阅读说明：本技术 用于窗户的铰链、包括一组这种铰链的窗户及安装这种窗户的方法 (Hinge for a window, window comprising a set of such hinges and method of installing such a window ) 是由 特克尔·奥伦施莱格 迈克尔·加尔斯加德·霍姆 埃斯本·努德斯特伦·托比亚斯 于 2018-05-07 设计创作，主要内容包括：为了辅助将铰链(210)安装在窗户上,铰链包括安装装置(250),该安装装置包括待布置在窗户的框架上的两个安装板(251、252)。安装装置包括至少一组联接装置(253、254),所述至少一组联接装置构造成与一组铰链(210)部件的其余部件的对应联接装置(263、264)接合。安装装置(250)的联接装置包括至少一个接纳构件(253、254),所述至少一个接纳构件设置在相应的安装板(251、252)上,以通过铰链的其余部件的基本上平行于所述铰链平面的运动而与其余部件的联接装置的相应接合构件(263,264)接合,以在铰链(210)的其余部件与安装板(251、252)之间提供可释放连接。(To assist in mounting the hinge (210) on the window, the hinge comprises a mounting device (250) comprising two mounting plates (251, 252) to be arranged on the frame of the window. The mounting means comprises at least one set of coupling means (253, 254) configured to engage with corresponding coupling means (263, 264) of the remaining parts of the set of hinge (210) parts. The coupling means of the mounting device (250) comprises at least one receiving member (253, 254) provided on the respective mounting plate (251, 252) to engage with a respective engaging member (263, 264) of the coupling means of the remaining components of the hinge by movement of the remaining components of the hinge substantially parallel to the hinge plane to provide a releasable connection between the remaining components of the hinge (210) and the mounting plate (251, 252).)

1. A hinge (110; 210; 310) for a window having a frame (1) and a sash (2) and adapted to define a hinge axis (a) of the window, the hinge comprising a set of hinge parts comprising:

a frame hinge part (130; 230), the frame hinge part (130; 230) having a base plate (135; 235) configured to be connected to a frame member (1a) of the frame;

a sash hinge portion (140; 240), the sash hinge portion (140; 240) having a base plate (145; 245) configured to be connected to a sash member (2a) of the sash;

a mounting device (150; 250; 350), the mounting device (150; 250; 350) being configured to assist the hinge (110; 210) from a supply state into a mounted state in which the base plate (135; 235) of the frame hinge portion (130; 230) is connected to the frame member (1a) and the base plate (145; 245) of the sash hinge portion (140; 240) is connected to the sash member (2 a); and

a plurality of movement supporting parts (190; 290), the plurality of movement supporting parts (190; 290) being connected to respective base plates (135, 145; 235, 245) of the frame hinge part (130; 230) and the sash hinge part (140; 240), and the plurality of movement supporting parts (190; 290) being configured to allow the sash hinge part (140; 240) to assume an angle with respect to the frame hinge part (130; 230),

wherein the base plate (135; 235) of the frame hinge part (130; 230) defines a hinge plane which in the mounted state of the hinge is substantially perpendicular to the hinge axis (a) of the window, the base plate (145; 245) of the sash hinge part (140; 240) being substantially parallel to the base plate (135; 235) of the frame hinge part (130; 230),

it is characterized in that the preparation method is characterized in that,

the mounting device (150; 250; 350) comprises at least one mounting plate (151; 251, 252; 351) and at least one set of coupling means (153, 154; 253, 254; 353, 354), the at least one mounting plate (151; 251, 252; 351) being adapted to be arranged on the frame member (1a) substantially parallel to the base plate (135; 235) of the frame hinge portion (130; 230) in the mounted state, the at least one set of coupling means (153, 154; 253, 254; 353, 354) being configured to engage with corresponding coupling means (163, 164; 263, 264) of the remaining components of the set of components of the hinge (110; 210; 310), wherein the coupling means of the mounting device (150; 250) comprises at least one receiving member (153, 154; 253, 254; 353, 354), the at least one receiving member (153, 154; 253, 254), 154; 253. 254; 353. 354) is arranged on the at least one mounting plate (151; 251. 252; 351) to be coupled with a respective engaging member (163, 164; 263. 264) to engage in a hinge (110; 210) with the at least one mounting plate (151; 251. 252; 351) there is provided a releasable connection therebetween which is,

the first engagement means of the coupling means of the remaining parts of the hinge are bolts (163; 263) provided on the base plate (135; 235) of the frame hinge portion (130; 230) and the first receiving means are slots (153; 253; 353) in the at least one mounting plate (151; 251; 351) adapted to receive the bolts (163; 263) to provide at least temporary retention of the remaining parts of the hinge with respect to the at least one mounting plate (151; 251; 351) and

the second engaging member of the coupling device of the remaining component comprises a shoulder portion (164; 264) and the second receiving member of the coupling device of the mounting device (150; 250; 350) comprises a spring-biased latching element (154; 254; 354), which latching element (154; 254; 354) is provided with an abutment portion (155; 255) to engage with the shoulder portion (164; 264) in the mounted state.

2. Hinge (110; 210; 310) according to claim 1, wherein the spring-biased latching element (154; 254; 354) is connected to the at least one mounting plate (151; 252; 351) by a pivotal connection (159; 259; 359).

