CA2940640A1 - A panel system and a panel with a supporting member - Google Patents

Abstract

A panel system comprising: a first panel ; a second panel; a lower profile and an upper profile which are substantially parallel and between which the first and the second panels can be placed one after the other and in parallel with each other, and to which the first and the second panels are connected for opening and/or moving. The panel system further comprises a supporting member which is fastened to the first panel and placed at the lower profile, separate from the lower profile. For supporting the first panel, the supporting member is configured to engage the second panel. In an example, the supporting member is forked or comprises two substantially parallel protrusions. The sup-porting member may be configured to move inwards and outwards again.

Description

A PANEL SYSTEM AND A PANEL WITH A SUPPORTING MEMBER
Field of the invention The solution to be presented relates to a panel system. The solution to be presented also relates to a panel for a panel system.
Background of the invention Various panel systems may be placed in connection with a building, for example in connection with a balcony or a terrace of the building. In many cases, the panel system comprises several panels made of glass or a similar material and placed preferably one after the other. Panel systems may also be installed inside a building, for example as walls.
The panel system typically comprises an upper profile and a lower profile which are used as guide tracks to receive one or more hinge members and/or guide members, to which the panel is mounted or attached. The hinge member or guide member is either stationary or movable with the panel along the upper or lower profile. The panel may be movable along the guide tracks by means of said hinge member or guide members. It is typically moved manually.
The upper and lower profiles are typically horizontal and fastened to e.g. the structures of the building. The lower profile may be placed on the floor level or higher than that, e.g. on top of a railing. The panel can be opened and closed by applying one or more hinge members, by which the panel is pivoted about a vertical rotation axis. Said openable panel may further com-prise one or more guide members, which keep the panel closed and which are allowed to come out of the upper or lower profile to make it possible to open the panel. The upper or lower profile may comprise an opening, via which the guide member passes, or the guide member can be lifted off e.g.
the lower profile.
The hinge members may comprise a locking element, by means of which the panel is locked to the hinge member of the adjacent panel, the upper profile

2 or the lower profile, when the panels are in the open position and next to each other. Two or more panels may be opened and placed against each other in a bundle, whereby a free opening is formed in the panel system, for example for ventilation or passage.
The lower profile may also be embedded in a substantially horizontal surface, floor, support, plane, or the like in such a way that the hinge member and/or guide member placed in the lower profile is placed lower than the level of the surface. In this case, the guide member in the openable panel has to be lifted up, or there is no guide member in said panel. Thus, for opening the panel, it is also necessary to open the guide member, or in the latter case the panel is unstable because of the missing guide member.
Brief summary of the invention The panel system according to the solution is presented in claim 1. The panel for the panel system according to the solution is presented in claim 14.
The presented solution can be applied in the panel systems presented above. The panel system according to the solution is installable in a building, for example in connection with a balcony, a terrace, a shelter, or a roof. The panel system can also be placed in connection with a terrace, a shelter, or a roof separate from a building, for example as wall structures for a roof struc-ture. In an example, the system comprises several panels made of glass or a similar material that is particularly transparent.
In the presented solution, the opening in the lower profile, and/or the guide member provided in the panel and passing through the opening, are redun-dant. At the same time, this enables the embedding of the lower profile.
The supporting member according to the presented solution makes it possi-ble to support one corner of the glass panel, particularly one lower corner of the same, without applying a guide member placed in the lower profile. In particular, it is the lower corner adjacent to the vertical edge which is moved laterally away from the lower profile when the panel is opened.

3 By means of the supporting member, the panel which is substantially rectan-gular can be supported at its fourth corner as well. Thus, the two upper cor-ners of the panel may be supported to the upper profile, for example by means of a hinge member and a guide member, one lower corner is support-ed to the lower profile, for example by means of a hinge member, and the other lower corner is supported to the adjacent panel by means of said sup-porting member.
It is an advantage of the supporting member that said supporting member can be used to support the panel to the adjacent panel, particularly to the hinge member of the adjacent panel.
By means of the supporting member, forces effective on the panel can be distributed and also transmitted by the hinge member of the adjacent panel to the lower profile. An advantage is the distribution of the support of the panel.
It is an advantage that vibration, swaying or other unnecessary movement of the panel is prevented.
The panel system according to the presented solution comprises: a first panel that is openable and/or movable; a second panel that is openable and/or movable; a lower profile and an upper profile which are substantially parallel and between which the first and second panels are placeable one after the other and in parallel, and to which the first and second panels are connected for opening and/or moving. The panel system further comprises a supporting member which is fastened to the first panel and placed in the first panel at the lower profile, separate from the lower profile, the supporting member being configured, for supporting the first panel, to engage the second panel in a detachable way.
In an example, the supporting member comprises a frame and a supporting element as an extension to the frame, equipped with a recess for a part of the second panel, for engaging the second panel.
In an example, the supporting element is forked or comprises two substan-tially parallel protrusions, between which said recess is formed.

