ARRANGEMENT FOR FIXING A PANEL INTO A GROOVE USING TWO OPPOSITE CORNERS

专利摘要:
The invention relates to an arrangement for fixing a vertical panel (14) in a transverse clamping groove (20) between two wedges (34A, 34B, 42A, 42B), and comprising: - a first wedge (34A, 34B) interposed between a vertical face (24) of the groove (20) and a first face (36) of the panel (14); - a second corner (42A, 42B) opposite interposed between an opposite vertical face (26) of the groove (20) and an opposite face (44) of the panel (14); - A screw-nut assembly (50) for producing a vertical translational force of the second wedge (42A, 42B) in a clamping direction; characterized in that the screw-nut assembly (50) is arranged on the same side of the panel (14) as the first wedge (34A, 34B), the translation force being transmitted to the second wedge (42A, 42B) by the intermediate of a movable return member (66, 76).
公开号:FR3058743A1
申请号:FR1661143
申请日:2016-11-17
公开日:2018-05-18
发明作者:Cyril DAGAND；Wilfried Borrod
申请人:SB Ingenierie；
IPC主号:

专利说明:

TECHNICAL FIELD OF THE INVENTION
The invention relates to an arrangement for fixing a vertical panel in a longitudinal receiving groove by transverse clamping between at least two transversely opposite corners, the arrangement comprising:
- At least a first corner which is interposed between a first vertical face of the groove and a first face of the panel;
- at least one second opposite corner mounted opposite the first corner on the other side of the panel, the second corner being inserted between a second opposite vertical face of the groove and a second opposite face of the panel, the second corner cooperating by vertical sliding with a second fixed ramp to adjust the verticality of the panel;
- At least one screw-nut assembly intended to produce a vertical translational force of the second corner in a tightening direction between the panel and the second face of the groove.
TECHNICAL BACKGROUND OF THE INVENTION
It is known to produce railings by fixing a vertical panel in the groove of a rail. Such a panel is for example made of glass.
Conventionally, the positioning and fixing of a railing panel in the groove is achieved by the insertion of at least two opposite corners on either side of the panel. In order to be able to adjust the verticality of the panel at the same time as its fixing, the tightening of each corner is adjusted by means of an associated screw-nut assembly. The corner is thus tightened either by displacement of the screw, or by displacement of the nut when the screw is screwed.
Each screw-nut assembly is arranged on the same side of the panel as the corner, the tightening of which it controls. Thus, when mounting the railing, an operator first installs the panel in the groove. The operator then accesses a first side of the panel to adjust the tightness of the first corner. Then the operator then accesses the other side of the panel to adjust the tightness of the second opposite corner.
An example of such an arrangement for fixing a panel is for example disclosed in document EP-A2-2,921,607.
Such an arrangement allows a very resistant fixing of the panel in the groove while making it possible to easily adjust the verticality of the panel.
However, in some cases, the panel is only easily accessible from one side. This is particularly the case when the guardrail is arranged at altitude. This results in the impossibility of correctly screwing the corner which is located on the other inaccessible side without using a lifting means such as a gondola or scaffolding.
To solve this problem, fixing arrangements have already been proposed, comprising corners only on the accessible side.
However, such an arrangement does not allow effective fixing of the panel in the rail.
In addition, such an arrangement does not allow easy adjustment of the verticality of the panel during the fixing operation.
BRIEF SUMMARY OF THE INVENTION
The invention provides an arrangement for fixing guardrails of the type described above, characterized in that the screw-nut assembly is arranged on the same side of the panel as the first corner, the translational force being transmitted to the second corner by by means of a movable return member which is interposed between a lower edge of the panel and the bottom of the groove.
Such a fixing arrangement makes it possible to preserve the advantages of a fixing arrangement with two opposite corners while allowing fixing from only one side of the panel.
According to other characteristics of the invention:
- The return member is a rigid part mounted for rotation about a longitudinal axis between the bottom of the groove and the lower edge of the panel;
- The return member is a flexible member which works in traction around a fixed angle return support which bypasses the lower edge of the panel;
- The fixed angle return support is made in a cradle which straddles the lower edge of the panel and which is interposed between the panel and the bottom of the groove;
- The tightening direction of the second corner is directed towards the bottom of the groove, the return member working in traction when the corner is tightened.
the vertical translational force is produced by displacement of the nut vertically towards an upper opening of the groove, a first end of the deflection member being integral in displacement with the nut and a second end of the recess member return being integral in movement with said second corner;
