CZ32825U1 - Self-locking lock joint of the support profile and the plate element - Google Patents

Description

Technical field

The technical solution relates to a self-locking lock joint of a support profile and a plate element, forming a mutually interconnecting system, where the individual elements of the system enable the implementation of a detachable joint serving primarily to attach the plate element of any shape to the support profile, e.g. This connection consists of two counterparts of the lock - a matrix and a plug. Their interaction forms a lock joint regardless of their shape. The composition of the elements ensures wide application variability.

The plate element can be fixed in tangent and tangential arrangement with respect to the support part. In both types of arrangement, rotation and locking around the axis of the support profile is provided. The stackability of the individual floors transfers the arrest to the surrounding floors without the need for fixed joints between the plate element and the supporting profile. Assembly of the joint does not require any additional fasteners or special tools. The self-locking locking joint according to this technical solution is designed especially for mounting of board elements as information carriers, eg orientation signs, advertising banners etc. Thanks to extraordinary variability the system is also destined for use in building and interior design, eg fences, screens, dividing walls, stairs, information pylons, pens and wherever a tangent or tangential fixation of the plate element and the supporting profile is required. Reductions, form connectors and reducers of the system make it possible to create joints of supporting profiles and plate elements of any strength and shape. The plate element may be formed of any material, typically wood, plastic, metal, composite, etc.

BACKGROUND OF THE INVENTION

Standards of the state of the art include the fastening of the plate element to the supporting profile using strapping machines, special tools and various types of fasteners, such as screws, nuts, rivets, welds, adhesives, etc. These machines and tools are classified according to degrees into semi-automatic strapping machines or hand strapping tools, in addition to the insertion frame and automatic strapping machines, with the insertion or nail frame.

The common feature of these applications is in our view insufficient emphasis on design requirements, simple and directionally accurate assembly. It is almost always mounted at a height of 3 meters above the ground and above. Using additional elements and special tools makes them uncomfortable at these heights and increases the risk of injury. It is also almost always a complex assembly that cannot be handled by a single person.

The manual strapping method consists of fastening by passing the tape through the buckle and around both fasteners, tightening by means of tensioners and connecting the tape by self-locking or deformation buckle, or by welding the tape. The strapping method cannot be used without the tools described.

Therefore, tools or mechanical tools, such as clamping pliers and tape, are always required for mounting to arbitrarily large diameters and profiles. The tape must also be tightened to the required tension. The fastening procedure consists of turning the pliers over the buckle and cutting the binding straps, then close the buckle with a hammer, or with pliers that are adapted for deformation. Modification, repair or any other manipulation is thus very difficult to implement.

The essence of the technical solution

The essence of the technical solution is a self-locking lock joint of the supporting profile and plate

The U1 element forms a mutually modular connection system, wherein the individual elements of the system enable the realization of a reclosable joint serving primarily to attach a plate element of any shape to a supporting profile, eg a post.

This technical solution is not limited in any way by the shape of the profile.

However, one skilled in the art will readily understand the applicability of the solution to other profile shapes, such as square, rectangular, hexagonal, etc., as well as the way in which the individual elements of the technical solution are to be adapted to achieve the desired effects.

In order to form at least one self-locking lock joint, a pair of locking elements is required which delimits the space for accommodating other elements of the modular system. The locking element comprises a main opening through which the support profile extends, to which it is attached by at least one fixing member, which passes through an opening formed in the side wall of the locking element and extends into the support profile. The locking element comprises at least two connecting holes for interconnecting the locking element with other locking joint elements according to the present invention by means of connecting members, e.g. pins.

Advantageously, the number of these connecting holes is increased so that they are formed over the entire circumference of the locking element and further so that there is a minimum distance, e.g. corresponding to their diameter, between the individual connecting holes, providing the possibility of stepwise rotation of the adjacent locking element. with locking element. This adjacent element is the base of the locking joint. The angle of rotation of the base is given by the distance between the centers of the individual connection holes.

In the preferred embodiment of FIG. 1, the fixation member extends through two side openings formed on opposite portions in the locking element and at the same time it intersects the support profile. The fixing member according to this preferred embodiment is further preferably secured in the locking element by means of at least one pin recessed perpendicularly to the fixing member through the connecting opening of the locking element.