4 In an example, the supporting member is fastened to the first panel in a mov-able way so that the supporting member can be shifted inwards for discon-necting it from the second panel, and be shifted outwards again.
The panel according to the presented solution, comprising the above described supporting member, is intended for use in the above described panel system.
Brief description of the drawings In the following, the presented solution will be described in more detail with reference to the appended figures.
Figure 1 shows a front view of a panel system according to the example which applies the panel system according to the solution and in which all the panels are closed, parallel, and placed one after the other.
Figure 2 shows the example of Fig. 1 seen from the end.
Figure 3 shows a panel system according to the example, with one panel opened.
Figure 4 shows a cross-sectional view of a lower profile according to an example, applied in the panel system of Fig. 3.
Figure 5 shows the panel system according to Fig. 3, with all the panels closed.
Figure 6 shows a supporting member according to an example, applicable in the panel system of Fig. 3 and Fig. 5.
Figure 7 shows the supporting member of Fig. 6 placed in the panel sys-tem of Fig. 3 and Fig. 5.

Figure 8 shows a supporting member according to another example, applicable in the panel system of Fig. 3 and Fig. 5 and placed in the panel system of Fig. 3 and Fig. 5.

5 Detailed description of different embodiments of the invention In Figs. 1 to 8, the same or corresponding elements are indicated with the same reference numerals.
Figures 1 and 2 show an example of a panel system and a panel for the same, in which a supporting member according to the presented solution can be applied.
The panel system comprises two or more panels 1 and 2. When closed, the panels are preferably parallel and placed one after the other, whereby they constitute a wall or a window, or an openable passage.
The panel system comprises a lower profile 5 and an upper profile 4 which are parallel, spaced from each other and placed on top of each other in the vertical direction. The panels 1, 2 are placed between the lower profile 5 and the upper profile 4 so that the panels are in an upright position. The two opposite vertical edges of the panel 1, 2 are vertical, and the upper and lower edges of the panel are horizontal. The lower profile 5 is fastened to a railing or a suitable surface, or is embedded in it, for example in the floor. The upper profile 4 is mounted on e.g. the ceiling or another suitable structure.
In an example and Fig. 1, the panel 2 is stationary and not movable along the upper and lower profiles 4, 5. The panel system may comprise two or more stationary panels which can be opened. However, the panel 2 can be opened in such a way that it pivots about a vertical rotation axis X1. The rotation axis X1 is perpendicular to the longitudinal directions of the upper and lower pro-files 4, 5. Further, said rotation axis X1 is placed close to one vertical edge of the panel 2.
A hinge member 22 is fastened to the upper edge of the panel 2 and placed inside the upper profile 4, allowing the panel 2 to be opened. The rotation

6 axis X1 extends via the hinge member 22. The hinge member 22 may be locked to the upper profile 4.
A hinge member 23 is fastened to the lower edge of the panel 2 and placed inside the lower profile 5, allowing the panel 2 to be opened. Said rotation axis X1 passes through the hinge member 23 as well. The hinge member 23 may be locked to the lower profile 5.
The hinge member 22 and/or the hinge member 23 may comprise an axle journal which supports the panel 2 when pivoted. The hinge member 22 and/or the hinge member 23 may comprise a locking element by which the hinge member 22, 23 is locked to the hinge member 6 or 7 of the adjacent panel 1, to the upper profile 4 or to the lower profile 5.
The upper edge of the panel 2 may be equipped with a frame member 9, to which the hinge member 22 can be fastened, for example with screws or nuts. Further, the lower edge of the panel 2 may be equipped with a frame member 8, to which the hinge member 23 can be fastened, for example with screws or nuts. The frame member 8 constitutes a part of the panel 2.
In an example and Fig. 1, the upper edge of the panel 2 may be provided with a locking element 20 which engages the upper profile 4 and is spaced from the hinge element 22. For opening the panel 2, the locking element 20 can be released and disengaged from the upper profile 4. The locking ele-ment 20 is controlled by means of e.g. a pull wire 25, a chain, a cord, or the like. The panel 2 may be equipped with a handle part 27. The handle part 27 may be applied to control the locking element 20, another locking element, or other parts of the panel system, for example by means of a force transmitted by the wire 25, chain or cord. The locking part 20 is released by moving the handle part 27. The handle part 27 is, for example, a pivotable or rotatable handle or knob fastened to the mid-section of the panel 2 as shown in Fig. 1, or alternatively to the lower edge of the panel 2, for example to the frame member 8. In an example, the handle part 27 is part of said locking element or said other part of the panel system, for example its mechanisms.

