FI123388B - Corner joints and method for forming a corner joint - Google Patents

Description

Angle joint and method for forming angular joint

The invention relates to an angular joint having a first frame member and a second frame member, and a fastening screw connecting the first and second frame members. The invention further relates to a method for forming an angle joint.

5 Various angular joints can be used to connect vertical and horizontal parts of the door and window frames and frames. At the ends of the parts to be joined, a joint surface can be machined with finger-like parts that overlap with the joint surface of the other body. The joint surfaces may also be substantially flat, whereby the end face of the first frame member abuts the side surface 10 of the second frame member against the notched joint surface. Adherence of the joint is secured by the application of glue and wooden studs or screws to the joining surfaces.

There are several problems with known corner joints between door and window frames and frames. During use, the frames and frames are subjected to mechanical loads, which particularly stress the angular joints between the frames and frames. Loads are caused, for example, by the weight of the window sash itself, which strain the sash, especially when the sash is open and only resting on the hinged side of the frame member. The weight of the structure itself also causes loads on, for example, heavy sliding doors when opening and closing doors. Also, vibrations due to traffic, natural forces and temperature fluctuations cause external stresses on the joints in different directions. Due to the loads, gaps often occur at the angular joint between the interconnected parts. The angle joint formed by screws or pins is structurally rigid, which makes the deformation at the joint point irreversible, ie the gaps between the joint surfaces do not close t? 25 when external load is removed. The gaps impair the rainproofness and airtightness of the frame or frame structure and impair the appearance of the structure. The gaps at the joints 9 are particularly damaging to those parts of the building where building regulations require good water and air tightness. Such structures £ are e.g. sliding doors and windows are the exterior doors of the building.

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US 4143493 discloses a window frame made of metal profiles, where screw fastening is used in the corner joints of the frame. In the corner joint, the screws o extend through the wall of the first profile to the tongue in the second profile.

The tongue deformation ability keeps the joint between the profiles tight, even though the profiles are subject to deformation due to temperature fluctuations.

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It is an object of the invention to provide an angular joint of portions of a frame and a method of forming an angular joint which can reduce the drawbacks and drawbacks of the prior art.

The objects of the invention are achieved by an angle joint and a method, characterized by the features set forth in the independent claims. Certain preferred embodiments of the invention are set forth in the dependent claims.

The invention relates to a corner joint having a first frame member and a second frame member which are joined together by a fixing screw. The first frame member has a butt face and the second frame member has an end face which are in parallel 10 in the joint, i.e. they are facing faces in the joint. The basic idea of the invention is that there is at least one sliding plate between the butt face and the end face. The purpose of the sliding plate is to reduce the friction between the opposing surfaces at the joint. Preferably, there are two sliding plates between the butt face and the end face, the first slider being fixed to the end face and the second sliding plate being attached to the butt face. The sliding plates may be substantially flat or may have a wedge-shaped shape. The wedge-shaped sliding plates are arranged relative to one another such that the sliding plates overlapping in the joint form a substantially uniform layer structure.

In a preferred embodiment of the angular joint according to the invention, the end-20 surface has a recess for accommodating at least one sliding plate. In a preferred embodiment of the angular joint according to the invention, the butt face has a recess for accommodating at least one sliding plate. The recess in which at least one sliding plate is disposed may thus be located either on the end face of the second frame member or on the butt face of the first frame member or both. The recess has a depth of "25 substantially equal to the thickness of the slide or slides therein,

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whereby the edge portions of the recess prevent the sliding plates from appearing in the finished angular joint.

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In another preferred embodiment of the angle joint according to the invention,

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In this case, the friction coefficient of the sliding plates is substantially lower than the friction coefficient of the butt surface and the main o f 30. The sliding sheets may be made of, for example, plastic material, silicone or metal, and their opposing surfaces may have an anti-friction coating, such as a Teflon coating.

In a third preferred embodiment of the angle joint according to the invention, the fastening screw is inclined at an angle to the longitudinal direction of the first frame member and the second frame member and the joint has a tensioning member pulling towards the first frame member and the second frame member. Preferably, the clamping member is a helical spring disposed in a hole drilled in the second frame member and through which the fastening screw is screwed into place.

A fourth preferred embodiment of the corner joint according to the invention is the corner joint of the sliding door, wherein the first frame member and the second frame member are substantially at right angles to each other.

In the method according to the invention, an angle joint is formed by joining the first frame part and the second frame part together with a fixing screw. In method 10, a butt surface is formed in the first frame part and a main surface is formed in the second frame part, which are placed parallel to each other in the angle joint to be formed. The basic idea of the method is that at least one sliding plate is provided between the butt face and the end face. Preferably, two sliding plates are followed between the butting surface and the end surface, the first sliding plate being fixed to the end surface and the second sliding plate being fixed to the butt surface.