The lock joint base comprises a main opening through which the support profile extends, the base comprising connection openings for engagement with the arresting element or other base. Optionally, the base has the same configuration of the connecting holes as the locking element, but from the standpoint of the strength of the base it may not always be advantageous to have a high number of connecting holes as the locking element. When the locking element is used as an intermediate between two bases, a high number of connecting holes is advantageous because of the possibility of selecting a small angle of relative rotation of the connected elements, ie the locking element and the base placed above it, resulting in very accurate rotation of the plate elements seated in supporting elements connected to the base.

The base comprises at least one recess for embedding further locking joint elements, in particular a support element of the plate element. In the embodiment shown in the accompanying drawings, which are not limiting in relation to the present invention, the base comprises at regular intervals just four recesses for inserting the support elements, with an angle of rotation of 90 degrees between adjacent support elements.

The support element of the plate element comprises a recess shape complementary to the shape of a portion of the base adjacent to the support element, as seen, for example, in FIG. Thus, this connection is essentially formed by two counterparts of the lock, i.e. a die and a plug. Their interaction forms a lock joint regardless of their shape. The composition of the elements ensures wide application variability.

Preferably, the inner wall of the main aperture of the base includes a recess at the recess for receiving a latch of the support member to provide a firm connection of the support member to the base. In the variant

The embodiment, not shown in the figures, further comprises a base at the recess of at least one connecting aperture in which a support member formed on a surface adjacent the recess of the base abuts, or the support also includes a connecting aperture in place of the connecting member and both. elements connected by an additional coupling member.

In a preferred embodiment, the wall of the support element adjacent to the support profile follows the shape of the support profile.

The support element further comprises a groove for embedding the plate element. The groove may be in the cross-sectional axis of the support profile, or in an axis perpendicular to the cross-sectional axis of the support profile, i.e. in the axis of the tangent of the support profile. These two embodiments of the support element allow tangential or tangential gripping of the plate element and the support profile. Against the displacement of the plate element in the groove, the groove of the support element may comprise at least one protrusion and / or recess which is complementary in shape to the protrusion and / or recess in the plate element and forms a locking connection with each other, as shown in FIG. 1 or FIG. 6. In a variant embodiment, the recess can completely replace the groove, see Fig. 4c and 4d, respectively, may penetrate the entire support member so as to form an opening in the support member; 4a to 4d.

If the free position in the base is not used by engaging the support element, the recess is preferably filled with a blanking plug. The plug completes the base recess in its shape and can be secured with a latch as well as a support element. The base preferably comprises at least four recesses for engaging the support element, as seen, for example, in FIG. 1 and FIG. 2a.

Two bases and two support elements are needed to mount the plate element, which are mutually mirrored so that they abut the lower and upper edges of the plate element, as shown in FIG. 1 or FIG. 6.

As already mentioned, the plate element can be fixed in both tangent and tangential arrangement with respect to the support part, i.e. the support profile. In both types of arrangement, rotation and locking around the axis of the support profile is provided.

An essential advantage of this technical solution is the fact that the stackability of the individual trays transfers the arresting to the adjacent trays without the need for rigid joints between the plate element and the supporting profile. Assembly of the joint does not require any additional fasteners or special tools.

At least two locking elements are required to secure one or more self-locking joints of the support profile and the plate element. The seating of each plate element requires a fit between two support elements. The number of support elements on one base is given by the number of free positions, ie the number of recesses formed in the base. Two bases are needed to close the pair of support elements clamping the plate element, which are arranged in mirror configuration with each other and in effect form a clamp clamping of the plate element.

In the case where two levels of self-locking joints are formed, an intermediate storey splitter connecting adjacent bases by means of connecting members may be interposed between individual levels. The hub comprises at least two connecting holes and differs from the locking element in that it does not include a hole for receiving the fixation member. It is not necessary for the splitter to be firmly connected to the support profile, since this function is provided in particular by the extreme detent elements.