7 In an example and Fig. 1, the panel system comprises at least one panel 1 which is movable along the upper and lower profiles 4, 5. Further, the panel 1 is openable so that it will pivot about a vertical rotation axis X2. For opening, the panel 1 is movable to a predetermined location where the rotation axes X1 and X2 are close to each other. The rotation axis X2 is perpendicular to the longitudinal directions of the upper and lower profiles 4, 5. Further, said rotation axis X2 is placed close to one vertical edge of the panel 1.
The upper edge of the panel 1 is provided with a hinge member 6 which is placed inside the upper profile 4 and allows the panel 1 to be opened. The rotation axis X2 passes through the hinge member 6. The hinge member 6 is movable along the upper profile 4.
The lower edge of the panel 1 is provided with a hinge member 7 which is placed inside the lower profile 5 and allows the panel 1 to be opened. Said rotation axis X2 passes through the hinge member 7 as well. The hinge member 7 is movable along the lower profile 5. The hinge member 7, as well as the other corresponding hinge members, extends to the inside of the lower profile 5, and part of the hinge member 7 is placed inside the lower profile 5.
The hinge member 6 and/or the hinge member 7 may comprise an axle jour-nal which supports the panel 1 when pivoted. The hinge member 6 and/or the hinge member 7 may comprise a locking element, by which the hinge mem-ber is locked to the upper profile 4, the lower profile 5, or the hinge member of the adjacent panel, for example the hinge member 7 of the panel 12 in Fig. 7.
The upper edge of the panel 1 may be equipped with a guide member 3 which is placed inside the upper profile 4, is movable along the upper profile 4, and is spaced from the hinge member 6. Remaining inside the upper pro-file 4, the guide member 3 keeps the panel 1 closed. The upper profile 4 may be equipped with an opening that allows the guide member 3 to come out of the upper profile 4 and to disengage from the upper profile 4 to make it pos-sible to open the panel 1. Said opening may be placed underneath the lock-ing element 20.

8 Next to the panel 1, corresponding panels may be placed which are also equipped with corresponding hinge members 6 and 7 which may have corre-sponding axle journals and locking elements, and possibly also a corre-sponding guide member 3 as well as frame members 8 and 9. Said panels are also placed between the upper and lower profiles 4 and 5. At least one of said panels may be a mirror image of the panel 1, with respect to its structure and the elements fastened to it, as well as its function. One example of said panels is the panel 12 shown in Fig. 5 and Fig. 7.
The panel 1 and the following panels may be followed by a panel corre-sponding to the panel 2 and having corresponding hinge members 22 and 23 which may comprise corresponding axle journals and locking elements, and possibly a corresponding locking element 20, a handle part 27 or a wire 25 as well. Said panel is also placed between the upper and lower profiles 4 and 5. Said panel may also be a mirror image of the panel 2, with respect to its structure, the elements connected to it, and its function.
In Fig. 3, the panel 2 is shown in an open position, pivoted about the rotation axis X1. A supporting member 10 is fastened underneath the frame member 8 of the panel 2. The supporting member 10 is in a position in which it extends further than the vertical edge of the panel 2 in the longitudinal direc-tion of the lower profile 5 and in the direction determined by the plane of the panel 2. With respect to its reach, the supporting member 10 is configured to extend to the adjacent panel 1 and to be capable of engaging it.
In some examples, the supporting member 10 engages the adjacent panel 1 or the frame member 8 on it, for example by means of an end connector or cover in the frame member 8. An end connector or cover according to an example, installable in the end of the frame member 8, is shown in the fig-ures.
Preferably, the supporting member 10 is separated from the lower profile 5 and thereby from the upper profile 4 as well. Preferably, the supporting member 10 is placed at that edge of the panel 2 which is placed at the lower profile 5, for example the lower edge of the panel 2, and to which the frame member 8 is fastened as well. The edge refers to the narrow end surface of