3. Hinge (110; 210; 310) according to claim 1 or 2, wherein the spring bias of the latching element (154; 254; 354) is provided by a leaf spring (156; 256; 356) and the latching element (154; 254) comprises a spring engaging portion (157 a; 257a), the at least one mounting plate (252; 351) preferably comprising a spring seat (256a) or a spring engaging protrusion (351 a).

4. Hinge (110; 210; 310) according to claim 3, wherein the base plate (135; 235) of the frame hinge part (130; 230) is provided with a protruding bottom part (165; 265) to interact with the leaf spring (156; 256).

5. Hinge (110; 210; 310) according to any of the preceding claims, wherein the spring-biased latching element (154; 254; 354) comprises a tongue portion (157 b; 257b), the tongue portion (157 b; 257b) serving as a handle for releasing the releasable connection.

6. Hinge (110; 210; 310) according to any of the preceding claims, wherein the spring-biased latching element (154; 254; 354) comprises a guiding portion (157 c; 257 c).

7. Hinge (210) according to any of the preceding claims, wherein the mounting means (250) comprise a first mounting plate (251) and a second mounting plate (252).

8. The hinge (210) of claim 7, wherein the second mounting plate (252) includes a cover portion (258).

9. A hinge (310) according to any one of claims 1 to 6 wherein the mounting means (350) comprises a cover (358), the cover (358) having first and second engagement means (358b, 358c) and the mounting plate (351) is provided with first and second cover engagement protrusions (351b, 351 c).

10. Hinge (110; 210; 310) according to any of the previous claims, wherein the motion bearing (190; 290) of the hinge comprises a linkage mechanism comprising a link, a spring and at least one pickup element to provide the hinge as a telescopic hinge.

11. A window comprising a set of hinges (110; 210; 310) according to any of claims 1 to 10, the window comprising a frame (1) and a sash (2), the frame (1) having a top member, a bottom member and two side members (1a) defining a frame plane, the sash (2) having a top member, a bottom member and two side members (2a), the sash carrying a pane (3) and defining a sash plane, the set of hinges (110; 210) defining the hinge axis (a) of the window.

12. A method of installing a window according to claim 11, the method comprising the steps of:

connecting the at least one mounting plate (151; 251, 252; 351) to the frame (1),

connecting the remaining part of the set of parts of the hinge to the sash (2), an

The coupling means of the remaining components are engaged with the coupling means of the mounting means by moving the remaining components of the hinge substantially parallel to the hinge plane, by engaging the bolt (163; 263) provided on the base plate (135; 235) of the frame hinge portion (130; 230) with the slot (153; 253; 353) in the at least one mounting plate (151; 251; 351) in a first step and allowing the spring biased latching element (154; 254; 354) to engage with the shoulder portion (164; 264) in a second step to obtain a secure engagement in the mounted state.

13. The method according to claim 12, wherein the first step of engaging the coupling means of the remaining components with the coupling means of the mounting device is achieved by first sliding the bolt (163; 263) into the slot (153; 253; 353) and subsequently rotating the base plate (135; 235) of the frame hinge part (130; 230) and the other remaining components of the hinge (110; 210) around the bolt (163; 263).

Technical Field

The present invention relates to a hinge for a window having a frame and a sash, in which window the hinge comprises a set of hinge parts comprising a frame hinge part, a sash hinge part, a mounting means and a number of motion bearings. Furthermore, the invention relates to a window comprising a set of hinges with mounting means, and to a method of mounting such a window.

Background

In general, many kinds of windows may be provided and comprise a more or less complex structure to allow opening of the sash and other functions such as ventilation, while allowing cleaning of the outside of the pane from inside the building. These categories include windows configured to be installed in a pitched roof, one of which is a pivoting roof window in which the hinge axis is at or off center of the window and an overhead roof window that pivots for cleaning by means of an intermediate frame.

By providing a hinge with a specific movement pattern, these requirements can be fulfilled, which in turn makes it possible to establish an overlap between a cover element fastened to the frame and a corresponding cover element fastened to the sash in the closed state of the roof window.

One well proven type of hinge is a pivot hinge, which comprises a guide on the frame hinge part cooperating with a slide rail on the sash hinge part. These pivot hinges are disclosed, for example, in EP 1038083B 1 and EP 1781883B 1 of the applicant and are very versatile in terms of the operating area and adaptation of the components. Examples of roof windows comprising these adapting hinges are shown in the applicant's published european patent applications EP 2770146 a1 and EP 2770149 a 1.

However, since conventional pivoting hinges rely to some extent on frictional forces to operate properly, it is desirable in certain application areas to use alternative configurations of the hinge that provide the desired motion pattern from the linkage mechanism. Conventionally, the use of these hinges, known as so-called telescopic hinges (pantographs hinges), comprising a linkage mechanism is most often known from the field of furniture, but these hinges are also well known for roof windows. Examples of prior art include danish patent No. 114321, us patent No.4,446,597, european patents EP 22657B 1 and EP 89813B 1 of the applicant and co-pending international application WO 2017/076416 a 1.

Mounting a hinge comprising a linkage mechanism may be a challenge, since the frame hinge part and the sash hinge part are inherently connected to each other via the linkage mechanism itself. Subsequently, mounting the sash to the frame may be cumbersome and awkward for one person to dry, considering that during the step of mounting the sash the installer has to hold the sash in place and at the same time secure the hinge. The mounting process is complicated by the limited available space, since the hinge set needs to be positioned between the sash and the frame in a gap that needs to be as small as possible for obvious reasons, thus limiting the freedom of lateral movement, i.e. in a direction perpendicular to the hinge plane defined by the base plates of the frame hinge parts. Furthermore, once the window is installed, it is difficult to remove the window sash without involving more than one person for the same reasons as described above. There is therefore a need for an improved solution for mounting a window, in particular with respect to connecting a hinge to a window frame.