- The tightening direction of at least one second opposite corner is directed towards an upper opening of the groove, the return member working in compression when the corner is tightened;
- The return member slides along a circular arc path parallel to the bottom of the groove;
- the vertical translational force is produced by the displacement of the screw towards the bottom of the groove, a first end of the return member being urged to bear by the screw and a second end of the return member urging the corner by support;
- The arrangement comprises two second opposite corners which have opposite vertical tightening directions, each second corner being controlled by sliding respectively by the nut and by the screw of the same screw-nut assembly.
BRIEF DESCRIPTION OF THE FIGURES
Other characteristics and advantages of the invention will appear during the reading of the detailed description which will follow for the understanding of which reference will be made to the appended drawings in which:
- Figure 1 is a perspective view which shows a vertical panel fixed in a rail by means of fixing devices made according to the teachings of the invention;
- Figure 2 is an exploded perspective view which shows the fixing device of Figure 1;
- Figure 3 is a sectional view along a vertical transverse sectional plane passing through a clamping screw which represents the fixing device of Figure 2 placed in position in a rail, the clamping screw controlling the clamping of the first two corners ;
- Figure 4 is a sectional view along a section plane parallel to that of Figure 3 and passing through a first compression return member which represents the transmission chain of the vertical translation force from a screw to a second lower corner located on the side opposite the screw relative to the panel;
- Figure 5 is a sectional view along a section plane parallel to that of Figure 3 and passing through a second traction return member which represents the transmission chain of the vertical translation force from a nut to a second upper corner located on the opposite side of the nut relative to the panel.
DETAILED DESCRIPTION OF THE FIGURES
In the following description, we will adopt, without limitation, longitudinal, vertical and transverse orientations indicated by the trihedron L, V, T of the figures.
In the following description, elements having an identical structure or analogous functions will be designated by the same reference.
FIG. 1 shows a railing 10 which is mounted on the edge of a slab 12, for example a concrete slab. The edge of the slab 12 is difficult to access here, it is for example arranged at altitude.
The railing 10 comprises a vertical panel 14 and a support rail 16. The panel 14 is preferably made of glass. It is held vertically in the support rail 16 by several fixing devices 18. Each fixing device 18 is designed to allow the panel 14 to be firmly fixed in a vertical position and to withstand very heavy loads.
As illustrated in more detail in Figure 2, the support rail 16 is formed by way of example by an aluminum profile, having here a U-shaped cross section delimiting inside, a groove 20 for receiving the panel 14 and the fixing device 18. The support rail 16 extends continuously in the longitudinal direction. The support rail 16 is intended to be fixed to the slab 12.
The groove 20 has a bottom 22 of concave curved shape, preferably semi-circular, extended by two opposite vertical faces 24, 26 arranged transversely opposite one another. The groove 20 has an upper opening. The width of the groove 20 between the two lateral faces 24, 26 is greater than the thickness of the panel 14. The first vertical face 24 is situated on the accessible side of the rail, while the second vertical face 26 is situated on the inaccessible side of the rail.
Each fixing device 18 is designed as a module formed from several parts, some of which can be preassembled before their insertion into the groove 20. A fixing device 18 will now be described with reference to FIGS. 2 to 5.
The fixing device 18 comprises at least two corners 34A, 34B; 42A, 42B opposite which are intended to clamp transversely the vertical panel 14 in the longitudinal receiving groove 20.
The fixing device 18 also includes a cradle 30 which is designed to straddle a bottom edge 32 of the panel 14, as shown in FIG. 3. The cradle 30 has a rounded bottom face of a shape complementary to that of the bottom 22 of the receiving groove 20. The cradle 30 is received in the groove 20 with sufficient transverse play to allow an angular movement of the panel 14 around a longitudinal axis by sliding the underside of the cradle 30 against the bottom 22. This makes it possible to adjust the verticality of the panel 14 depending on the horizontality of the slab 12.
Each vertical face 24, 26 of the groove further comprises a projecting stop 28 which is intended to vertically retain the cradle 30 at the bottom of the groove 20.
The cradle 30 is here made of rigid plastic.
The fixing device 18 comprises at least a first corner 34A or 34B which is interposed between the first vertical face 24 of the groove 20 and a first face 36 of the panel 14, as illustrated in FIG. 3. The first face 36 of the panel 14 faces the accessible side of slab 12.