9 the panel, or the combination of the panel and the frame member, and also the adjacent edge area of the large side surface of the panel.
Preferably, the supporting member 10 is placed between the lower profile 5 and the panel 2, that is, between the lower profile 5 and the frame member 8.
Thus, the supporting member 10 does not extend to the inside of the lower profile 5 or lower than the top surface or part defined by it, when the panel is in its position of use. Thus, the lower profile 5 may be left without the aper-tures opening to the side. The supporting member 10 is thus placed in its entirety on a higher level than the lower profile 8.
In an example and Fig. 3, the supporting member 10 extends outwards underneath the adjacent panel 1 and the frame member 8 thereof, and engages the hinge member 7 fastened to the frame member 8.
For opening the panel 2, the supporting member 10 is fastened to the frame member 8 in a movable way so that the supporting member 10 can be shifted inwards to reduce its reach and to disengage it from the panel 1, the frame member 8 thereof, or the hinge member 7. The supporting member 10 is configured to move back and forth in the longitudinal direction of the lower profile 5 and in the direction determined by the plane of the panel 2.
In an example, the supporting member 10 is movable back and forth manually. In another example, the supporting means 10 is movable manually inwards, and it is configured to reversibly shift outward by itself, for example pushed by a force generated by a spring.
In an example and Fig. 3, a mechanism 21 for generating an inwards move-ment of the supporting member 10 is connected to the supporting member

10. The mechanism 21 may be spaced from the hinge member 23, placed e.g. in the lower corner of the panel 2.
The mechanism 21 is controlled by e.g. a pull wire 25, a chain, a cord, or the like. Said wire 25 may be connected to a handle part 27 as shown in Fig. 1, whose movement will activate the mechanism 21 and shift the supporting member 10. The supporting member 10 may be configured to reversibly shift outwards by itself, for example assisted by a force generated by a spring in the mechanism 21.
In Fig. 5, the panels 1, 2 and 12 are shown in the closed position, aligned 5 with the lower profile 5. The supporting member 10 is fastened to the frame member 8 of the panel 1, for example underneath the frame member 8 or at its lower edge. The supporting member 10 is in a position in which it extends further from the vertical edge of the panel 1 in the longitudinal direction of the lower profile 5 and in the direction determined by the plane of the panel 1.
10 The reach of the supporting member 10 is configured such that it extends to the next adjacent panel 12 and may engage it.
In some examples, the supporting member 10 engages the adjacent panel 1, 12 or the frame member 8 therein, for example via an end connector or cover in the frame member 8. In an example and Fig. 5, the supporting member 10 extends outward below the adjacent panel 1, 12 and its frame member 8 when the panel 1, 12 is in the position of use, and engages the hinge mem-ber fastened to the frame member 8.
The supporting member 10 may be fixed to the frame member 8. In the situa-tion of Fig. 3, in which the panel 2 is open, the whole panel 1 may be shifted along the lower profile 5 so that the supporting member 10 may be released from the adjacent panel 12 (see Fig. 5), its frame member 8 or the hinge member 7 (see Fig. 7).
In an example, the supporting member 10 of the panel 1 is manually movable back and forth or inwards, or movable outwards by e.g. a spring force, as described above.
Figure 6 shows a supporting member 10 according to an example. The sup-porting member 10 comprises a frame 16 which is placed under a frame member on the panel and fastened to the lath. The frame 16 of the support-ing member 10 comprises one or more connecting and fastening elements 18, by which the supporting member 10 is fastened to the panel in an either movable or immovable way. The connecting and fastening element 18 may be an integral part of the frame 16 or a separate element fastened to the