Disclosure of Invention

Against this background, the object of the present invention is to improve the hinge of the type mentioned in the introduction with respect to the overall installation conditions.

In a first aspect, this and other objects are met by providing a hinge for a window having a frame and a sash and adapted to define a hinge axis of the window, the hinge comprising a set of hinge parts comprising: a frame hinge part having a base plate configured to be connected to a frame member of the frame; a sash hinge portion having a base plate configured to be connected to a sash member of a sash; a mounting device configured to assist the hinge from a supply state into a mounting state in which the base plate of the frame hinge portion is connected to the frame member and the base plate of the sash hinge portion is connected to the sash member; and a plurality of motion bearings connected to respective base plates of the frame hinge part and the sash hinge part and configured to allow the sash hinge part to assume an angle with respect to the frame hinge part, wherein the base plate of the frame hinge part defines a hinge plane substantially perpendicular to the hinge axis of the window in the mounted state of the hinge, and the base plate of the sash hinge part is substantially parallel to the base plate of the frame hinge part, as characterized by the features of the characterizing portion of claim 1.

By providing the mounting device with one or more mounting plates to be initially provided on the frame member, a facilitated mounting of the addressed window may be achieved. A hinge comprising a mounting device of this type is therefore advantageous for bringing the hinge from the supply state into the mounting state. The mutual engagement of the coupling means of the remaining parts of the hinge with the coupling means of the mounting means is easily performed while the mutual engagement is only performed in a plane parallel to the plane of the hinge. In this way, no lateral movement is required to achieve the releasable connection. In addition, the use of a prefabricated mounting plate allows for precise mounting each time taking into account position and tolerances. Furthermore, the provision of the mounting plate allows for connection and disconnection without the risk of damaging the various parts of the hinge or any part of the window when the connection and disconnection is repeated. This is because the mounting plate can be configured to allow repeated connection and disconnection of the window without the need to use any penetrating or threaded fastening elements that are introduced into the material of the window itself and that may cause breakage. The coupling device may be configured to eliminate the need for use of loose-proof fastening elements. By avoiding the use of anti-loose fastening elements, the installation of the window is even further facilitated, since the complete installation can be done by one person without having to reach out to reach fastening means such as screws or the like. This type of installation using a mounting plate is particularly suitable when installing a window in a challenging working position, as is often the case for roof windows, for example. The convenient installation process is a great advantage since the window may be in a tilted state and may involve overhead working positions known to cause back and neck injuries. It should be noted that the term "installation of a window" should be understood to include the assembly of the various components that make up or form the window. During installation of the window, the coupling is preferably performed by first sliding the bolt into the slot and then rotating the base plate of the frame hinge portion and the other remaining parts of the hinge about the bolt. The initial engagement of these coupling means is reasonable and assists the installer during installation of the window, since the weight of the sash is taken up by the mounting plate connected to the frame once the coupling has been obtained. The weight of the sash is usually great, since the sash carries not only the remaining parts of the hinge, but also the pane. By forming the second engaging member of the coupling device of the remaining component to comprise a shoulder portion and the second receiving member of the coupling device of the mounting device to comprise a spring-biased latching element provided with an abutment portion to engage with said shoulder portion in the mounted state, in this way a secure engagement of the respective coupling device during mounting is ensured as a reasonable step. Note that in the case of a spring biased latch element arranged to engage with the shoulder portion, a "semi-automatic" connection may be obtained by simply rotating the sash in the closing direction relative to the frame, so that no additional steps or tools are required.

The definitions of "frame" and "sash" should be construed to encompass any structure that meets the requirements for use as a component in an openable window. Although the mounting plate of the mounting device is described as being configured to be arranged on a fixed frame, it is also conceivable to mount the hinge in the opposite way, i.e. to connect the mounting plate to the movable sash or other movable frame and to arrange the remaining parts of the set of hinge parts on the frame. The coupling process is then carried out in a manner corresponding to that described.

The terms "the remaining parts of a set of hinge parts" and "the remaining parts of a hinge" are used interchangeably. In this context, the term "remaining components of the hinge" includes any components that form part of the hinge excluding the mounting plate or components associated with the mounting plate.

In a presently preferred embodiment, the spring biased latch element is connected to the at least one mounting plate by a pivotal connection. This provides the following advantageous and simple means: this allows the second engagement member to be coupled to the second receiving member during installation while the second engagement member is able to provide the desired coupling releasability.

The spring biasing of the latching element may in principle be realized in any suitable manner; however, a mechanically reliable and simple solution is obtained by providing the spring bias by means of a leaf spring and a latch element having a spring engaging portion. To this end, the mounting plate may include a spring seat for receiving an end of the leaf spring. In a preferred refinement of this embodiment, the base plate of the frame hinge part is provided with a raised bottom part for interaction with the leaf spring.

In another presently preferred embodiment, the spring biased latch element includes a tongue portion that serves as a handle for releasing the releasable connection.

By providing the spring biased latching element with a guide portion, an easier mounting is obtained.

In yet another presently preferred embodiment, the mounting device includes a first mounting plate and a second mounting plate. This allows a more flexible configuration of the mounting means and the related details.

