CZ309493B6 - Corner joint of a chambered aluminium profile - Google Patents

Abstract

The angle joint of the chamber aluminium profile (1) consists of two parts of the transversely obliquely separated chamber aluminium profile (1) and at least one bent metal connecting element (2), the angle of which is identical to the angle of the required angle joint. The chamber aluminium profile (1) contains at least one partially closed chamber (3), the transverse dimensions of which correspond to the dimensions of the cross section of the connecting element (2). The connecting element (2) is pressed with one end into the corresponding chamber (3) of one part of the aluminium profile (1) and with the other end pressed into the corresponding chamber (3) of the other part of the aluminium profile (1). To limit the clearance between the connecting element (2) and the chamber (3) and their permanent mutual locking, the chamber (3) has at least one delimiting edge (4) along its entire length on the inside extending at least partially into the space of the chamber (3).

Description

Corner joint of a chambered aluminum profile

Field of technology

The invention relates to the field of aluminum structural materials, specifically the joining of two pieces of chambered aluminum profile at a certain angle. It can be used, for example, for the realization of a massive modular aluminum system for fixing glass panes, glazing balconies and balcony loggias. It solves the simple and quick design of the aesthetic corner joint of the modular aluminum system. The use of this invention accelerates the time of realization of corner joints, which reduces production costs for their production.

Current state of the art

The so far known technical solution for joining two pieces of chambered aluminum profile to create a corner joint is to join the two parts by welding. The welding operation is technologically and time-consuming, especially because the completed corner joint must be aesthetically modified, for example by grinding. However, the resulting corner joint is often aesthetically imperfect.

From the document EP 2434083 A1 (Cuhadaroglu Metal Sanayi Ve Pazarlama, A.S.), with priority 28.03.2012, it is known the execution of frame, door, window systems produced with non-destructively detachable rigid corner fasteners. These corner connectors make it possible to close the gaps between the profiles by pulling them together with a joint lock. The invention is suitable for frame systems and door, window or curtain wall systems made using frames that allow a solid and mechanical connection of two or more profiles cut at an angle of 45° or any other desired angle. The required strength of the joint is such that it can support the weight of the filling surface material, especially glass. The connection is made without the use of any mechanical equipment by means of fastening parts, in particular screws, set screws or pins. The resulting connection is rigid and, if performed correctly, also waterproof, but it is not suitable for the connection of larger massive building aluminum profiles, which are subsequently provided with glazing requiring abnormal strength and dimensional stability of the product, created by performing corner connections. In particular, it is not suitable for connecting chambered aluminum profiles of balconies, where it is necessary to use a fixed connection ensuring the safety of people.

It is known to make corner joints suitable for the furniture industry, as described in KR 20110088861 A (Dae Hung System Co. Ltd.), priority 04.08.2011. For its implementation, two arms of chamber profiles made of a suitable material, for example plastic or aluminum, equipped with a continuous partition between the chambers and a lightened corner rigid connecting part, lightened by lightening chambers, which is provided on each of its perpendicular parts with a groove corresponding in dimensions to the continuous partition, are used.

At the same time, this rigid corner connecting part, preferably made of plastic, contains at each end a flexible plastic tab corresponding to its location with the break in the partition. When placing both arms of the vertically situated chamber profiles on the perpendicular ends of the connecting part and pressing them onto these ends of the connecting part, the plastic tongue engages with its flexible part in the break in the partition and thereby locks the mutual connection of the two parts of the two perpendicular chamber profiles with the help of a rigid corner connecting part.

The solution is suitable for the realization of door frames, window systems, picture frames, etc. Its advantage is the possibility of reverse disassembly of the corner joint created in this way, realized by a suitable avoidance of the part, and thereby pushing it out of the break in the partition. The disadvantage of this solution is the low strength of the corner joint, limited by the strength of the connecting part and plastic tabs. In particular, however, a corner joint made in this way shows undesirable play in the individual parts, and thus also undesirable play

- 1 CZ 309493 B6 mutual connection of both chamber profiles. The connection of the two profiles is not perfect, it is unstable and may show an undesirable leak between the two profiles, which is not aesthetic. The solution according to KR 20110088861 A is not suitable for building aluminum constructions, where high demands are placed on the precision of the connection, its aesthetic design and especially on the strength of the design of the angular connection, ensuring in many cases the safety of people.