In a simple embodiment, the bases can be connected directly in the absence of a splitter. However, this limits the possibility of a fine rotation consisting in the absence of a higher number of connecting holes, since, because of the rigidity of the structure, it is advantageous that the connecting holes are provided at the base location which retain the original height which is not reduced by recess. In particular, the hub serves for the desired directional rotation of one base relative to the adjacent base or other bases depending on the position of the adjacent base, unless there is

An additional hub has been inserted for further directional correction.

In a preferred embodiment, the inner wall of the base and / or the locking element and / or the hub adjacent to the support profile may comprise at least one projection for firmly gripping the support profile.

The arrangement proposed here is based on the use of specifically designed modular parts, ensuring simple, directionally accurate connection without the use of any tools. One person with minimal installation skills can handle such assembly without difficulty. In addition, the system allows for stacking and unequivocal directional and height configuration.

This can be defined off-site thanks to the code markings on all modules. This is essential and indisputably innovative for building large-scale guidance systems. The configuration using the code mark eliminates incorrect assembly. In addition to the functional aspect, i.e. the unambiguously positive technical effects of the solution according to the invention, the aesthetic value of all the parts used for the self-locking locking connection of the support profile and the plate element is also important.

Accordingly, it is preferred that at least the base, the locking element and the support element comprise a code mark corresponding to the configuration to be achieved by their interconnection.

In a further preferred embodiment, the individual parts, i.e. the base and / or the locking element and / or the support element and / or the plug and / or the hub, may comprise further recesses to reduce their weight. These recesses are generally on surfaces that are not visible after their installation. This is apparent from FIG. 2b, 3b, 4b, 4d and 5b.

Advantageously, the material used to manufacture the individual parts is designed to be fully recyclable, weather and UV resistant, ensuring its extremely long life and functionality throughout the system. This solution is not limited to any suitable material providing a self-locking locking connection of the support profile and the plate element. Preferably, the product material of the individual parts is a thermoplastic, more preferably a polyamide, most preferably a polyamide with an admixture of glass fibers in an amount of 35% by volume, known for example under the designation PA6GF35.

Another advantage of the system is the unambiguous and precise rotation and locking of the individual parts, i.e. the base and the locking element, around the support profile.

Clarification of drawings

Giant. 1 is an exploded view according to one embodiment of a self-locking lock joint of a support profile and a plate element used to install four plate elements in a tangential configuration on a circular cross-sectional support profile on two floors using two pairs of bases, two arresting elements and one hub;

Giant. 2a is an axonometric view of an upper portion of a base according to one embodiment;

Giant. 2b is an axonometric view of a bottom portion of a base according to one embodiment;

Giant. 3a shows an axonometric view of the upper part of the locking element according to one embodiment;

Giant. 3b is an axonometric view of a lower portion of a locking member according to one embodiment;

-4GB 32825 U1

Giant. 4a is an axonometric view of an upper portion of a support element for tangentially attaching a plate element according to one embodiment;

Giant. 4b is an axonometric view of a lower portion of a support element for tangentially attaching a plate element according to one embodiment;

Giant. 4c is an axonometric view of an upper portion of a support member for tangential mounting of a plate element according to one embodiment;

Giant. 4d is an axonometric view of a lower portion of a support member for tangentially retaining a plate element according to one embodiment;

Giant. 5a is an axonometric view of the top of the plug;

Giant. 5b is an axonometric view of the bottom of the plug;

Giant. 6 is an exploded view according to one embodiment of a self-locking lock joint of a support profile and a plate element used to install one plate element in a tangent configuration on a circular cross-section support profile using one pair of bases and two locking elements;

Giant. 7 is an axonometric view of an example installation of both types of self-locking lock joints on a support profile.

Examples of technical solutions

Example 1

The self-locking locking joint of the support profile and the plate element as part of the installation according to FIG. 1, consisting of two locking elements 1, two bases 2, two supporting elements 5 and a plate element 6.

The locking element 1 comprises a main opening 11 for the support profile 8 and comprises in the side wall two openings 12 for receiving a fixing member 2 passing through the support profile 8 and closed in the locking element 1 by two pins 22 sunk into the connecting holes 15 of the locking element 1. 13 of the locking element 1, which serves to receive the connecting members 3, are designed in this embodiment such that the adjacent holes 13 have a spacing between them corresponding to their diameter and are formed along the entire circumference of the locking element 1.