As a further development of yet another presently preferred embodiment, the second mounting plate comprises a cover portion. In this way a safe and aesthetically pleasing protection of the components behind the cover part is obtained.

The principles underlying the present invention are generally applicable to all kinds of hinges; however, it is particularly advantageous to provide the hinge as a telescopic hinge if the motion bearing part of the hinge comprises a linkage mechanism with a link, a spring and at least one pickup element.

In a second aspect, a window comprising a set of hinges is provided, and in a third aspect, a method of installing such a window is provided.

Other presently preferred embodiments and other advantages will be apparent from the following detailed description and dependent claims.

Drawings

The invention will be described in more detail below by means of non-limiting examples of embodiments and with reference to schematic drawings in which:

FIG. 1 is a perspective view of a prior art window;

FIG. 2 is an exploded front view of the hinge in the first embodiment of the present invention, shown in a position corresponding to an initial step of the installation process;

figures 3 to 6 are perspective views of details of the hinge in the first embodiment of the invention viewed from different angles;

FIG. 7 is a view corresponding to FIG. 2 of a hinge in a second embodiment of the invention;

figures 8, 9, 10a, 10b, 11a, 11b, 12a, 12b, 13a, 13b, 14a and 14b are all views showing details of a hinge in a second embodiment of the invention;

figures 16 and 16 show details of a hinge in a third embodiment of the invention; and

fig. 17 to 22 show perspective views from different angles of detail of a hinge in a fourth embodiment of the invention.

Detailed Description

Hereinafter, the hinge and various embodiments of the window of the present invention will be described in further detail with reference to the window having the prior art hinge 10' shown in fig. 1. Such a hinge 10 'and other parts of a window according to the invention, which are also applicable to windows, are described in the applicant's published european patent applications EP 2770146 a1 and EP 2770149 a1, to which reference is expressly made. It will therefore be appreciated that the hinge and mounting arrangement according to the present invention replaces the prior art hinge 10' located on one or both sides of the window.

In a manner known per se, the window comprises a frame 1 and a sash 2, which sash 2 carries a glazing in the form of a pane 3. The window is intended to constitute a surface inclined with respect to the horizontal, in particular with respect to the roof, and the window is referred to as roof window in the following. At a position between the top and the centre of the window there is a hinge connection between the frame 1 and the sash 2. The hinge connection in fig. 1 comprises a set of two prior art hinges, of which one hinge 10' is visible. The frame 1 and the sash 2 are each formed by four members, of which one frame side member 1a and one sash side member 2a are indicated. The sash 2 is openable relative to the frame 1 when the sash 2 is movable from a closed position, in which e.g. the sash side member 2a is substantially parallel to the frame side member 1a, to an open position, in which the sash side member 2a forms an angle relative to the frame side member 1 a. During this movement the sash 2 rotates about the hinge axis a at the hinge connection. As indicated in fig. 1, the hinge axis a is located between the central axis and the top of the roof window, preferably in the interval 1/3 to 2/3 of the distance between the central axis and the top, most preferably substantially at 1/2 of the distance between the central axis and the top. Other positions of the hinge axis are of course conceivable, for example in the centre of a roof window. The corresponding operation of the window as described above and the contents from there also apply to the applicant's co-pending international application published as WO 2017/076416 a 1. Common to the types of hinges that may be used in such windows is the provision of a plurality of motion bearings in the hinge, as described further below.

In order to protect the interior and components of the window itself and to ensure a weather-proof transition towards the surrounding roof part, the roof window comprises a cover comprising a protective member (not shown), a cladding and covering element, wherein the frame-side covering element 1b and the sash-side covering element 2b of the cladding and covering element are shown.

The user starts operating the operating device of the window from the closed position. The operating device typically comprises a handle (not shown) connected to the sash bottom member and/or to an operating and locking assembly comprising a ventilation flap at the sash top member which interacts with a striker plate on the frame top member under the action of a locking mechanism. The hinge 10 exerts a moment on the sash 2 and, in combination with the force exerted by the user operating the operating device and therefore with the moment exerted by the user, the moment generated by the weight of the sash 2 and the pane 3, together with any friction present, is overcome. In summary, the opening operation requires moving the sash 2 from the closed position towards the open position as shown in fig. 1, wherein the sash plane forms an opening angle with respect to the frame plane. Closing the window from the open position requires a reverse movement of the sash 2. The sash 2 can be positioned in a number of arbitrary open positions in which the sash 2 remains stable relative to the frame 1. The sash 2 can also be rotated substantially through 180 deg. to allow cleaning of the outside of the pane 3 from the inside of the building in which the roof window is installed.

Referring now to fig. 2 to 6, a first embodiment of the hinge 110 according to the present invention will be described in detail.

The terms "upper", "lower", "upwardly", "downwardly", "top", and "bottom" when referring to the drawings are determined with respect to how the drawings are presented, i.e., with the frame disposed in a recumbent position with respect to the upwardly facing cover element in the drawings. The front view is a view from the hinge and looking towards the frame. Thus, the rear view is a view from the frame towards the hinge. The longitudinal direction is a longitudinal direction along the length of the frame member, if no other description is mentioned. It will be appreciated that the arrangement shown in the horizontal orientation is not an orthogonal orientation, as the window is mounted in a pitched roof.