Also known is the invention DE 102011120374 A1 (Heroal Johann Henkenjohann GmbH & Co. KG), with priority 13.06.2013. This invention relates to a simple and fast demountable corner connection of a frame, for example a window frame, formed by two frame profiles which are connected to each other by means of a corner connecting profile. It solves the simple and quick execution of an aesthetic corner joint. The use of this invention accelerates the time of realization of corner joints, which reduces production costs for their production. Its advantage is the simple and quick execution of the corner connection, which, however, is not strong enough for many uses and shows inappropriate clearance of the connected profiles. The design of the corner joint according to the invention DE 102011120374 A1 is unsuitable for the implementation of an aluminum system in the construction industry, intended for example for fixing glass panes of balcony glazing and balcony loggias, where a massive design is required, contributing to the strength of the entire balcony structure. With such an aluminum structure, considerable emphasis is placed on the strength of the structure, especially if this structure also forms a protective balcony handrail at the same time. In these cases, massive aluminum profiles are used and high demands are placed on the strength of their connections. It is therefore not suitable for such devices to use the solution according to DE 102011120374 A1, where the strength is limited by using only one connecting element of both profiles.

From the research carried out, the solution for the angular connection of chamber profiles is also known, given in the document WO 2014102558 A1 (Vargas Osorno Mariela, Vargas Osorno Camilo Antonio, Guerrico Echeverria Nicolás), with priority 07/03/2014, which is based on a simple principle where both arms are deployed chamber profile into a simple and solid corner part. After pressing both arms of the chamber profile, the corner part is hidden inside the chamber profile. The simple connection of two chamber profiles to the chosen angle given by the angle of the corner part is quick and cheap, but it is not applicable for constructions where high demands are placed on the strength and precision of the angular connection.

From the document WO 2017003367 A1 (IKEA Supply AG, Wallis Fritz), with priority 05.01.2017, it is known to connect individual structural elements, for example furniture legs, metal pipes, possibly also chambered aluminum profiles, as well as other closed profiles, by means of fixed corner elements , on which these connected hollow structural elements are placed. Making the connection is simple and quick. However, its strength is limited by friction between the inner surfaces of the connected structural elements and fixed corner parts. Therefore, the subsequent arresting of the joint is carried out by connecting the structural element with a fixed corner part by means of an insurance screw. This connection system can be used for simple and light, subsequently disassembled connections, for example rack constructions. The resulting connection is not sufficiently strong and stable for many needs, especially not suitable for strength connections of aluminum profiles in the construction industry.

From the patent file DE 202013009756U U1 (M.A.C.'s Holding GmbH), with a priority date of 02.03.2015, a solution for a corner connection suitable especially for fixed protective window nets against insects is known. The solution is based on the insertion of solid, visually recognized subtle corner profile connectors inserted into two corner arms of light rectangular closed profile strips. At the same time, the prevention of unwanted disconnection of the connection is solved by means of a mechanical arresting element located in each arm of the corner connection. The corner joint is simple, aesthetic and cheap. It is only suitable for light joining of subtle profiles.

- 2 CZ 309493 B6

The essence of the invention

The mentioned disadvantages are eliminated by the angle joint of the chambered aluminum profile according to the present invention, consisting of two parts of the chambered aluminum profile. Both parts are made by transverse separation of the chambered aluminum profile, i.e. by cutting it. At the same time, the cut is made transversely through the profile, perpendicular to the profile, and at the same time obliquely at the selected angle so that both parts of the aluminum profile form the desired angular joint after mutual assembly. The angle joint further consists of at least one massive bent metal connecting element, formed by a solid metal element made of strip steel shaped into an angle that is identical to the angle of the angle joint. The aluminum profile is chambered, and contains at least one chamber dimensionally suitable for inserting a metal connecting element. Therefore, its transverse dimensions, i.e. the dimensions of its cross-section, correspond to the dimensions of the cross-section of the connecting element. The chamber can be complete, i.e. closed from all sides, or only partially closed. Thus, it is possible to insert the connecting element into the chamber at one end.