In a preferred embodiment of the method according to the invention, a recess is formed on the end face and / or butt face for accommodating at least one sliding plate.

In another preferred embodiment of the method according to the invention, a corner joint of a sliding door is formed in which the first frame member and the second frame member are joined at substantially right angles to each other.

The angle joint according to the invention has the advantage that it retains its water and air tightness even though it is subject to high external loads such as traffic δ vibration, impact forces from opening and closing doors or natural

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^ 25 forces such as earthquakes, δ i δ A further advantage of the angular joint according to the invention is that there are no visible gaps which weaken the appearance of the g joint.

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Another advantage of the invention is that it is structurally simple and fits well

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! £ for industrial manufacture, δ ^ 30 The invention will now be described in detail. In the description, reference is made to the accompanying drawings, in which Fig. 4a illustrates an angle joint according to the invention as a first cross-sectional view, Fig. 1b illustrates an angle joint according to Fig. 1a as a second cross sectional view.

Figures 1a and 1b show, by way of example, an angular joint according to the invention in cross-sectional views. The angular joint shown in the figures is an angular joint of a sliding door frame, in which the first rod-shaped frame member 10 and the second rod-shaped frame member 10 are connected substantially at right angles to each other. The first frame member is in a substantially horizontal position during normal operation of the frame and the second frame member is in a substantially vertical position during normal use of the frame. The side surface 12 of the first frame member has been removed from the side surface 12 so that a recess is formed on the side surface. 15 Loveus has two substantially smooth surfaces; a butt face 16 facing an end face 24 of a second frame member 20 and an edge face 18 facing the side face 22 of a second frame member substantially parallel to the side face of the first frame member and the edge face being substantially perpendicular to said faces. Between the press surface and the end surface there are two slider 20s, the first slide plate 26a being fixed to the end surface 24 of the second frame member and the second slide plate secured to the bum surface 16 of the first frame member. glue or mechanical fasteners such as rivets, nails or t? 25 staples. The sliding plates are made of a material that is pressure-resistant, has a low ™ friction coefficient, such as plastic or silicone.

To accommodate the sliding plates, the end surface 24 of the second frame member is provided with ο 14 a recess 14 having a depth substantially equal to the thickness of the two overlapping ϊ sliding plates. The edge portions 15 of the recess thus cover the sliding plate substantially

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30 slides are not visible outside the corner joint. Secondly, between the side surface 22 and the edge surface 18 of the frame member there is a sealing layer 28 which

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^ is formed by applying an elastic sealant to the edge surface.

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The outer surface 30 of the second frame member has a drilled hole 32 having a larger diameter portion 32a and a smaller diameter portion 32b. The opening portion of the hole extends 35 into a second frame portion at a distance from the end surface 24 and the remainder of the hole 5 extends beyond the interface between the second frame portion and the first frame portion to the first frame portion. The longitudinal direction of the hole forms an angle α with the longitudinal direction of the other frame. The angle in the picture is 45 degrees, but can be between 30 and 60 degrees. A helical spring 34 is mounted in the hole, the outer diameter of which is slightly smaller than the diameter of the beginning of the hole. A screw 36 is screwed into the hole so that it passes through the center hole of the helical spring and its tip is drilled into the first frame member. The outer diameter of the mounting screw head is larger than the diameter of the center hole of the coil spring, so that the coil spring is clamped between the base of the fixing screw and the bottom of the initial hole. The compressed helical spring exerts a spring force on the bottom of the opening of the 10 holes, which acts on the other frame portion at an angle of 45 degrees to its longitudinal direction. The spring force can thus be divided into a first force component substantially parallel to the first frame member 10 and a second force component substantially parallel to the second frame member 20. The first force component pushes the second frame member against the edge surface 18 of the first-15 frame member and the second force component pushes the second frame member against the indentation butt face 16 of the first frame member. The appropriate number of fastening screws and holes drilled into one of the corner joints is determined by the dimensions of the frame members. For example, the fastening screws may be one, two or three per corner joint.

The angular joint of the invention allows the first and second frame members to move relative to one another if loads are applied to the first and / or second frame members which force the frame members apart. As the first and second frame members separate from each other, the helical spring is more compressed, allowing for a temporary distance of the opposing surfaces at the junction. However, immediately after the load has been removed, the spring force pa-eo repositions the joint to its original shape. The coil spring thus acts as a clamping element, which prevents the formation of permanent gaps between the contact surfaces of the joint. Buffer; most of the joint surface between the surface 16 and the end surface 24 is a sliding plane 50 between the plates i T-26a, 26b as the frame members move relative to one another

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x 30 alignment is formed by the slip between the sliding plates. Sliding plates 26 low

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the coefficient of friction facilitates the return of the frame parts to their original position. The rotation prevents the formation of gaps caused by momentary external loads, as well as gaps between the contact surfaces of the joint due to changes in temperature and / or humidity of the frame member.