In fig. 2, the hinge 110 is shown in a position corresponding to an initial step of the installation process. This position also corresponds to the feeding condition of the hinge according to the invention. The hinge 110 includes a frame hinge portion 130 and a sash hinge portion 140, the sash hinge portion 140 being configured to assume an angle with respect to the frame hinge portion 130. The hinges 110 form part of a set of hinges, wherein the frame hinge part 130 of each hinge 110 is configured to be connected in mounted state to the frame side member 1a of the frame 1 of the roof window, at an area selected to provide a desired position of the hinge axis a, by means of a mounting device described in further detail, and the sash hinge part 140 is correspondingly configured to be connected to the sash side member 2 a.

As in the prior art hinge 10', the base plate 135 of the frame hinge part 130 defines a hinge plane which in the mounted state of the hinge is substantially perpendicular to the hinge axis a of the window, and the base plate 145 of the sash hinge part 140 is substantially parallel to the base plate 135 of the frame hinge part 130. Further, the hinge 110 includes a plurality of movement bearings 190, the plurality of movement bearings 190 being connected to the respective base plates 35, 45 of the frame hinge portion 130 and the sash hinge portion 140 and configured to allow the sash hinge portion 140 to assume an angle with respect to the frame hinge portion 130. In the particular embodiment shown and described, the motion bearing 190 comprises a linkage mechanism including a link, a spring, and at least one pickup element to provide the hinge as a telescopic hinge. For a description of the components and operation of such a telescopic hinge, reference is made explicitly to the embodiment shown and described in relation to fig. 2 to 5 of WO 2017/076416 a1 mentioned above. In principle, however, the basic principle of the invention also applies to a conventional pivoting hinge comprising an arc-shaped guide portion on the frame hinge portion to receive an arc-shaped sliding portion on the sash hinge portion.

The mounting means, generally indicated 150, comprise a mounting plate 151, which mounting plate 151 is shown in a position in which the mounting plate 151 is positioned on the frame side member 1a in the mounted state of the hinge by fastening means, which may for example be pins or bolts (not shown in this embodiment, refer to the second embodiment) or any type of threaded fastening means. The pegs are configured to be disposed in corresponding holes 173, 174 in the mounting plate 151. Preferably, the pegs are disposed such that their ends are flush with the outer surface 151a of the mounting plate 151 to avoid collision with the components of the frame hinge portion 130. The outer surface 151a is a surface of the mounting plate 151 that faces away from the frame-side member 1a in the mounted state, and the inner surface 151b is a surface that faces the frame-side member 1a in the mounted state. The base plate 145 of the sash hinge portion 140 is provided with a corresponding peg (not described in detail).

The remaining parts of the hinge 110 shown in fig. 2, i.e. the base plate 135 of the frame hinge portion 130, the motion support part 190 and the sash hinge portion 140, 145 of the sash hinge portion, are in a position corresponding to the sash (not shown) in the initial step of installation, i.e. substantially vertical. This position also corresponds to the feeding condition of the hinge on the window, in which these remaining parts are connected to the sash. Thus, in the feeding state, only the mounting plate of the hinge (or a plurality of mounting plates in the case of more than one) is fastened to the frame.

The first embodiment, the second embodiment (see fig. 7), and other embodiments are the same as the initial steps. Elements having the same or similar function as the elements in the first embodiment are provided with the same reference numerals, to which 100, 200, 300 and 400 are added accordingly. Therefore, referring now collectively to fig. 2 and 7, the operating principle of the present invention is based on the following basic features, and is described only with reference to the first embodiment and the second embodiment.

A mounting device 150; 250 has one or more mounting plates 151; 251. 252 to be substantially parallel to the frame hinge portion 130 in the installed state; 230, a substrate 135; 235 are arranged on the frame member 1 a. At least one set of coupling means 153, 154; 253. 254 is configured to engage with the hinge 110; 210, the corresponding coupling devices 163, 164 of the remaining components of the set of components; 263. 264 are engaged. A mounting device 150; 250 comprises at least one receiving member 153, 154; 253. 254, the at least one receiving member being disposed on the at least one mounting plate 151; 251. 252 to engage with respective engaging members 163, 164 of the coupling means of the remaining parts of the hinge by movement of the remaining parts of the hinge substantially parallel to the plane of said hinge; 263. 264 to engage, at hinge 110; 210 with at least one mounting plate 151; 251. 252 provides a releasable connection therebetween.

In all of the illustrated embodiments, the first engagement member of the coupling means of the remaining parts of the hinge is provided at the frame hinge portion 130; 230, a substrate 135; a bolt 163 on 235; 263 and the first receiving member is located on the mounting plate 151; 251 adapted to receive a bolt 163; 263, slot 153; 253. preferably, the remaining parts of the hinge are moved downwardly from the position shown in figures 2 and 7, and the bolts 163; 263 first slide into slot 153; 253. Subsequently, the frame hinge portion 130; 230, a substrate 135; 235 and hinge 110; the other remaining components of 210 are around bolt 163; 263 rotate to provide the remaining components of the hinge relative to the at least one mounting plate 151; 251 at least temporarily.

It should be noted that the respective planes of the mounting plate and the base plate of the frame hinge portion and the base plate of the sash hinge portion remain substantially parallel throughout the movement, thereby avoiding interference with the hinge movement caused by the frame hinge portion 130; 230, a substrate 135; 235, and a vertical lateral movement of the hinge plane.