The first corner 34A or 34B has at least one inclined face 38 which is intended to cooperate with a fixed ramp to allow it to be clamped by vertical sliding. The ramp is secured either to the support rail 16 or to the cradle 30.
The fastening device 18 comprises at least one second opposite corner 42A or 42B mounted opposite the first corner 34A, 34B on the other side of the panel 14. The second corner 42A or 42B is interposed between the second face 26 opposite vertical of the groove 20 and a second opposite face 44 of the panel 14. The second face 36 of the panel 14 faces the inaccessible side of the slab 12.
The second corner 42A or 42B has at least one inclined face 46 which is intended to cooperate by sliding with a fixed ramp to allow it to be clamped by vertical sliding. The ramp is secured either to the support rail 16 or to the cradle 30.
The vertical sliding of each first corner 34A, 34B and second corner 42A, 42B thus makes it possible to adjust the verticality of the panel 14 at the same time as fixing it in the vertical position by transverse clamping between the corners 34A, 34B; 42A, 42B.
At least the second corner 42A, 42B is slidably controlled by a screw-nut assembly 50 which is intended to produce a force of vertical translation of the second corner 42A, 42B in a tightening direction between the panel 14 and the second face 26 of groove 20.
Each corner 34A, 34B, 42A, 42B is sliding along a very short stroke of the order of a few millimeters.
However, the adjustment of the screw-nut assembly 50 can only be carried out after inserting the panel 14 in the groove
20. The second corner 42A, 42B is then located on the inaccessible side of the panel 14. In the prior art, the screw-nut assembly is arranged on the inaccessible side of the panel. The second corner could only be tightened by using access means such as scaffolding or a cradle.
The present invention provides an arrangement for fixing the panel 14 in the support rail 16 making it possible to adjust the tightening of the second corner 42A, 42B from the accessible side of the panel 14.
The invention thus proposes to arrange the assembly 50 screw nut on the same side of the panel 14 as the first corner 32A, 32B. The translational force produced by the set 50 screw-nut is then transmitted to the second corner 42A, 42B via a return member which is interposed between a lower edge of the panel 14 and the bottom 22 of the groove 20.
In the embodiment shown in the figures, the fixing device 18 has several first corners 34A, 34B. It thus includes, without limitation, a first upper corner 34A and two first lower corners 34B.
The upper corner 34A cooperates with a ramp 52 which is formed in the upper part of the first face 24 of the groove 20. The ramp 52 is designed so that the wedge 34A between the panel 14 and the first face 24 of the groove 20 occurs when it slides down.
The lower corners 34B each cooperate with a ramp 54 associated with the cradle 30 which bears transversely against the first face 24 of the groove 20. The lower corners 34B are more particularly interposed between the ramp 54 and the panel 14. The ramp 54 is designed so that the tightening of the corner 34B between the panel 14 and the first face 24 of the groove 20 occurs when it slides upwards.
The sliding of the upper corner 34A and that of each lower corner 34B is carried out by means of two vertical screws 56. Each screw 56 is received in an associated smooth orifice 58 drilled in the upper corner 34A to the right of each lower corner 34B. The lower end of each screw 56 is screwed into an orifice 60 in each lower corner 34B. The screw 50A is for example screwed by force into the orifice 60. As a variant, the orifice 60 is tapped. In all cases, the screw 50A is engaged with the associated lower corner 34B.
Thus, when the screws 56 are screwed, the lower corners 34B, locked in rotation, slide upwards until they are wedged between the ramp 54 and the panel 14. While continuing the screwing, the head of the screw bears on the upper corner 34A to slide it down until it is wedged between the first face 24 of the groove 20 and the panel 14. The screwing can be continued until the corners 34A, 34B are tightened with the force vertical desired to obtain the vertical fixing of the panel 14. In addition to the rapidity of fixing, this system for adjusting the position of the corner 34A and of each corner 34B with the same screw 56 makes it possible to balance the clamping force applied by each corner 34A, 34B against panel 14.
The fixing device 18 also includes two second corners 42A, 42B. It thus comprises a second upper corner 42A and a second lower corner 42B. These second corners 42A, 42B are arranged opposite the first corners 34A, 34B to allow the panel 14 to be clamped over the entire height of the panel portion 14 inserted in the groove 20. The fixing of the panel 14 in the support rail 16 is thus very solid and the fixing of panel 14 is capable of withstanding even when a very large transverse force is applied to its upper edge.
ίο
The second upper corner 42A cooperates with a ramp 62 which is formed in the upper part of the second face 26 of the groove 20. The ramp 62 is designed so that the second upper corner 42A is clamped between the panel 14 and the second face 26 of the groove 20 occurs when it slides down.