The locking element 1 is connected by means of connecting members 3 to the base 4, which for this purpose comprises connecting holes 44 for receiving the connecting members 3. The base 4 further comprises four recesses 42 for receiving the supporting elements 5 and has grooves on the inner wall adjacent to the supporting profile 8. 43 for receiving the latch 54 of the support element 5 ensuring a firm connection of the support element 5 to the base 4. The support element 5 further comprises a groove 51 for receiving the plate element 6. The groove 51 is formed in the cross-sectional axis of the support profile 8 for tangential gripping.

In the case of not using the free position in the base 4 by engaging the support element 5, the recess 42 is preferably occupied by a blanking plug 7. The blanking plug 7 complements the recess 42 of the base 4 by its shape and is secured against falling out by a latch 71.

Against the displacement of the plate element 6 in the groove 51, the groove 51 of the support element 5 comprises a recess 52 which is complementary in shape to the projection 6 in the plate element 6 and forms mutually with each other

-5 CZ 32825 U1 locking connection.

Example 2

In the variant of FIG. 6, the groove 51 of the support element 5 serving for the embedding of the plate element 6 is formed in an axis perpendicular to the axis of the cross-section of the support profile 8, i.e. in the axis of the tangent of the support profile 8.

Example 3

In a variant embodiment, the recess 53 completely replaces the groove 51, see FIG. 4c and 4d, or the recess 52 may extend through the entire support element 5 to form an opening in the support element 5, see FIG. 4a to 4d.

Example 4

In an alternative embodiment not shown in the figures, the base 4 further comprises at least one connection opening at the recess 42 in which the connecting member of the support element 5 formed on the surface 52 adjacent to the base recess 42 abuts, or the support member 5 also comprises a connection opening the coupling member and both elements 4 and 5 are connected by an additional coupling member 3.

Example 5

In a preferred embodiment, the wall of the support element 5 adjacent to the support profile 8 follows the shape of the support profile 8.

Example 6

In the event that two levels of self-locking joints are formed, an intermediate storey 9 may be interposed between the individual trays 9 connecting adjacent bases 4 by means of connecting members 3. The hub 9 comprises at least two connecting holes 92 and differs from the arresting element 1 in to insert the fixation member 2.

Example 7

In a preferred embodiment, the inner wall of the base 4 and / or the locking element 1 and / or the hub 9 adjacent to the support profile 8 may comprise at least one protrusion for firmly gripping the support profile 8. According to FIG. 3a, the inner wall of the locking element 1 comprises a projection 111.

Example 8

In a preferred embodiment, the base 4, the locking element 7 and the support element 5 comprise a code mark corresponding to the configuration to be achieved by their interconnection.

Example 9

In a further preferred embodiment, the base 4 and / or the locking element 1 and / or the support element 5 and / or the plug 7 and / or the hub 9 comprise further recesses to reduce their weight. According to FIG. 2b the base 4 comprises recesses 45. According to FIG. 3b, the locking element 7 comprises a recess 14. According to FIG. 4b and 4d, the support element 5 comprises recesses 55. According to FIG. 5b comprises a plug 7 of recesses 72.

-6GB 32825 U1

Example 10

The material used to make the elements of the self-locking lock joint is a thermoplastic, more preferably a polyamide, most preferably a polyamide with a 35% by volume glass fiber addition known for example under the designation PA6-GF35.

Industrial applicability

The technical solution is industrially applicable for joining the supporting profile and plate element. The self-locking locking joint according to this technical solution is designed especially for mounting of board elements as information carriers, eg orientation signs, advertising banners etc. Due to extraordinary variability the system is also destined for use in building and interior design, eg fences, screens, partition walls, stairs, information pylons, pens and wherever a tangent or tangential fixation of the plate element and the supporting profile is required.