The essence of the invention is that in order to define the clearance between the connecting element and the chamber, the chamber is provided along its entire length on the inner side with at least one delimiting edge that extends at least partially into the space of the chamber, at the expense of its profile. The delimiting edge is part of the aluminum profile and is already created during the production of the aluminum profile. Because the delimiting edge extends into the space of the chamber at the expense of its profile, it prevents the free penetration of the connecting element into the chamber of the chamber aluminum profile. The profile of the delimiting edge, which dimensionally corresponds to the dimension of the connecting element, is indeed reduced by the existence of the delimiting edge or at least its part. Therefore, during assembly, when the connecting element is forced into the chamber, the protruding part of the delimiting edge must be removed. This is done by the connecting element, which, being made of a significantly harder material - steel strip, forcibly removes the protruding aluminum material of the delimiting edge.

At the same time, the smallest clearance between the aluminum profile and the corresponding part of the connecting element is desirably removed. In this way, not only is the clearance between the strong and tough steel connecting element and both aluminum profiles completely eliminated, but in particular a very strong mutual connection of both parts of the aluminum profile is achieved.

The elimination of joint play is substantially increased by using two limiting edges, especially if they are as far apart as possible, for example at least 30 mm.

-It is also desirable to make a larger size of the delimiting edge, or increase the overlap of its tip into the space of the aluminum profile chamber, when when the connecting element is forcibly pushed into the aluminum profile chamber, it is necessary to use greater forces for its destruction. This creates a greater compressive stress between the connecting element and the damaged delimiting edge, which leads to their permanent mutual clamping. At the same time, the strength of the mutual connection of both aluminum profiles and the accuracy of their mutual spatial orientation de facto depends only on the mechanical properties of the steel connecting element, specifically on its strength, flexibility and cross-sectional modules in bending and torsion. At the same time, it is not a problem to choose a higher quality steel material for the connecting element and especially to choose its larger dimensions.

A significantly stronger connection of the two aluminum profiles occurs when two connecting elements are used in one corner joint and also when a longer connecting element is used.

In practice, it has been proven that to create an ideal angle joint of a chambered aluminum profile of normal dimensions, it is advisable to use two massive steel connecting elements located in the aluminum profile as far apart as possible, the ends of which are the same length at least 300 mm.

If the tips of the delimiting edges extend disproportionately into the space of the chamber of the aluminum profile, it is necessary to use

- 3 CZ 309493 B6 greater forces, created for example by blows of a heavy rubber stick. The angle joint of the chambered aluminum profile created in this way is very strong and there is no need to secure its connection with gluing or screws, however, it may be aesthetically damaged during violent handling, for example by the marks of the used pressing tool.

Furthermore, the essence of the invention is that the delimiting edge is in the shape of a triangle with an apex angle smaller than 150°. This leads to a better cutting of the connecting element into the delimiting edge when it is forcefully pressed into the aluminum profile.

It is also essential that the bending angle of the steel strip of the connecting element is created by bending it from strip steel.

It is also important that the chambered aluminum profile contains two chambers and there are two connecting elements. By using two chambers in each part of the aluminum profile and two connecting elements, a more precise spatial definition of both parts of the aluminum profile and their firmer arresting is achieved.

It is also essential that the chambers are the same size and the connecting elements are also the same size. Their unification simplifies the realization of an angle joint.

It is essential that the connecting element is provided with transverse ribbing to make it easier to push the connecting element into the chamber of the chambered aluminum profile.

Finally, it is essential that the connecting element is locked in the chamber of the aluminum profile with this profile in another way. To arrest or for a solid connection, a screw connection or a rivet connection or a glued connection is used.

Clarification of drawings

The invention is explained in more detail with the help of the drawings, which show the execution of the angular joint of the chamber aluminum profile according to the present invention.

Fig. 1 shows the angular joint of both parts of the chambered aluminum profile in an axonometric view. The corner joint is in a finished state. Both parts of the chambered aluminum profile as well as its chamber are visible. The pressed-in connecting element is not visible when it is inside the corner joint of the two parts of the chamber aluminum profile. Fig. 2 shows the corner joint of the chambered aluminum profile in a semi-closed state. The picture shows both parts of the chambered aluminum profile as well as two connecting elements, partially pressed into the chambers of both parts of the aluminum profile. Fig. 3 shows a connecting element which is provided with transverse ribbing. Fig. 4 shows a cross-section of an aluminum profile. Two partially closed chambers are visible. The delimiting edges with which the chambers are provided are also visible. Fig. 5 shows a detail of the cross-section of the chambered aluminum profile. The picture shows the delimiting edges with which the chambers are equipped.