The lower corner 42B cooperates with a ramp 64 associated with the cradle 30 which bears transversely against the second face 26 of the groove 20. The second lower corner 42B is more particularly interposed between the ramp 64 and the panel 14. The ramp 64 is designed so that the tightening of the second lower corner 42B between the panel 14 and the second face 26 of the groove 20 occurs when it slides upwards.
The assembly 50 screw-nut here simultaneously controls the sliding of the two second corners 42A, 42B. It comprises a vertical screw 50A and a nut 50B. The screw head is pointing upwards. The set 50 screw-nut is interposed between the first face 36 of the panel and the first face 24 of the groove 20.
The sliding of the second lower corner 42B is here controlled by the vertical displacement of the screw 50A when it is screwed. The vertical displacement of the screw 50A produces a vertical translational force which is oriented downwards. This vertical translation force is transmitted to the second lower corner 42B with a change of direction so as to become a vertical translation force directed upwards in order to make the second lower corner 42B slide towards the upper opening of the groove 20.
The transmission of the vertical translation force is carried out by means of at least one first return member 66. In the embodiment shown in Figure 2, the fixing device comprises two first return members 66 which work in parallel.
As shown in FIG. 4, each return member 66 is a rigid part mounted for rotation about a longitudinal axis between the bottom 22 of the groove 20 and the lower edge 32 of the panel 14. For this purpose, each member 66 of deflection has a lower guiding face 68 in the form of an arc of a circle complementary to the curvature of the bottom 22 of the groove 20. The axis of rotation is thus eccentrically vertically towards the panel, the deflection member 66 sliding block along a circular arc path.
The return member 66 here has the form of a curved segment which is arranged in a guide channel formed in the cradle 30. The bottom face 68 of the return member 66 is here in abutment against a lower partition of the cradle 30 which is interposed between said return member 66 and the bottom 22 of the groove 20. This lower partition has a shape of an arc of a circle complementary to the bottom 22 of the groove 20. This arrangement makes it possible to prevent the member 66 of reference is pressed directly against the bottom 22 of the groove 20, which would cause an uplift of the cradle 30 when tightening the corresponding corner 42B. On the contrary, by bearing on a lower partition of the cradle 30, the cradle 30 remains against the bottom 22 of the groove 20 regardless of the state of tightening of the corresponding corner 42B.
The return member 66 has a first end 70 which is arranged on the accessible side of the panel 14 and which is intended to be stressed by the screw 50A. It also has a second end 72 which is intended to urge the second lower corner 42B.
To be able to push the lower corner 42B towards its clamping position, that is to say upwards, the return member 66 works in compression when the corner 42B is tightened.
In the embodiment shown in the figures, the return members 66 are biased by means of a jumper 74 mounted to slide vertically in the groove 20 on the accessible side of the panel 14. The jumper has an upper cross member which is equipped with a smooth orifice intended to receive the threaded rod of the screw 50A. The head of the screw 50A rests on an upper face of the cross-member. The jumper 74 has two parallel tabs which extend vertically downwards to a lower end for biasing the first ends 70 of the return members 66 in favor of reserved guide channels in the cradle 30.
The first lower corners 34A are arranged longitudinally on either side of the jumper 74. A vertical passage is reserved in the first upper corner 34A to guide the jumper 74 in vertical sliding.
In a variant not shown of the invention, at least one return member 66 is biased directly by the lower end of the screw 50A.
According to another variant not shown of the invention, the first deflection member is a lever which bears against a fixed point, for example made in the bottom of the cradle. The lever thus pivots around a longitudinal axis located under the lower edge of the panel.
The sliding of the second upper corner 42A is here controlled by the vertical displacement of the nut 50B during the screwing of the screw 50A. The vertical displacement of the nut 50B produces a vertical translational force which is oriented upwards. This vertical translation force is transmitted to the second upper corner 42A with a change of direction so as to become a vertical translation force directed downwards in order to make the second upper corner 42A slide towards the bottom of the groove 20.
The transmission of the vertical translation force is carried out by means of at least one second return member 76. In the embodiment shown in FIG. 2, the fixing device 18 comprises a single second return member 76.
The second return member 76 is a flexible member which works in traction around a fixed angle return support which bypasses the bottom edge 32 of the panel 14 from below.
The fixed angle gear support is formed by the underside of the cradle 30. If necessary, a jacket (not shown) of resistant and / or slippery material can be interposed between the second gear 76 and the underside of the cradle 30. The underside of the cradle 30 has the shape of an arc of a circle. Thus, the section of the second deflection member 76 which is situated against the fixed angle deflection support is sliding along a trajectory in an arc, while the two end strands of the deflection member 76 are sliding vertically.