PROTECTION REQUIREMENTS

Claims (19)

A self-locking locking connection of a support profile (8) and a plate element (6), characterized in that it comprises at least two locking elements (1), two bases (4) and two supporting elements (5), the locking element (1). comprising a main opening (11) for the support profile (8) and comprising at least one opening (12) in the side wall for receiving the fixation member (2), the locking element (1) comprising at least two connecting openings (13) for receiving the connecting members (3), the locking element (1) is connected by means of connecting members (3) to the base (4), which for this purpose comprises connecting holes (44) for receiving the connecting members (3) _; the base (4) further comprising at least one recess (42) for receiving the support element (5), the support element (5) further comprising a groove (51) and / or recess (53) for receiving the plate element (6). A self-locking locking connection according to claim 1, characterized in that the locking element (1) comprises two holes (12) and the fixing member (2) passes through both holes (12) and through the support profile (8) and is closed in the locking element. (1) by means of two pins (22) embedded in the connecting holes (15) of the locking element (1). A self-locking lock connection according to claim 1, characterized in that the adjacent connection openings (13) are spaced apart by a size corresponding to their diameter and are formed over the entire circumference of the locking element (1). A self-locking lock connection according to claim 1, characterized in that the support element (5) comprises a latch (54) for engaging the base (4) and the base (4) on the inner wall adjacent the support profile (8) comprises grooves ( 43) for flushing the latch (54) of the support member (5). A self-locking lock connection according to claim 1 or 3, characterized in that the base (4) comprises four recesses (42). A self-locking locking connection according to claim 1, characterized in that it comprises a blanking plug (7) for covering the recesses (42) of the base (4). A self-locking locking connection according to claim 5, characterized in that the plug (7) is secured against falling out by a latch (71). Self-locking locking connection according to claim 1, characterized in that the groove (51) is formed in the cross-sectional axis of the support profile for the tangential attachment of the plate element (6). Or the groove (51) of the support element (5) serving to flush the plate element (6) is formed along the tangent axis of the support profile (8). Self-locking locking connection according to claim 1 or 7, characterized in that the groove (51) and / or the recess (53) is complementary in shape to the projection (61) and / or the recess (62) in the plate element (6). A self-locking lock connection according to claim 1, 7 or 8, characterized in that the recess (53) extends through the entire support element (5) to form an opening in the support element (5). The self-locking lock connection according to claim 1, 3 or 4, characterized in that the base (4) comprises at the location of the recess (42) at least one connection opening in which the connecting member of the support element (5) formed on the surface (52) abuts. adjacent to the recess (42) of the base (4), or the support element (5) also comprises a connection hole in place of the connection member, and the two elements (4, 5) are connected by an additional connection member (3). A self-locking lock connection according to claim 1, 3, 7, 9 or 10, characterized in that the wall of the support element (5) adjacent to the support profile (8) follows the shape of the outer surface of the support profile (8). A self-locking lock joint according to any one of claims 1 to 11, characterized in that it comprises an intermediate storey hub (9) connecting adjacent bases (4) by means of connecting members (3), the hub (9) comprising at least two connecting openings (92). A self-locking lock connection according to any one of claims 1 to 12, characterized in that the inner wall of the base (4) and / or the locking element (1) and / or the hub (9) adjacent the support profile (8) comprises at least one projection. for a more firm grip on the support profile (8). Self-locking locking connection according to any one of claims 1 to 13, characterized in that the base (4) and / or the locking element (1) and / or the support element (5) and / or the hub (9) and / or the plate element (6) contain a code mark corresponding to the configuration to be achieved by their interconnection. A self-locking locking connection according to any one of claims 1 to 14, characterized in that the base (4) comprises a recess (45) and / or the locking element (1) comprises a recess (14) and / or the support element (5) comprises a recess (55) and / or the plug (7) comprises a recess (72). A self-locking lock joint according to any one of claims 1 to 15, characterized in that the material for producing any of the elements selected from the group consisting of a locking element (1), a fixing element (2), a pin (22), a connecting member (3). , the base (4), the support element (5), the plate element (6), the plug (7) and the hub (9) is a thermoplastic. The self-locking lock joint of claim 16, wherein the material is polyamide. The self-locking lock joint according to claim 17, characterized in that the material is a polyamide with a glass fiber content of 35% by volume.