11 frame 16. In the example shown in Fig. 6, the supporting member 10 com-prises at least two connecting and fastening elements 18 spaced from each other and configured to be placed in a groove in the frame member, where they are movable or stationary.
In an example and Fig. 4, the frame member 8 for the panel may comprise a groove 13 that opens upwards when the frame member 8 is in the position of use and is fastened to the panel. The frame member 8 comprises a groove 11 for the supporting member 10, which groove opens downwards in said position of use. The connecting and fastening element 18 of the supporting member 10 is received in the groove 11.
In an example and Fig. 6, the supporting member 10 comprises one or more brake elements 20 by which the supporting member 10 can be locked to be immovable in the frame member. In an example and Fig. 6, the brake ele-ment 20 comprises a screw provided in the frame 16, the end of the screw being placed and tightened against the frame member when screwed up.
The end of the screw is placed against the bottom of the groove 11 of the frame member 8 shown, for example, in Fig. 3.
In an example and Fig. 6, the supporting member 10 further comprises a supporting element 17 formed as an extension to the frame 16 and engaging the adjacent panel or a frame member thereon, for example via an end con-nector or cover on the frame member.
The supporting element 17 according to the examples of Figs. 6 and 7 extends outwards below the adjacent panel 12 and its frame member 8, and engages the hinge member 7 fastened to the frame member 8, as presented above.
In an example and Fig. 6, the supporting element 17 is equipped with a recess 19 for the hinge member 7 or a part thereof. The recess 19 opens in the direction of the adjacent panel 12 and its hinge member 7. The panel 12 can be opened by pivoting it about a vertical rotation axis X3. The function of the panel 12 and its parts corresponds to the function of the panel 1. The hinge member 7 of the panel 12 or .a part thereof is received in the recess 19

12 when the panel 12 moves along the lower profile towards the panel 1, or vice versa. In an example, the supporting element 17 is forked or comprises two substantially parallel protrusions forming the recess 19 between them. Said protrusions extend towards the hinge member 7 of the adjacent panel 12, aligned with the frame member 8.
In an example, the frame 16 corresponds to the frame member 8 in its width.
In an example, the width of the supporting member 17 is greater than that of the frame member 8.
Figure 7 shows a more detailed view of the fastening of the supporting mem-ber 10 under the frame member 8 and the engagement of the supporting member 17 with the panel 12, particularly the hinge member 7 of the panel 12. The hinge member 7 comprises an axle journal 14 which supports the panel 1 when pivoted. The hinge member 7 may comprise a locking element 15 by which the hinge member 7 is locked to the hinge member of the adja-cent panel. Figure 7 does not show the lower profile in which the hinge mem-ber 7 is partly placed. The locking element may be entirely within the lower profile. The locking element 15 and the other locking elements mentioned above utilize the locking of said e.g. rotatable axle journal 14 to the shape, recess or slot in the locking element 15. The supporting member 10 of Fig. 7 is coupled to the frame member 8 to be preferably immovable.
Figure 8 shows a more detailed view of the fastening of the supporting mem-ber 10 underneath the frame member 8 in a movable way, and the engage-ment of the supporting member 17 with the panel 1, particularly the hinge member 7 of the panel 1, in a way corresponding to Fig. 7. What has been described above, applies to the movable supporting member 10 as well. Fig-ure 8 does not show the lower profile inside which the hinge member 7 is placed.
In an example and Fig. 8, the supporting member 10 comprises a counterpart 24. The counterpart 24 is preferably a separate part to be fastened to the frame 16 of the supporting member 10, and via which the supporting member 10 is movable. The counterpart 24 may extend from the frame member 8 in the lateral direction and curve upwards to extend in parallel with the frame

13 member 8, if necessary. The counterpart 24 is connected to the mechanism 21 which moves the supporting member 10. In Fig. 8, the mechanism 21 is shown in the open position, the cover removed, for the sake of illustration.
What has been described above, applies to the mechanism 21 as well. The mechanism may be fastened to the frame member 8.
In an example and Fig. 8, e.g. the pulling force of the wire 25 turns a lever mechanism 26 in the mechanism 21 to engage the counterpart 24 and to push the supporting member 10 inwards by means of the counterpart 24. In an example, the lever structure 26 can also be turned by applying a pivotable or rotatable handle or knob, as an alternative or in addition to the wire 25.
In an example, the handle part 27 is part of the mechanism 21. The supporting member 10 may be reversed and shifted outwards by e.g. a spring force.
The upper profile 4 and/or the lower profile 5, or the frame member 8 and/or the frame member 9 are, in an example, made of aluminium or an aluminium mixture and have a continuous or elongated shape. Other materials and metals are also feasible.
The hinge member 22, 23, 6, and 7, the guide member 3, the supporting member 10 are preferably pieces made of a plastic material, and other mate-rials, such as metals, can be used as well.
In an example, the panel is made of tempered glass. Other glass materials and sheet-like materials may be used as well. The panel is preferably trans-parent, but opaque panels are also feasible.
The presented panel system, panel for the panel system, supporting mem-ber, and their various embodiments are not limited solely to the examples presented in the appended figures or particularly described or referred to in the preceding description.
The above presented characteristics of the panel system may also be com-bined and implemented in various combinations which are not presented in the examples given above.