After the coupling means of the remaining hinge parts and the coupling means of the mounting device have been engaged as described above, the window sash is in the "safe position" because the weight of the sash is transferred via the mounting device to the frame. The installer therefore does not operate in principle but leaves the window at least temporarily.

However, if the second coupling member is also present, the increased safety against unintentional release is increased.

According to the invention, and as shown in connection with the first and second embodiments, the second engagement member of the coupling device of the remaining components comprises a shoulder portion 164; 264, and mounting the device 150; 250 includes a spring-biased latching element 154; 254, the latch element 154; 254 is provided with an abutment portion 155; 255 to engage with the shoulder portion 164 in the installed condition; 264 are engaged.

As shown, a spring biased latch element 154; 254 are connected here to the mounting plate in question, the mounting plate 151 in the first embodiment and the second mounting plate 252 in the second embodiment are in a pivotal connection 159; 259 (iii).

A latch element 154; 254 is exclusively biased by the leaf spring 156; 256, and latching element 154; 254 includes a spring engaging portion 157 a; 257 a. As described in detail only in the second embodiment, the leaf spring 256 is received in the spring seat 256a of the second mounting plate 252. Other means of accommodating the leaf spring are conceivable.

A spring biased latch element 154; 254 ensures a simple, accurate and reliable secondary coupling between the remaining hinge parts and the mounting means, so that the releasable connection can be achieved in a "semi-automatic" step when the sash is rotated relative to the frame during mounting.

To enable the engagement to be released in an easy manner, a spring-biased latching element 154; 254 include a tongue portion 157b in the particular first, second and third embodiments; 257b, tongue portion 157 b; 257b serve as handles for releasing the releasable connection.

A latch element 154; 254 is the presence of the pilot portion 157 c; 257 c. A guide portion 157 c; 257c are particularly useful during installation, i.e. during actuation of the releasable connection, and when the connection is released.

Although the releasable connection is thereby achieved without the need to perform an additional step of fastening the sash to the frame, it is possible to incorporate additional locking means in the hinge or mounting arrangement. It is conceivable to utilize a part of the window covering for locking the set of hinge parts relative to each other in the mounted state of the hinge. Examples of locking means are conceivable to the person skilled in the art.

One difference between the first embodiment and the second embodiment is that: in the second embodiment, the mounting device 250 includes the first mounting plate 251 and the second mounting plate 252 described above. Referring also to the above description, it is apparent that a first receiving member 253 is located in the first mounting plate 251 and a second receiving member in the form of a spring-biased latch element 254 is associated with the second mounting plate 252.

Another difference is that the second mounting plate 252 includes a cover portion 258 to ensure that the operating components of the mounting device are hidden from the user. In principle, the only exception is the tongue portion 257b, which tongue portion 257b serves as a handle for releasing the connection, which is accessible to the user. Note that the provision of a cover portion is also conceivable in connection with the first embodiment.

Fastening of the respective mounting plates 251, 252 to the frame-side member is ensured in substantially the same manner as the one-piece mounting plates of the first embodiment, i.e., via the pins 271a, 271b on the first mounting plate 251 and the pins 272a, 272b on the second mounting plate 252. Only the holes 273, 274 for the pegs 271a, 271b in the first mounting plate 251 are shown. For example, it is conceivable to form the second mounting plate 252 as a single piece as a molded part of a suitable plastic material, which includes the cover portion 258 and the pegs 272a, 272 b.

Referring now to fig. 15 and 16, details of a third embodiment of a hinge, generally designated 310, are shown. Only the differences with respect to the first and second embodiments will be described in detail.

As in the previously described embodiment, the hinge 310 includes a mounting arrangement 350, the mounting arrangement 350 including a mounting plate 350, a first receiving member in the form of a slot 353 being provided in the mounting plate 350. A second receiving means in the form of a latch element 354 is also provided.

A spring 356 for biasing the latch element 354 extends from the latch element 354 below the latch element 354 to a hook portion at a spring engaging protrusion 351a on the mounting plate 351 a.

A cover 358 is also provided, the cover 358 being configured to be connected to the mounting plate 351 by means of first and second engagement means 358b, 358c to engage with first and second cover engagement protrusions 351b, 351c on the mounting plate 351. Further, it is apparent that the cover 358 has a first spring abutment portion 358a and a second spring abutment portion 358 d.

In more detail, reference is first made to fig. 4 and 8, in which the connection of the frame-side and sash-side covering elements 1b, 2b to the respective hinges 110, 210 is by means of snap connections 160, 170; 260. 270, respectively. The snap connection generally comprises a snap anchor fastened to the cover element 1b, 2b and a retaining clip formed in the associated hinge part. Advantageous forms of the clip anchoring portion will be described in detail below with reference to fig. 15 to 20.

In the first embodiment, it is noted that the snap connection 170 for connecting the cover member 1b to the hinge 110 is located on the mounting plate 151. In the second embodiment, a snap connection 270 for connecting the cover element 1b to the hinge 210 is located on the base plate 235 of the base plate 230.

In the following, it will be described how the snap connection 470 is achieved by introducing the snap anchor 80 connected to the covering element 1b into the retaining clip 90 connected to the hinge generally indicated 410.

The snap anchor 80 is typically pre-mounted on the cover element 2b, 1b and after mounting the hinge 410 the cover element may then be snapped into place. Referring back to fig. 1, where fig. 1 also shows how the frame-side and sash-side covering elements 1b, 2b interact with each other, it is noted that the movement pattern of the hinge allows the sash-side covering element 2b to be retracted from its position under the frame-side covering element 1b during the opening movement of the sash 2 relative to the frame 1, and conversely allows the sash-side covering element 2b to be inserted under the frame-side covering element 1b at the final stage of the closing movement.

