut of a fitting mechanism via a square standard rod with a handle handle. If such a standard rod to be extended, so an adapter is required, which receives one end of the standard rod with a first connection zone and has a second connection zone, which is designed as a standard square bar.

The square standard bars have an edge distance of about 7 mm and therefore allow a corresponding torque transmission. The transferable force is essentially determined by the interacting surfaces, ie the surface load exerted on the sides of the square bar on corresponding sides of a square socket in the nut (or drive gear) of a fitting gear on the one hand and a square socket in the handle handle on the other hand for manual operation of the fitting gear. On the one hand require with a variety of locking pin provided fittings relatively high torque applied to the handle handle, which must be transmitted to the fitting gear and on the other hand, the cross-sectional dimensioning of such a square bar is limited because the fitting parts and the grip handle can not be designed too clunky.

From the BE 424 999 A goes out a fitting gear, which has a handle handle, which is coupled via a fine tooth rod with a nut of the fitting gear. The profile of the fine tooth rod has seen in cross-section triangular teeth, with a very large number of teeth.

From the EP 0 955 432 A goes out a locking mechanism with which a gear and a rack at least one locking bolt can be driven. The gear has a coupling recess, which - seen in cross section - is formed in a star shape with triangular corners.

The invention has for its object to provide a fitting gear, with the rotary handle the highest possible torque can be transmitted in a relatively small size.

This object is achieved in that a fitting mechanism for a window, a door or the like is provided with a handle handle and a torque transmission adapter having a first and a second connection zone and the first connection zone with the handle handle and the second connection zone with a drive gear of Fitting gear is connected, wherein the first connection zone as a square recording and the second connection zone as Torxstab or the first and the second connection zone are each formed as Torxstab and wherein the drive gear has a trained as Torxaufnahme coupling receptacle. The Torx profile has the contour in cross section a hexagonal star; It is generally known to the person skilled in the art.

Furthermore, the invention relates to a fitting transmission with rod-shaped connecting element for torque transmitting connecting a drive gear with a handle handle, having a first and a second connection zone, wherein the first and the second connection zone is formed in each case as Torxstab. The rod-shaped connecting element is preferably formed by a Torxstab, which can be compared to a standard square rod slender and yet transmits equal or even greater torques, as the Troxprofil-viewed over the circumference large contact zones for grip handle or fitting mechanism provides.

The torque transmission adapter has a first connecting zone formed as a square receptacle and a second connecting zone designed as a Torx rod. The Torxstab is inserted into a corresponding Torxausnehmung the drive gear or a nut of a fitting gear. The formed on the other side of the adapter square socket is used for connection to the handle handle. The latter also has a square socket, so that in the square socket of the handle handle one end of a square bar and in the square socket of the adapter, the other end of the square bar is inserted. The square bar is in particular a standard square bar with an edge spacing of 7 mm. Due to the use of the Torxstabs in the adapter, a relatively small cross-section and therefore a small form of construction can be formed, wherein the cross-section, however, due to the Torx profiling- can transmit very high torques. In any case, the Torxstab with smaller cross-sectional education than the standard square can transmit at least equal torques, so that a safe operation of the adapter is guaranteed. The drive gear (also called nut), serves for the displacement of at least one driving level and is coupled to the handle handle. The drive gear has the coupling receptacle, wherein the coupling receptacle is designed as Troxaufnahme. Thus, the force is introduced into the drive gear via a Torxverbindung, ie, a Torxstab engages in the Torxaufnahme the coupling receptacle of the drive gear and leads the rotation here.

In particular, it is provided that the edge length of the square holder is greater than the maximum diameter of the Torxstabs. "Edge length" is the measure between two parallel walls of the square socket to understand. The maximum diameter of the Torxstabs arises when the diameter is determined in the region of two opposite star tips of the Torxprofils.

According to a development it is provided that the adapter has a central zone which connects the first connection zone with the second connection zone. The cross-sectional dimension of the central zone is preferably smaller than the maximum outer diameter of the square receiver and larger than the maximum diameter of the Torxstabs. Thus, the adapter thickened in two stages in the direction of the handle handle.