Examples of implementation of the invention

To realize the glazing of the balcony of the panel house using the chambered aluminum profile 1 with glass filling, it is necessary to realize the connection of two parts of the chambered aluminum profile 1 in several places. The required connection angle is 90°. Therefore, it is decided to implement their connection with an angle connection of the chamber aluminum profile 1 according to this invention.

A multi-chamber aluminum profile 1 containing, among other things, two dimensionally identical chambers 3 is used for implementation. Each chamber 3 has a rectangular profile of 5 mm x 50 mm. One chamber 3 is

- 4 CZ 309493 B6 fully closed. The second chamber 3 is not fully closed because part of one of its walls is not complete. Each of the chambers 3 is provided along its entire length on the inner side with two delimiting edges 4 at suitable places. Each delimiting edge 4 is formed by an aluminum projection made along the entire length of the chamber 3, which is equipped with a sharp point along its entire length. To create a 90° angle joint, the chambered aluminum profile 1 is transversely cut into two pieces of the required length. The cut is made perpendicular to the chambered aluminum profile 1. However, it is made obliquely at an angle of 45° so that both parts of the chambered aluminum profile 1 can be situated at an angle of 90° after the connection.

Next, two steel connecting elements 2 are made. Each connecting element 2 is made of a 280 mm long steel plate with a 5 mm x 50 mm profile, which is bent at a 90° angle in the middle. The connecting element 3 is provided with transverse ribbing 5. The transverse ribbing 5 enables easier pressing of the connecting element 2 into the chamber 3. Both connecting elements 2 are pressed into the corresponding chambers 3 of both parts of the chambered aluminum profile 1 and the profiles 1 are pressed together. Since the chambers 3 of both parts of the aluminum profile 1 are provided with delimiting edges 4 with a sharp point and the connecting elements 2 are provided with transverse ribbing 5, the mutually corresponding dimensions of both connecting elements 2 and the dimensions of the chambers 3 can be chosen very closely. Therefore, each steel connecting element 2 can be pressed into the respective chamber 3 using force that is commonly available, for example with a rubber hammer. At the same time, the transverse ribbing 5 of the connecting elements 2 is forcibly cut into the sharp aluminum tips of the delimiting edges 4 of the chambers 3. Thus, both parts of the chambered aluminum profile 1 with the connecting elements 2 are immovably connected to each other. After the two parts of the chambered aluminum profile 1 are pressed against each other, holes are made in suitable out-of-sight places of both parts of the aluminum profile 1 and both connecting elements 2 are locked in the chambers 3 with the profiles 1 in a known manner by means of self-tapping screws. Due to the careful and precise cutting of both parts of the chamber aluminum profile 1 at an angle of 45° and the use of connecting elements 2 bent at an angle of 90°, with subsequent locking with self-tapping screws, an angular joint of the two parts of the chamber aluminum profile 1 is created in this way, which is rectangular, aesthetic and extremely strong. The angular joint of both parts of profile 1 made in this way can be disassembled, but it is not advisable to disassemble it several times after almost violent assembly. With each further manipulation, the sharp aluminum tip of the delimiting edge 4 is planed by the steel connecting element 2, and the mutual spatial locking of both parts of the aluminum profile 1 with the connecting elements 2 is then not ideal.

In the second exemplary embodiment, it is necessary to create a regular hexagon window from the chambered aluminum profile 1, which will be filled with non-opening glazing. A regular hexagon should contain six equally long parts of the chambered aluminum profile 1, the joints of which should each be made at an angle of 60°.

A chambered aluminum profile 1 is used for the implementation, containing, among other things, one chamber 3 with a profile of 40 mm x 5 mm, which passes through its entire length. The chamber 3 is provided with two delimiting edges 4 along its entire length on the inner side. The delimiting edges 4 are located on the longer lower side of the 40 mm long surface of the chamber 3, at a distance of 30 mm from each other, i.e. almost in the corners of the chamber 3. Each delimiting edge 4 is triangular in cross-section with an apex angle of 60°.