The second return member 76 is here formed by a flexible blade, for example a metal spring blade or a blade made of composite material. The blade is arranged flat against the underside of the cradle 30.
In a variant not shown, the blade forming the second return member is wide enough to wrap the first return members. Thus, the first return members slide against an upper face of the blade forming the second return member instead of sliding against a lower wall of the cradle.
According to another variant not shown of the invention, the second return member is formed by a cable.
According to yet another variant, not shown, of the invention, the return member is formed by a chain of articulated elements.
A first end 78 of the second return member 76 is arranged on the accessible side of the panel 14. This first end 78 is integral in vertical sliding with the nut 50B. In the example shown in the figures, the first end 78 is bent in the form of a hook so as to be hooked to the nut 50B.
A second end 80 of the second return member 76 is arranged on the inaccessible side of the panel 14. This second end 80 is secured in vertical sliding of the second upper corner 42A. In the example shown in the figures, the first end 80 is bent in the form of a hook so as to be hooked to the second upper corner 42A.
It will of course be understood that the ends of the second deflection member 76 can be fixed by means other than the attachment, such as welding, gluing, overmolding, wedging of complementary shapes, etc.
The nut 50B is of course designed to be immobilized in rotation relative to the rail 16. The nut 50B is here housed between the legs of the jumper 74 in order to allow its vertical sliding along the screw 50A during its screwing / unscrewing .
When mounting the panel 14 in the rail 16, the fixing device 18 is preassembled. Thus, the corners 34B, 42A, 42B are placed in position in the cradle 30, with the exception of the first upper corner 34A. The set 50 screw-nut is also assembled as well as the return members 66, 76. The module thus preassembled is inserted into the groove 20 of the rail 16. The panel 14 is then received in the cradle 30 between the corners 34B, 42A, 42B. Thus, all the elements located on the inaccessible side of the panel 14 are placed in position before the panel 14 is put in place. The first upper corner 34A is then placed in position with the clamping screws 56.
When tightening the second corners 42A, 42B, the screw 50A is screwed into the nut 50B. This operation causes the mutual displacement of the screw 50A downwards and of the nut 50B upwards.
It follows that the head of the screw 50A presses on the jumper 74 which biases downwards, by means of its legs, the first return members 66. The guide face 68 of each first deflection member 66 slides against the lower partition of the cradle 30 so that the second end 72 comes upwardly to urge the second lower corner 42B in its clamping position. Thus, the vertical translational force is produced by the displacement of the screw 50A downwards, a first end 70 of the return member 66 being urged to bear by the screw 50A, here by means of the jumper 74, and a second end 72 of the return member 66 urging the wedge 42B by pressing.
Simultaneously, the nut 50B moves vertically upwards by pulling on the second return member 76. This second return member 76, bearing on the lower face of the cradle 30, pulls the second upper corner 42A downwards to its clamping position. Thus, the vertical translational force is produced by displacement of the nut 50B vertically upward, a first end 78 of the return member being integral in displacement with the nut 50B and a second end 80 of the member being integral in displacement with the second upper corner 42A.
Controlling the tightening of the second corners 42A, 42B by a common screw-nut assembly 50 makes it possible to quickly adjust the tightening of the corners 42A, 42B by a single screwing operation. In addition, this ensures that the clamping force of the corners 42A, 42B is balanced.
Thus, the second corners 42A, 42B arranged on the inaccessible side of the panel 14 are tightened by means of the screw 50A which is arranged on the accessible side of the panel 14. More particularly, the screw 50A is arranged near the screws 56 for tightening the first corners 34A, 34B. Thus, an operator can quickly adjust the verticality and fix the panel 14 without having to move. The screw heads 50A, 56 are accessible through the upper opening of the groove 20 on the same side of the panel 14.
In a variant not shown of the invention, the fixing device 18 comprises a single second corner 42A or 42B which can be tightened either by sliding downwards, or by sliding upwards. Such an embodiment is particularly applicable when each fixing device comprises only two opposite corners each arranged on one side of the panel.
The invention has been described in application to the fixing of a railing panel in a rail. It will be understood that it is applicable to any other type of device comprising a panel to be fixed in a rail, for example a glass partition for a counter, a sign totem, etc.