Referring now to fig. 17-22, detailed views of the snap connection 470 are shown. Only the snap connection 470 of the frame hinge portion of the hinge 410 will be described. Typically, the snap connection of the sash hinge parts may be identical. In this manner, the same snap anchor 80 may be used on any of the retention clips 90. Thus, the snap anchor 80 is connected to the covering device 1b, 2b, and the snap anchor 80 is configured for being releasably connected directly to a respective retaining clip 90, which retaining clip 90 is integral with the hinge 10 and arranged to receive the respective snap anchor 80.

Each retaining clip 90 includes a receiving portion 91 and an anchor engagement portion 92. Here, the receiving portion 91 of the retaining clip 90 is generally U-shaped and includes two opposing bearing surfaces 93, the two opposing bearing surfaces 93 extending between respective upper end surfaces 95 and the anchor engagement portion 92. The introduction of the snap anchor 80 into the retaining clip 90 is facilitated if at least one of the opposing surfaces 93 is provided with a rounded edge 94 at the transition between the respective upper end surface 95 and the bearing surface 93. Further, the retaining clip 90 has a front side 90a and a rear side 90 b.

In the illustrated embodiment, the anchor engagement portion 92 of each retention clip 90 is formed as an offset portion that includes at least one side surface 96 and a lower end surface 97. Here, there are two symmetrically arranged side surfaces 96 terminating in a lower end surface 97, and the offset portion has a front surface 98a, a rear surface 98b and an inclined upper surface 99.

Turning now to a preferred embodiment of the snap anchor with further reference to fig. 15-20, the snap anchor 80 comprises a top surface 85, a guiding portion 81 and an engaging portion 82, the top surface 85 being configured to abut against a lower side of the respective cover element 1b, 2 b.

The guide portion 81 of the snap anchor 80 comprises two opposite guide surfaces 83 to interact with two opposite bearing surfaces 93 of the receiving portion 91 of the retaining clip 90. To facilitate the mounting process, each guide portion 81 may be provided with a rounded lower edge 81a as shown. Furthermore, and in particular to improve the retention of the snap anchor 80 in the retaining clip 90, projecting side wall portions 81b are also provided on both sides of the guide portion 81.

The engagement portion 82 includes a tongue 88 and two legs 87, the two legs 87 extending from the top surface 85 of the snap anchor 80 and intersecting at a lower point 87a such that a slot 89 is formed between the legs 87 and the tongue 88. In the illustrated embodiment, the tongue 88 is integrally formed with the guide portion 81 of the snap anchor 80, and the tongue 88 has a central aperture 88 a. The central aperture 88a is present to facilitate the manufacturing process.

In the mounted state, the engagement between the engagement portion 82 of the snap anchor 80 and the anchor engagement portion 92 of the retaining clip 90 is performed by the slot 89 of the engagement portion 82 of the snap anchor 80 surrounding the anchor engagement portion 92 of the retaining clip 90.

In the installed condition, the rear surface 88b of the tongue 88 abuts the front surface 98a of the biasing portion of the anchor engagement portion 92 of the retention clip.

The leg 87 of the clip anchoring portion 80 is preformed with an offset in a direction away from the tongue 88.

Furthermore, the snap anchor 80 comprises at least one resilient arm 86, here two resilient arms 86, said at least one resilient arm 86 being connected to the top surface 85 of the snap anchor 80 at a transition portion 86a and having a free end 86 b. As shown, in the illustrated embodiment, the resilient arms 86 are located at a lower elevation than the top surface 85.

When the cover members 1b, 2b to which the clip anchor 80 has been connected are mounted, the clip anchor 80 is introduced into the retaining clip 90 as indicated above and moved downward in the receiving portion 91. To effect the releasable connection, the engagement portion 82 is moved further downwardly until the lower portion of the slot 89 is below the lower end surface 97 of the biased portion of the anchor engagement portion 92.

In a snap connection, a slight clearance is required to allow the slot 89 of the engagement portion 82 of the snap anchor 80 to be guided over the anchor engagement portion 92. Furthermore, the inevitable tolerances in the components of the hinge, including the retaining clip 90 and in the snap anchor 80 itself, advantageously incorporate resilient means into the connection. Such resilient means may take any suitable form, but the clearance and any tolerances required here are accommodated by providing resilient arms 86 at the top surface 85 of the snap anchor 80. Once the engagement portion 82 has been engaged with the anchor engagement portion 92, the free end 86a of the elastic leg 86 contacts the corresponding upper end surface 95 of the retaining clip 90. When the resilient leg 86 is bent, the relative movement will in turn pull the leg 87 upwards and thereby ensure abutment between the lower point 87a and the lower end surface 97 of the anchor engagement portion 92 of the retaining clip 90.

In the mounted state, and in the event of a pulling force, such as mechanical forces when maneuvering a window or due to wind loads, acting on the associated cover element, the configuration of the snap anchor 80 will support the snap fit and prevent unnecessary release from the retaining clip 90 of the hinge 10.

