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다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0821293 (2015-08-07) |
등록번호 | US-9464444 (2016-10-11) |
우선권정보 | DE-10 2010 004 717 (2010-01-15) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 3 인용 특허 : 384 |
The invention relates to a set of panels, preferably of floor panels, consisting of a first panel and at least a second panel with, in each case, a top side and an underside, wherein the first panel comprises at an edge a first retaining profile with a hook directed towards the top side, the second
The invention relates to a set of panels, preferably of floor panels, consisting of a first panel and at least a second panel with, in each case, a top side and an underside, wherein the first panel comprises at an edge a first retaining profile with a hook directed towards the top side, the second panel comprises at an edge a second retaining profile with a hook directed towards the underside, the first retaining profile and the second retaining profile can be connected by a relative movement directed perpendicular to a plane of laying, and wherein a separate clip is provided, which comprises a clip head, a clip body and a clip base. Moreover, the invention relates to a method for inserting the clip into a retaining profile.
1. A set of floor panels comprising a first floor panel, at least a second floor panel, and a clip; wherein the floor panels each comprise a top side and an underside;wherein the first floor panel comprises at a first edge a first retaining profile with a hook directed towards the top side;wherein t
1. A set of floor panels comprising a first floor panel, at least a second floor panel, and a clip; wherein the floor panels each comprise a top side and an underside;wherein the first floor panel comprises at a first edge a first retaining profile with a hook directed towards the top side;wherein the second floor panel comprises at a second edge a second retaining profile with a hook directed towards the underside;wherein the first retaining profile and the second retaining profile are connected to each other by a relative downward movement of the second edge of the second floor panel with respect to the first edge of the first floor panel;wherein the clip comprises a portion which, in a connected state of the retaining profiles, is lodged in a locking groove of the second retaining profile;wherein the hooks, in the connected state of the retaining profiles, provide for a positive fit in a direction parallel to a plane of laying and perpendicular to the first and second edges, and the clip provides for a positive fit in a direction perpendicular to the plane of laying;wherein the portion of the clip, during the relative movement of the retaining profiles, is at first pressed by the second retaining profile into a clip evasion groove of the first retaining profile, the clip thereby absorbing deformation energy, whereafter the portion moves out from the clip evasion groove and snaps into the locking groove;wherein the clip evasion groove comprises a lower groove side wall, a groove rear wall and an upper groove side wall, the lower groove side wall being, relative to the plane of laying, inclined upwardly in a distal direction;wherein the clip extends between an upper and a lower half of the first panel;wherein the lower groove side wall is situated completely in the lower half of the first floor panel; andwherein the relative movement of the retaining profiles is a tilting movement of the second floor panel, whereby the second retaining profile is rotated about a tilting axis extending perpendicular to the second edge and parallel to the plane of laying. 2. The set of floor panels of claim 1, wherein the lower groove side wall is substantially linear and adjoins the groove rear wall; wherein at least a section of the upper groove side wall is, relative to the plane of laying, inclined upwardly in distal direction; andwherein the section is substantially linear and adjoins the groove rear wall. 3. The set of floor panels of claim 1, wherein the hook of the first floor panel comprises a first hook offset section with an offset section top side, an offset section end face adjoined on an outer end of the offset section top side, and an offset section locking surface provided on the inner end of the offset section top side; wherein the hook of the second floor panel comprises a second hook offset section and a hook groove limited by an inner groove side wall forming an offset locking surface which, in the connected state of the retaining profiles, cooperates with the offset section locking surface of the first retaining profile, thereby ensuring the positive fit in the direction parallel to the plane of laying and perpendicular to the first and second edge, and an outer groove side wall. 4. The set of floor panels of claim 3, wherein the second retaining profile comprises a downwardly directed clip contact surface adjoining on an end of the second hook offset section facing away from the hook groove; and wherein the portion of the clip, during the relative movement of the retaining profiles, is pressed into the clip evasion groove by the downwardly directed clip contact surface. 5. The set of floor panels of claim 4, wherein the downwardly directed clip contact surface is adjoined by the locking groove which comprises a locking surface, the locking surface being inclined to the top side. 6. The set of floor panels of claim 5, wherein the locking surface, relative to the top side, defines an angle of inclination of 45°. 7. The set of floor panels of claim 1, wherein the top side of the floor panels is provided with a decorative layer and an overlay. 8. The set of floor panels of claim 1, wherein the floor panels, between the top side and the underside, comprise a core, wherein the core comprises materials selected from the group consisting of: MDF, HDF, plastic and composite materials, wherein the composite materials comprise proportions of wood, plastic, glass fiber, carbon fiber or combinations thereof. 9. The set of floor panels of claim 1, wherein the portion of the clip, during the relative movement of the retaining profiles, is configured to execute substantially a closing rotary movement about an axis oriented parallel to the edges, by which movement the portion of the clip reaches a locking position. 