权利要求:
Claims (10)
[1" id="c-fr-0001]
1. Arrangement for fixing a vertical panel (14) in a longitudinal receiving groove (20) by transverse clamping between at least two corners (34A, 34B; 42A, 42B) opposite transversely, the arrangement comprising:
- At least a first corner (34A, 34B) which is interposed between a first vertical face (24) of the groove (20) and a first face (36) of the panel (14);
- At least one second opposite corner (42A, 42B) mounted opposite the first corner (34A, 34B) on the other side of the panel (14), the second corner (42A, 42B) being interposed between a second vertical face (26) opposite the groove (20) and a second opposite face (44) opposite the panel (14), the second corner (42A, 42B) cooperating by vertical sliding with a second ramp (46, 62) fixed for adjust the verticality of the panel (14);
- At least one set (50) screw-nut intended to produce a vertical translational force of the second corner (42A, 42B) in a clamping direction between the panel (14) and the second face (26) of the groove (20 );
characterized in that the screw-nut assembly (50) is arranged on the same side of the panel (14) as the first corner (34A, 34B), the translational force being transmitted to the second corner (42A, 42B) by the 'Intermediate of a movable return member (66, 76) which is interposed between a lower edge (32) of the panel (14) and the bottom (22) of the groove (20).
[2" id="c-fr-0002]
2. Arrangement according to the preceding claim, characterized in that the return member (66) is a rigid part mounted for rotation about a longitudinal axis between the bottom (22) of the groove (20) and the edge (32 ) lower of the panel (14).
[3" id="c-fr-0003]
3. Arrangement according to claim 1, characterized in that the return member (76) is a flexible member which works in traction around a support (30) fixed angle return which circumvents the edge (32) lower of the panel (14).
[4" id="c-fr-0004]
4. Arrangement according to the preceding claim, characterized in that the fixed angle transmission support is produced in a cradle (30) which straddles the edge (32) of the lower panel (14) and which is interposed between the panel (14 ) and the bottom (22) of the groove (20).
[5" id="c-fr-0005]
5. Arrangement according to any one of claims 3 to 4, characterized in that the tightening direction of the second corner (42A) is directed towards the bottom of the groove, the return member (76) working in traction during the corner tightening (42A).
[6" id="c-fr-0006]
6. Arrangement according to the preceding claim, characterized in that the vertical translational force is produced by displacement of the nut (50B) vertically towards an upper opening of the groove (20), a first end (78) of the return member (76) being integral in displacement with the nut (50B) and a second end (80) of the return member (76) being integral in displacement with said second corner (42A).
[7" id="c-fr-0007]
7. Arrangement according to claim 2, characterized in that the tightening direction of at least one second opposite corner (42B) is directed towards an upper opening of the groove (20), the return member (66) working in compression when tightening the wedge (42B).
[8" id="c-fr-0008]
8. Arrangement according to the preceding claim, characterized in that the return member slides along a trajectory in an arc of a circle parallel to the bottom (22) of the groove (20).
[9" id="c-fr-0009]
9. Arrangement according to the preceding claim characterized in that the vertical translational force is produced by the displacement of the screw (50A) towards the bottom (22) of the groove (20), a first end (70) of the return member being urged to bear by the screw (50A) and a second end (72) of the return member (66) urging the wedge (42B) by pressing.
[10" id="c-fr-0010]
10. Arrangement according to any one of the preceding claims, characterized in that it comprises two second opposite corners (42A, 42B) which have opposite vertical clamping directions, each second corner (42A, 42B) being controlled by sliding. respectively by the nut (50B) and by the screw (50A) of the same assembly (50) screw-nut.
₃ oS ^{& 743}
2/3