In particular, it is provided that the adapter along its axis of rotation is rectilinear, so that therefore the axes of rotation of square and Torxstab are aligned.

In particular, the connecting element is designed as a continuous Torxstab, thus has the same and also the same dimensioned, continuous Torxprofil on its entire length.

Further, it is advantageous if the grip handle is designed such that its neck diameter is smaller than in handle handle with standardized square (7 mm) is formed. This results in the same power transmission option or even greater torque transmission, a visually elegant appearance and / or a small design.

Figur 1

einen Längsschnitt durch ein Beschlaggetriebe,

Figur 2

eine perspektivische Ansicht des Beschlaggetriebes mit nicht eingesetztem Adapter,

Figur 3

eine der Figur 2 entsprechenden Darstellung,

Figur 4

das Beschlaggetriebe der Figur 2, jedoch mit eingesetztem Adapter,

Figur 5

ein Antriebszahnrad des Beschlaggetriebes,

Figur 6

ein Schnitt durch das Antriebszahnrad entlang Linie VI - VI in Figur 5 und

Figur 7

einen Ausschnitt des Antriebszahnrades im Bereich von dessen Kupplungsaufnahme.

The drawings illustrate the invention with reference to an embodiment and shows:

FIG. 1

a longitudinal section through a fitting gear,

FIG. 2

a perspective view of the fitting gear with not inserted adapter,

FIG. 3

one of the FIG. 2 appropriate representation,

FIG. 4

the fitting mechanism of the FIG. 2 , but with inserted adapter,

FIG. 5

a drive gear of the fitting gear,

FIG. 6

a section through the drive gear along line VI - VI in FIG. 5 and

FIG. 7

a section of the drive gear in the region of the coupling receptacle.

This in FIG. 1 illustrated fitting gear 1 is designed as an expansion gear and especially for double-leaf turning windows without central spar used. It is embedded in the assembly, for example, in the blow bar of the rotary wing and takes due to the special construction a position in which -trotz centrally-sitting handle handle- no Achsversatzausgleich or no inclination of the torque transmission path to the handle handle is necessary.

The fitting gear 1 has a gear housing 2, in which a drive gear 3 (nut) and a coupling gear 11 are rotatably supported about two, spaced apart parallel axes of rotation 4 and 21. The mutually facing ends of two drive rods 39 and 40 protrude into the transmission housing 2 and are guided axially displaceably in it. Depending on the operation of the drive gear 3, the drive rods 39 and 40 are displaced in opposite directions. The actuation of the drive gear 3 by means of a handle handle, not shown, which is coupled by means of a torque transmission path 49 'to the drive gear 3.

Again FIG. 2 can be seen, the transmission housing 2 consists of two mutually coupled housing halves 22, 22 ', which are provided in the interior in each case with a bearing recess 14 and 27 for pivotally mounting the drive gear 3 and the coupling gear 11.

According to FIG. 1 the bearing recess 14 is open-edged, ie, it has an opening lying on the falzseitigen boundary surface 28 of the transmission housing 2, which extends over a circumferential sector of the bearing recess 14 of about 50 °. This makes it possible that the axis of rotation 4 of the drive gear 3 with falzseitigem distance x to the drive rod 39, 40 is located.

From the FIGS. 5 and 6 It can be seen that the drive gear 3 has a circular segment-like flange 3, which is provided with teeth 6 and is surmounted on both sides by a bearing pin 15 which engages in the respective bearing recess 14 of the two housing halves 22, 22 'in the mounted state.

On the gear housing 2, two cuff rails 40 and 41 are set, which cover the drive rods 39 and 40. The drive rod 39 has drive gear recesses 7 and coupling gear recesses 10; the drive rod 40 has coupling gear recesses 12.

The fitting gear 1 operates in the assembled state as follows: If the drive gear 3 is rotated by means of a grip handle, not shown, then the teeth 6 of the drive gear 3 would come with the recesses 7 of the drive rod 39. The displacement of the drive rod 39 causes the coupling gear 11 by entrainment his teeth by means of the coupling gear recesses 10 is rotated, whereby a combing of the teeth of the coupling gear 11 with the coupling gear recesses 12 of the drive rod 40 takes place. In this way, the two drive rods 39 and 40 are moved in opposite directions.