10. A set of floor panels comprising a first floor panel and at least a second floor panel, and a clip; wherein the floor panels comprise a top side and an underside;wherein the first floor panel comprises at a first edge a first retaining profile with a hook directed towards the top side;wherein the second panel comprises at a second edge a second retaining profile with a hook directed towards the underside;wherein the first retaining profile and the second retaining profile are connected to each other by a relative downward movement of the second edge of the second floor panel with respect to the first edge of the first floor panel;wherein the clip comprises a portion which, in a connected state of the retaining profiles, is lodged in a locking groove of the second retaining profile;wherein the hooks, in the connected state of the retaining profiles, provide for a positive fit in a direction parallel to a plane of laying and perpendicular to the first and second edge, and the clip provides for a positive fit in a direction perpendicular to the plane of laying;wherein the portion of the clip, during the relative movement of the retaining profiles, is at first pressed by the second retaining profile into a clip evasion groove of the first retaining profile, the clip thereby absorbing deformation energy, whereafter the portion moves out from the clip evasion groove and snaps into the locking groove;wherein the clip evasion groove comprises a lower groove side wall, a groove rear wall and an upper groove side wall, the lower groove side wall being, relative to the plane of laying, inclined upwardly in distal direction;wherein the hook of the first floor panel comprises a first hook offset section with an offset section top side, an offset section end face adjoined on an outer end of the offset section top side, and an offset section locking surface provided on the inner end of the offset section top side;wherein the hook of the second floor panel comprises a second hook offset section and a hook groove limited by an inner groove side wall forming an offset locking surface which, in the connected state of the retaining profiles, cooperates with the offset section locking surface of the first retaining profile, thereby ensuring the positive fit in the direction parallel to the plane of laying and perpendicular to the first and second edge, and an outer groove side wall;wherein the lower groove side wall defines a lowermost point, whereas the offset section top side defines an uppermost point, the lowermost point defining a horizontal level that is situated below the uppermost point of the offset section top side; andwherein the relative movement is a tilting movement of the second floor panel, whereby the second retaining profile is rotated or angled about a tilting axis extending perpendicular to the second edge and parallel to the plane of laying. 11. The set of floor panels of claim 10, wherein the lower groove side wall is substantially linear and adjoins the groove rear wall; wherein at least a section of the upper groove side wall is, relative to the plane of laying, inclined upwardly in distal direction; andwherein the section is substantially linear and adjoins the groove rear wall. 12. The set of floor panels of claim 10, wherein the clip extends between an upper and a lower half of the first panel. 13. The set of floor panels of claim 10, wherein the second retaining profile comprises a downwardly directed clip contact surface adjoining on an end of the second hook offset section facing away from the hook groove; and wherein the portion, during the relative movement, is pressed into the clip evasion groove by the downwardly directed clip contact surface. 14. The set of floor panels of claim 13, wherein the downwardly directed clip contact surface is adjoined by the locking groove which comprises a locking surface, the locking surface being inclined to the top side. 15. The set of floor panels of claim 14, wherein the locking surface, relative to the top side, defines an angle of inclination of 45°. 16. The set of floor panels of claim 10, wherein the top side of the floor panels is provided with a decorative layer and an overlay. 17. The set of floor panels of claim 10, wherein the floor panels, between the top side and the underside, comprise a core, wherein the core comprises materials selected from the group consisting of: MDF, HDF, plastic and composite materials, wherein the composite materials comprise proportions of wood, plastic, glass fiber, carbon fiber or combinations thereof. 18. The set of floor panels of claim 10, wherein the portion of the clip, during the relative movement of the retaining profiles, is configured to execute substantially a closing rotary movement about an axis oriented parallel to the edges, by which movement the portion reaches a locking position. 19. A set of floor panels comprising a first floor panel, at least a second floor panel, and a clip; wherein the floor panels each comprise a top side and an underside;wherein the first floor panel comprises at a first edge a first retaining profile with a hook directed towards the top side;wherein the second floor panel comprises at a second edge a second retaining profile with a hook directed towards the underside;wherein the first retaining profile and the second retaining profile are connected to each other by a relative downward movement of the second edge of the second floor panel with respect to the first edge of the first floor panel;wherein the clip comprises a portion which, in a connected state of the retaining profiles, is lodged in a locking groove of the second retaining profile;wherein the hooks, in the connected state of the retaining profiles, provide for a positive fit in a direction parallel to a plane of laying and perpendicular to the first and second edges, and the clip provides for a positive fit in a direction perpendicular to the plane of laying;wherein the portion of the clip, during the relative movement of the retaining profiles, is pressed by the second retaining profile into a clip evasion groove of the first retaining profile;wherein the clip evasion groove comprises a lower groove side wall, a groove rear wall and an upper groove side wall, the lower groove side wall being, relative to the plane of laying, inclined upwardly in a distal direction;wherein the clip extends between an upper and a lower half of the first panel;wherein the lower groove side wall is situated completely in the lower half of the first floor panel;wherein the relative movement of the retaining profiles is a tilting movement of the second floor panel, whereby the second retaining profile is rotated about a tilting axis extending perpendicular to the second edge and parallel to the plane of laying;wherein the hook of the first floor panel comprises a first hook offset section with an offset section top side, an offset section end face adjoined on an outer end of the offset section top side, and an offset section locking surface provided on the inner end of the offset section top side;wherein the hook of the second floor panel comprises a second hook offset section and a hook groove limited by an inner groove side wall forming an offset locking surface which, in the connected state of the retaining profiles, cooperates with the offset section locking surface of the first retaining profile, thereby ensuring the positive fit in the direction parallel to the plane of laying and perpendicular to the first and second edge, and an outer groove side wall;wherein the second retaining profile comprises a downwardly directed clip contact surface adjoining on an end of the second hook offset section facing away from the hook groove;wherein the portion of the clip, during the relative movement of the retaining profiles, is pressed into the clip evasion groove by the downwardly directed clip contact surface;wherein the downwardly directed clip contact surface is adjoined by the locking groove which comprises a locking surface, the locking surface being inclined to the top side; andwherein the locking surface, relative to the top side, defines an angle of inclination of 45°.
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