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同族专利:

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公开号 | 公开日

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EP3323958B1|2019-09-11|

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EP3323958A1|2018-05-23|

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CA2984283A1|2018-05-17|

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CA2984283C|2021-11-16|

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US20180135669A1|2018-05-17|

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DK3323958T3|2019-10-28|

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FR3058743B1|2019-01-25|

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ES2751058T3|2020-03-30|

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US10830264B2|2020-11-10|

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DE102006028766A1|2006-06-23|2007-12-27|Bernhard Feigl|Holder for plate, especially glass plate placed on floor to form balustrade barrier has floating bearing between parallel sides of holding profile, supporting rail that supports holding profile in horizontal direction on sides of rail|

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EP2921607A2|2014-02-26|2015-09-23|SB Ingénierie|Device for attaching a panel in a support rail|FR3088663A1|2018-11-16|2020-05-22|Sb Ingenierie|FIXING STRUCTURE FOR FIXING A PANEL, IN PARTICULAR A GLASS PANEL|

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FR3088662A1|2018-11-16|2020-05-22|Sb Ingenierie|FIXING STRUCTURE FOR FIXING A PANEL, IN PARTICULAR A GLASS PANEL|

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WO2020100094A1|2018-11-16|2020-05-22|Sb Ingenierie|Fixing structure for fixing a panel, in particular a glass panel|

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FR3088660A1|2018-11-16|2020-05-22|Sb Ingenierie|FIXING STRUCTURE FOR FIXING A PANEL, IN PARTICULAR A GLASS PANEL|