As a first measure to keep the snap engagement, this is obtained by the fact that: the tensile load transmitted via the symmetrically arranged leg portions 87 generates a substantially radial reaction force having a position defined by the radii of curvature of the anchor engagement portion side surfaces 96 and the lower end surfaces 97 in the offset portion of the anchor engagement portion 92 as the center of the reaction force, thereby reducing the moment-induced stress to an absolute minimum while leaving only the tensile stress in the leg portions 87 and the lower points 87 a.

Another factor that helps force the snap engagement in the installed state is the configuration of the legs 87 with a pre-formed offset to force the legs 87 as close as possible to the center of the snap anchors 80. In this way, the respective lines of action of the pulling force acting substantially centrally in the snap anchor 80 on the one hand and the reaction force between the leg 87 and the lower point 87a and the anchor engagement portion 92 on the other hand will be located close to each other and, therefore, the resulting moment will be minimized. Optimally, the lines of action coincide.

Finally, the stability of the snap anchor 80 in the retaining clip 90 and thus in the associated covering element 1b is provided by a suitable arrangement of abutment surfaces between the rear side of the leg 87 and the front side 90a of the retaining clip 90 and between the protruding side wall portion 81b of the guide portion 81 and the rear side 90b of the retaining clip 90. In the most preferred configuration, the abutment surfaces are all planar and parallel to each other; however, this may be difficult to achieve in practice due to practical considerations, for example, during molding of the snap anchor 80. However, sufficient stability is also obtained in the case where only opposing abutment surfaces are present.

Release of the snap engagement is particularly easy if it is desired for some reason to detach the covering element from the hinge, since the snap anchor 80 as in the illustrated embodiment comprises a catch portion 84 formed at the end of the leg 87 opposite the top surface 85.

The connection between the snap anchor and the cover element 1b, 2b can in principle be realized in any suitable way, including the introduction of fastening elements, such as screws or rivets, into openings in the top surface of the snap anchor. Such a rivet may be, for example, a blind rivet or a pop rivet on the cover element 1b, 2b, which rivet is also provided with an external thread to engage with an opening in the snap anchor. Alternatively or additionally, the snap anchor can be connected with the covering element 1b, 2b by an adhesive connection, which renders the presence of fastening means such as screws or rivets superfluous, and the snap anchor can be said to be integral with the covering element. As a further alternative, the snap-on anchor may be connected to the covering element as described in WO2018/077367 a1 of the applicant's publication.

It should be understood that the locking and mounting may vary depending on the particular installation and the particular hinge. The hinge with mounting means described may also be adapted to any window, including any sloping roof window and any size exterior wall window. There are also some different shapes possible when using a hinge as described.

It should be noted that the above description of preferred embodiments is intended to be exemplary only, and that those skilled in the art will recognize that many changes may be made without departing from the scope of the claims.

List of reference numerals

1 frame

1a frame side Member

1b frame covering element

2 Window sash

2a sash side member

2b sash covering element

3 pane glass

10' hinge (prior art)

110 hinge (first embodiment)

130 frame hinge part

135 base plate

140 window sash hinge part

145 base plate

150 mounting device

151 mounting plate

151a outer surface

151b inner surface

Set of coupling means of the mounting device:

153 first receiving member/slot

154 second receiving member/latching element

155 abutting portion

156 leaf spring

157a spring engagement portion

157b tongue portion 1

157c guide part

159A pivotal connection

Coupling of the remaining parts of a set of hinge parts:

163 first engaging member/bolt

164 second engagement member/shoulder portion

165 raised bottom portion

173 holes for pegs in mounting plate

174 holes for pegs in mounting plate

160 buckle connection (sash hinge)

170 buckle connection (frame hinge part)

190 motion bearing

210 hinge (second embodiment)

230 frame hinge part

235 base plate

240 window sash hinge part

245 base plate

250 installation device

251 first mounting plate

252 second mounting plate

Set of coupling means of the mounting device:

253 first receiving member/slot

254 second receiving means/latching element

255 abutting part

257a spring engagement portion

257b tongue portion

257c guide part

258 cover part

259 pivotal connection

Coupling of the remaining parts of a set of hinge parts:

263 first joint member/bolt

264 second engagement member/shoulder portion

265 raised bottom portion

271a first mounting plate

271b pins on the first mounting plate

272a pins on the second mounting plate

272b pins on the second mounting plate

273 holes in mounting plate for the pegs 271a

274 holes for the pegs 271b in the mounting plate

260 snap connection (sash hinge part)

270 snap connection (frame hinge part)

290 moving support part

310 hinge (third embodiment)

350 installation device

351 mounting plate

351a spring engaging projection

351b first cover engagement projection

351c second cover engagement projection

353 first receiving member/slot

354 second receiving member/latching element

358 cover

358a first spring abutment

358b first engaging means

358c second engaging means

358d second spring abutment

359 pivoting connection

Alpha hinge axis

410 hinge (fourth embodiment)

470 snap connection

80 snap anchor

81 guide part

Rounded lower edge of 81a guide portion

81b guide part

82 engaging part

83 guide surface

84 gripping portion

85 top surface

85a opening

86 elastic arm

86a transition portion of resilient arm

86b free ends of resilient arms

87 leg part

87a lower point

88 tongue

88a aperture in tongue

88b tongue rear surface

89 Slot

90 holding clip

90a front side of retaining clip

91 receiving part

92 anchoring engagement portion

93 bearing surface

94 rounded edge

95 upper end surface

96 side surface of the anchor engaging portion

97 lower end surface of the anchor engaging portion

98a front surface of the offset portion

98b rear surface of the offset portion

99 inclined upper surface