The implementation procedure is as follows:

Chamber aluminum profile 1 is carefully cut into six identical parts. The cuts are made perpendicular to the aluminum profile 1. All ends of the individual parts of the chambered aluminum profile 1 are cut at an angle of 60°, always perpendicular to the profile 1 so that the required hexagon can be formed after assembly. Connecting elements 2 are six pieces of steel flats, each 300 mm long, with a profile of 40 mm x 5 mm. Each connecting element 2 is bent in the middle at an angle of 120°. The dimensions of the cross-section of the connecting element 2 correspond to the dimensions of the cross-section of the chamber 3 of the used chambered aluminum profile 1. Each connecting element 2 is equipped with transverse ribbing 5 so that perpendicular grooves of 40 mm are formed in it on both sides over its entire width

- 5 CZ 309493 B6 0.5 mm deep and 5 mm wide. The distance between the individual grooves is 6 mm. This creates 2 transverse protrusions of 1 mm, 6 mm apart, on the connecting element. Each chamber 3 is very tight with respect to the connecting element 2 due to its dimensions. The connecting element 2 is pressed with one end into the chamber 3 of one part of the aluminum profile 1 and with the other end pressed into the chamber 3 of the other part of the aluminum profile 1. At the same time, when the connecting element 2 is forcefully pressed into the chamber 3, the sharp points of both defining edges 4 are irreversibly broken. for the ribbing 5 of the connecting element 2, which is in contact only with the minimal surface of the sharp points of the delimiting edges 4, no significant force is needed to push the connecting element 2 into the chamber 3, but mere blows of a rubber stick are sufficient. This is made possible by the fact that each connecting element 2, when pressed into the chamber 3, overcomes the resistance only at a number of points determined by the contact of its transverse protrusions and sharp delimiting edges 4. At the same time, after pressing the connecting element 2 into the chamber 3, the connecting element 2 is spatially well defined in relation to the aluminum profile 1 and sufficiently firmly locked. Since all six angular joints of a regular hexagon are made in this way, all its joints are spatially precisely defined. At the same time, they are strong enough for handling and aesthetically pleasing. When assembling the individual parts of the chambered aluminum profile 1 into a regular hexagon, the connecting elements 2 are provided with a suitable adhesive, ensuring the final strengthening of all the corner joints of the chambered aluminum profile 1 of the thus created hexagonal modular system.

Industrial applicability

The angle joint of the chamber aluminum profile according to this invention can be used especially in the realization of aluminum constructions from the chamber profile, suitable for example for glazing balcony loggias in panel houses. The realization of the corner joints of the chamber aluminum profile according to this invention is quick and simple.

Claims (7)

1. Corner joint of a chambered aluminum profile (1) consisting of two parts of a transversely obliquely separated chambered aluminum profile (1) and at least one bent metal connecting element (2), the bending angle of which is identical to the angle of the required corner joint, while the chambered aluminum profile ( 1) contains at least one at least partially closed chamber (3), the transverse dimensions of which correspond to the dimensions of the cross-section of the connecting element (2), while the connecting element (2) is pressed at one end into the corresponding chamber (3) of one part of the aluminum profile (1) and with the other end pressed into the corresponding chamber (3) of the second part of the aluminum profile (1), characterized by the fact that in order to define the clearance between the connecting element (2) and the chamber (3) and their permanent mutual locking, the chamber (3) is length on the inner side provided with at least one delimiting edge (4) extending at least partially into the space of the chamber (3), at the expense of its profile. 2. Corner joint of a chambered aluminum profile (1) according to claim 1, characterized in that the delimiting edge (4) is in the shape of a triangle with an apex angle of less than 150°. 3. Angular joint of a chambered aluminum profile (1) according to claim 1, characterized in that the creation of the bending angle of the steel strip of the connecting element is carried out by bending it. 4. Corner joint of a chambered aluminum profile (1) according to claim 1, characterized in that the aluminum profile (1) contains two chambers (3) and there are two connecting elements (2). 5. Corner joint of a chambered aluminum profile (1) according to claim 3, characterized in that the chambers (3) are identical in size and the connecting elements (2) are also identical. 6. Corner joint of a chambered aluminum profile (1) according to claim 1, characterized in that the connecting element (2) is provided with transverse ribbing (5) for easier pressing of the connecting element (2) into the chamber (3). 7. Corner joint of a chambered aluminum profile (1) according to claim 1, characterized in that the connecting element (2) is locked in the chamber (3) of the profile (1) with this profile (1) by one of the following elements: screw joint, rivet joint, glued joint.