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FR3088661A1|2018-11-16|2020-05-22|Sb Ingenierie|SINGLE CLIP FOR FIXING A GLASS PANEL|US7490882B2|2002-01-14|2009-02-17|Abaco Machines Pty, Ltd|Clamping device for lifting slab, panel or sheet material|

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ITBS20120020A1|2012-02-14|2013-08-15|Metalglas Bonomi S R L|DEVICE FOR ADJUSTING AND / OR LOCKING A SLAB|

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EP3009580B1|2014-10-17|2017-03-22|Compas S.R.L.|System for fixing slab-like elements for railings, balustrades and parapets in general and method using it|

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GB2528147B|2015-03-09|2017-05-24|Pure Vista Ltd|System and method for adjusting alignment of a panel|

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CN107567217B|2016-06-30|2019-11-22|比亚迪股份有限公司|A kind of shell and its preparation method and application|

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DE102016112775B3|2016-07-12|2017-10-05|Bohle Ag|Device for fastening a plate-shaped component in a receiving groove of a mounting rail|US10184267B2|2016-07-01|2019-01-22|Chingyao Kuo|Supporting mechanism for glass fence|

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DE102016112775B3|2016-07-12|2017-10-05|Bohle Ag|Device for fastening a plate-shaped component in a receiving groove of a mounting rail|

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IL247757A|2016-09-11|2020-11-30|Tomak Ltd|System and method for plate alignment|

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DE202017101856U1|2017-03-30|2017-04-27|Häfele Berlin Gmbh & Co Kg|Backplane Einsteckkeil|

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GB2555169B|2017-07-21|2019-10-23|Pure Vista Ltd|Panel support system and method|

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GB2571143B|2018-03-29|2020-03-25|Pure Vista Ltd|Panel support system and method|

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CA3055815A1|2018-09-19|2020-03-19|Euro Ornamental Forgings Inc.|Adjustable glass grip|

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USD934450S1|2019-04-19|2021-10-26|Sb Ingenierie|Barrier support|

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FR3096704B1|2019-05-31|2021-05-07|Sb Ingenierie|"Arrangement for fixing a panel in a rail by clamping outside corners from an inside side of the panel"|

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US10883274B1|2019-09-11|2021-01-05|Vancouver Glazing Hardware Inc.|Horizontal panel alignment system|

法律状态:
2017-11-27| PLFP| Fee payment|Year of fee payment: 2 |

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2018-05-18| PLSC| Publication of the preliminary search report|Effective date: 20180518 |

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2018-11-27| PLFP| Fee payment|Year of fee payment: 3 |

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2019-11-29| PLFP| Fee payment|Year of fee payment: 4 |

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2020-11-30| PLFP| Fee payment|Year of fee payment: 5 |

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2021-11-30| PLFP| Fee payment|Year of fee payment: 6 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1661143|2016-11-17|

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FR1661143A|FR3058743B1|2016-11-17|2016-11-17|ARRANGEMENT FOR FIXING A PANEL INTO A GROOVE USING TWO OPPOSITE CORNERS|FR1661143A| FR3058743B1|2016-11-17|2016-11-17|ARRANGEMENT FOR FIXING A PANEL INTO A GROOVE USING TWO OPPOSITE CORNERS|

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DK17192624T| DK3323958T3|2016-11-17|2017-09-22|DEVICE FOR FIXING A PANEL IN A NOTE BY TWO RESISTING SIGNS|

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ES17192624T| ES2751058T3|2016-11-17|2017-09-22|Arrangement for fixing a panel in a groove by means of two opposite wedges|

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EP17192624.9A| EP3323958B1|2016-11-17|2017-09-22|Arrangement for attaching a panel to a groove by two opposing wedges|

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CA2984283A| CA2984283C|2016-11-17|2017-10-30|Arrangement for fastening a panel in a slot using two opposite wedges|

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US15/815,566| US10830264B2|2016-11-17|2017-11-16|Arrangement for fastening a panel in a slot using two opposite wedges|