14 The different embodiments of the presented solution are disclosed in the appended claims.

Claims (15)

Claims

1. A panel system, comprising:
a first panel which is openable and/or movable;
a second panel which is openable and/or movable;
a lower profile and an upper profile which are substantially parallel and between which the first and the second panels can be placed one after the other and in parallel with each other, and to which the first and the second panels are connected for opening and/or moving; and a supporting member which is fastened to the first panel and placed in the first panel at the lower profile, separate from the lower profile, the sup-porting member being configured to engage the second panel for supporting the first panel.

2. The panel system according to claim 1, wherein the supporting member comprises a frame and a supporting element formed as an extension to the frame and equipped with a recess for a part of the second panel, for connecting to the second panel; and wherein the first panel comprises a frame member which is connected to the edge of the first panel and to which the supporting member is fastened.

3. The panel system according to claim 2, wherein the supporting element is forked or the supporting element comprises two substantially parallel protrusions, between which said recess is formed.

4. The panel system according to any of the claims 1 to 3, wherein the supporting member is fastened to the first panel in a mov-able way so that the supporting member is shiftable inwards for disengaging it from the second panel, and outwards again.

5. The panel system according to claim 4, wherein a mechanism is connected to the supporting member, which mechanism generates an inwards movement of the supporting member and is controllable by means of a pull wire, chain, cord, or the like; and wherein the panel is equipped with a handle part, to which said wire, chain, cord, or the like, is connected and whose movement is configured to activate the mechanism and to shift the supporting member.

6. The panel system according to claim 5, wherein the supporting member comprises a counterpart; and wherein the mechanism comprises a lever structure which is config-ured to be turned by the pulling force of the wire, chain, cord, or the like, and which is coupled to the counterpart and configured to push the supporting member inwards via the counterpart.

7. The panel system according to claim 4, wherein a mechanism for generating the inwards movement of the supporting member is connected to the supporting member; and wherein the panel is equipped with a handle part which is part of the mechanism and is configured to control the mechanism.

8. The panel system according to any of the claims 4 to 7, wherein the supporting member is configured to shift outwards by itself in a reversible manner.

9. The panel system according to any of the claims 1 to 3, wherein the supporting member is fixed to the first panel to be immo-bile so that the second panel is disengageable from the supporting member by moving the second panel away from the supporting member and the first panel.

10. The panel system according to any of the claims 1 to 9, wherein the second panel is equipped with a hinge member which engages the second panel, extends into the lower profile and allows the opening and the movement of the second panel; and wherein the supporting member is configured to engage the hinge member of the second panel in a releasable way.

11. The panel system according to claim 10, wherein the second panel comprises a frame member which is fas-tened to the edge of the second panel and to which said hinge member of the second panel is coupled; and wherein the supporting member is configured to extend underneath the second panel and the frame member thereof, for engaging said hinge member of the second panel.

12. The panel system according to any of the claims 1 to 11, wherein the supporting member is configured to be placed in its entire-ty on a higher level than the lower profile when the first panel is in its position of use.

13. The panel system according to any of the claims 1 to 12, wherein, for engaging the second panel, the supporting member is configured to extend further in the longitudinal direction of the lower profile than the vertical edge of the first panel.

14. A panel for a panel system, which is intended to be placed and connect-ed between a lower profile and an upper profile which are substantially paral-lel with each other, for opening and/or moving the panel, and comprises:
a supporting member fastened to the panel and configured to be placed at the lower profile of the panel, separately from the lower profile, the supporting member being further configured, for supporting the panel, to engage another panel in a releasable way.

15. The panel according to claim 14, wherein the supporting member comprises a frame and a supporting element formed as an extension to the frame and comprises a recess for engaging the other panel and for receiving a part of the other panel; and wherein the panel comprises a frame member which is fastened to the edge of the panel and to which the supporting member is fastened.