The Figures 2 and 5 It can be seen clearly that the drive gear 3 has a coupling receptacle 44, which according to FIG. 6 - Passed through the bearing pin 15. The coupling receptacle 44 is formed as Torxaufnahme 45, that is, it represents a receiving recess or passage recess whose walls are configured according to a Torxprofil.

In order to perform a coupling of the Torxaufnahme 45 with a handle handle, not shown, is-accordingly FIG. 2 - An adapter 46 is provided which is rotatably coupled with its one end portion 47 with the Torxaufnahme 45 of the drive gear 3 and the other end portion 48 can be coupled with a square standard rod of the handle handle. The handle has this purpose a standard square recess into which a standard square bar is inserted, the other end is inserted into a square receptacle 49, in particular standard square, the adapter 46. The adapter 46 therefore forms a torque transmission path 49 ', with which a rotation of the rotary handle is transmitted to the drive gear 3.

According to FIG. 2 For example, the end region 48 of the adapter 46 has a first connection zone 50, which is designed as the already mentioned square socket 49. The end region 47 of the adapter 46 forms a second connection zone 51, which is designed as Torxstab 52 whose cross-sectional dimensions are matched to the Torxaufnahme 45 of the drive gear 3. It is further provided that the edge length a of the square receptacle 49 is greater than the maximum diameter d of the Torxstabs 52. The maximum diameter is obtained by measuring it between two opposite "tips" of the toroidal Torxprofile. The mentioned Size differences between edge length a and maximum diameter d are easily possible, because by means of the Torxprofile despite a smaller cross-sectional dimension at least an equal, if not greater torque against the aforementioned square arrangement can be transferred.

According to FIG. 2 For example, the adapter 46 has a central zone 53 between the first connection zone 50 and the second connection zone 52, which is cylindrical. Furthermore, the first connection zone 50 has a cylindrical lateral surface. The diameter of the cylindrical lateral surface of the central zone 53 is in FIG. 2 marked as cross-sectional dimension b. This is smaller than the maximum outer diameter of the cylindrical portion of the first connection zone 50 and larger than the maximum diameter d of the Torxstabs 52. Thus, the adapter 46 is formed step-shaped. The axes of rotation of square holder 49 and Torxstab 52 are aligned with each other, ie, the adapter 46 extends in a straight line in the longitudinal direction. The cylindrical lateral surface of the central zone 53 is provided with a circumferential groove 54. Furthermore, the end face 55 of the adapter 46 on a particular one of the sides 56 of the square receptacle 49 has a marking 57 in the form of a radial groove.

To a Torxaufnahme 45 of the drive gear 3 releasing housing opening 58 are diametrically opposite each other two bearing increases 59 and 60 formed on the housing half 22. They serve the displaceable mounting of a U-shaped retaining spring 61. The two legs 62 and 63 of the retaining spring 61 are slidably mounted in slots 64, 65 of the bearing increase 60. Is the adapter 46 with its Torxstab 52 completely inserted into the Torxaufnahme 45 of the drive gear 3 (as well as out of the FIG. 4 As can be seen), the retaining spring 61 is in accordance with its position FIG. 2 in the position according to FIG. 4 displaced, wherein the free ends of the legs 62 and 63 in receiving slots 66, 67 occur, so here occur sections of the two legs 62 and 63 in the circumferential groove 54 of the central zone 53 of the adapter 46 and secure it against slipping out; However, allow a rotational movement of the adapter 46th

Additionally or alternatively, it may be provided that the retaining spring 61 in the unmounted adapter 46, the position according to FIG. 3 occupies, that is, completely inserted into the slots 64, 65 and receiving slots 66 and 67 and that then insertion of the adapter 46 with its Torxstab 52 takes place in the Torxaufnahme 45. One of the circumferential groove 54 upstream, circumferential ramp 68 ensures that the legs 62 and 63 of the retaining spring 61 are spread during insertion and -in the Einschubendstellung- engage in the receiving groove 54.