Figure 2 shows, by way of example, a preferred embodiment of the angular joint according to the invention. The embodiment of Fig. 2 differs from the invention of Fig. 1 in that the sliding plates 126a, 126b now mounted in the recess 14 of the second frame member 20 are wedge-shaped. The first sliding plate 126a is secured to the end face of the second frame member 20 so that its thinner edge is furthest from the side surface 22 of the second frame member and the second slide member is secured to the butt face 16 of the first The overlapping sliding surfaces in the corner joint thus form a substantially uniform sliding sheet layer through which the inclined sliding plane 50 passes, so that the angle between the sliding plane and the edge surface 18 of the first frame member is a sharp angle. The angle between the side surface 22 of the second frame member and the slide 50 is a sharp angle. A particular advantage of this embodiment is that the gravity acting on the second frame member contributes to the movement of the opposing surfaces in the angular joint as close as possible to one another. The inclined position of the butt and end surfaces makes it easier to return the frame members to their original position after temporary separation of the frame members.

The angular joint according to the invention described above is particularly suitable for building components used in house construction having a periphery formed of horizontal first frame members and vertical second frame members. Typically, such building components include, for example, wooden frames and frames 20 for windows and wooden frames for sliding doors. The material of the frame members is not limited only to the wood material, but the invention can also be applied to combs made of other materials such as aluminum or plastic. Further, however, the invention is not limited to angular joints used only in window or door frames, but can be applied to any building component in which two elongated members are joined to form an angular joint.

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Certain preferred embodiments of the method of making the angular joint and angular joint according to the invention have been described above. The invention is not limited to the solutions described above, but the inventive idea can be applied in various ways within the scope of the claims.

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Claims (14)

7 An angle joint having a first frame member (10) and a second frame member (20) and a fastening screw (36) for connecting the first and second frame members, characterized in that the first frame member (10) has a bum surface (16) and a second frame member. (20) is an end face (24) which is joined in parallel and there is at least one slide plate (26a, 26b, 126a, 126b) between the butt face and the end face, Angular joint according to claim 1, characterized in that between the butt face (16) and the end face (24) there are two sliding plates (26a, 26b, 126a, 126b), wherein the first sliding plate (26a, 126a) is fixed to the end face and 26b, 126b) is fixed to the butt surface. Angle joint according to Claim 1 or 2, characterized in that the sliding plates (26a, 26b) are substantially flat. Angular joint according to Claim 1 or 2, characterized in that the sliding plates (126a, 126b) are wedge-shaped. Angle joint according to Claim 3 or 4, characterized in that the sliding plates (26a, 26b, 126a, 126b) which overlap in the joint form a substantially uniform layer structure. Angular joint according to one of Claims 1 to 5, characterized in that the end face (24) has a recess (14) for accommodating at least one sliding plate (26a, 26b, 126a, 126b). Angular joint according to one of Claims 1 to 5, characterized in that the 'butt face (16) has a recess (14) for accommodating at least one sliding plate (26a, 26b, 126a, o 126b). Angular joint according to one of Claims 1 to 7, characterized in that the friction coefficient of the sliding plates (26a, 26b, 126a, 126b) is substantially less than | friction coefficient of the butt face (16) and the end face (24). C/O Angle joint according to one of Claims 1 to 8, characterized in that the fastening screw (36) is inclined at an angle to the longitudinal direction of the first frame member (10) and the second frame member (20) and has a tensioning member a coil spring (34). 8 Corner joint according to one of Claims 1 to 9, characterized in that it is a corner joint of a sliding door, in which the first frame part (10) and the second frame part (20) are substantially at right angles to each other. A method of forming an angular joint, wherein the first frame part (10) and the second frame part (20) are joined by means of a fastening screw (36), characterized in that the method comprises: - forming a butt face (16) and a second frame part (20) an end face (24), - positioning the butt face and end face in parallel, and 10. arranging at least one sliding plate (26a, 26b, 126a, 126b) between the butt face and the end face. Method according to Claim 11, characterized in that two sliding plates (26a, 26b, 126a, 126b) are provided between the butt face (16) and the end face (24), the first sliding plate (26a, 126a) being fixed to the end face and the second sliding plate (26b, 126b) is attached to the butt face. Method according to Claim 11 or 12, characterized in that a recess (14) is formed in the end face (24) and / or the butt face (16) for accommodating at least one sliding plate (26a, 26b, 126a, 126b). Method according to one of Claims 11 to 13, characterized in that it comprises an angular joint of a sliding door frame, in which the first frame part (10) and the second frame part (20) are joined at substantially right angles to each other. CO δ C \ J δ i δ X IX Q. CO o CO m δ c \ j 9