From the FIG. 7 It can be seen that the drive gear 3 has a Torxaufnahme 45, in which two diametrically opposite star ends of the Torxprofils not arcuate, but flattened (flattening 70) are configured. These flats 70 lead in accordance flattened configuration of the profile of the Torxstabs 52 of the adapter 46 to the fact that the adapter 46 can be inserted into the Torxaufnahme 45 only in two, offset by 180 ° to each other rotational positions. The corresponding rotational position can be seen from the outside with inserted adapter on the basis of the identification 47. As a result, a desired orientation of the adapter 46 is provided in the Torxaufnahme 45, in the correct relation to the orientation of the sides 56th the square holder 49 is and ensures a corresponding handle handling position. Also, this measure allows a clear detection of a right or left stop.

As an alternative to the adapter 46 can be provided that a grip handle in the handle neck has a Torxaufnahme, in which a straight Torxstab is inserted, which engages with its other end in the Torxaufnahme 45 of the drive gear 3. In this embodiment, the usual square arrangement is thus dispensed with. The advantage is that the maximum diameter of Torxstabes used, not shown, even smaller is smaller than the edge distance of a standard square bar. Nevertheless, at least equal torques can be transmitted with a Torxstabanordnung, since due to the provided with six corners star profile of the Torxanordnung large contact areas are created, which can transmit even with small Querschnittsabmessungen- high rotational forces without undue deformations. Another advantage of such an arrangement is that the handle neck of the handle handle can be made relatively small in diameter when there mentioned Torxaufnahme, as this also has a correspondingly small diameter. The grip handle can therefore be made visually slim. This small design not only has visual advantages, but is recommended wherever there is little space available, which is the case, for example, in the area of the beater bar of a two-lobe, no central spar-having window. Preferably, the maximum diameter d ( FIG. 2 ) of the Torx bar 4 mm and is therefore smaller than the edge distance of 7 mm of a standard square bar. Accordingly, the maximum diameter c of the Torxaufnahme 45 ( figure 5 ), which is only slightly larger than the diameter d is to be formed, to allow insertion of the Torxstabs 52 in the Torxaufnahme 45.

Additionally or alternatively, it follows that the drive gear 3 of the fitting gear is very stably ausgestaltbar, since the coupling receptacle 44 has a smaller diameter by their training as Torxaufnahme 45 relative to the standard square socket.

Claims (8)

1. A gear mechanism for fittings (1) for a window, a door or the like, comprising a handling mechanism and a torque transmission adapter having first and second connecting zones (50, 51), wherein the first connecting zone (50) is connected to the handling mechanism and the second connecting zone (51) is connected to a drive gear (3) of the gear mechanism for fittings (1), wherein the first connecting zone (50) is formed as a square socket (49) and the second connecting zone (51) is formed as a TORX rod (52) or the first and second connecting zones (50, 51) are each formed as a TORX rod (52) and wherein the drive gear (3) comprises a coupling socket (44) which is formed as a TORX socket (45).
2. The gear mechanism for fittings according to claim 1, characterized in that the edge length (a) of the square socket (49) is greater than the maximum diameter (d) of the TORX rod (52).
3. The gear mechanism for fittings according to one of the preceding claims, characterized by a central zone (53) which connects the first connecting zone (50) to the second connecting zone (51).
4. The gear mechanism for fittings according to one of the preceding claims, characterized in that the cross-sectional dimension (b) of the central zone (53) is smaller than the maximum outside diameter of the square socket (49) and greater than the maximum diameter (d) of the TORX rod (52).
5. The gear mechanism for fittings according to one of the preceding claims, characterized in that the axes of rotation of the square socket (49) and the TORX rod (52) are aligned with each other.
6. The gear mechanism for fittings according to claim 1, characterized by the formation as a continuous TORX rod, provided that the first and second connecting zones (50, 51) are each formed as a TORX rod.
7. The gear mechanism for fittings according to one of the preceding claims, characterized in that the maximum diameter (d) of the TORX rod (52) is smaller than the edge-to-edge distance of a standardized square rod, said edge-to-edge distance being 7 mm.
8. The gear mechanism for fittings according to one of the preceding claims, characterized in that the socket recess of the handling mechanism is formed as a TORX socket (45).

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