[go: up one dir, main page]

DK201700346A1 - Self-supporting braiding module building system - Google Patents

Self-supporting braiding module building system Download PDF

Info

Publication number
DK201700346A1
DK201700346A1 DKPA201700346A DKPA201700346A DK201700346A1 DK 201700346 A1 DK201700346 A1 DK 201700346A1 DK PA201700346 A DKPA201700346 A DK PA201700346A DK PA201700346 A DKPA201700346 A DK PA201700346A DK 201700346 A1 DK201700346 A1 DK 201700346A1
Authority
DK
Denmark
Prior art keywords
braid
basic
elements
tip
assembly
Prior art date
Application number
DKPA201700346A
Other languages
Danish (da)
Inventor
Vestergaard Poulsen Ole
Original Assignee
Vestergaard Poulsen Ole
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Vestergaard Poulsen Ole filed Critical Vestergaard Poulsen Ole
Priority to DKPA201700346A priority Critical patent/DK201700346A1/en
Priority to EP18816490.9A priority patent/EP3638388A4/en
Priority to PCT/DK2018/050133 priority patent/WO2018228649A1/en
Publication of DK201700346A1 publication Critical patent/DK201700346A1/en

Links

Classifications

    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63HTOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
    • A63H33/00Other toys
    • A63H33/04Building blocks, strips, or similar building parts
    • A63H33/10Building blocks, strips, or similar building parts to be assembled by means of additional non-adhesive elements
    • A63H33/101Building blocks, strips, or similar building parts to be assembled by means of additional non-adhesive elements with clip or snap mechanism
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63HTOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
    • A63H33/00Other toys
    • A63H33/04Building blocks, strips, or similar building parts
    • A63H33/10Building blocks, strips, or similar building parts to be assembled by means of additional non-adhesive elements
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63HTOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
    • A63H33/00Other toys
    • A63H33/04Building blocks, strips, or similar building parts
    • A63H33/06Building blocks, strips, or similar building parts to be assembled without the use of additional elements
    • A63H33/08Building blocks, strips, or similar building parts to be assembled without the use of additional elements provided with complementary holes, grooves, or protuberances, e.g. dovetails
    • A63H33/084Building blocks, strips, or similar building parts to be assembled without the use of additional elements provided with complementary holes, grooves, or protuberances, e.g. dovetails with grooves
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63HTOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
    • A63H33/00Other toys
    • A63H33/04Building blocks, strips, or similar building parts
    • A63H33/10Building blocks, strips, or similar building parts to be assembled by means of additional non-adhesive elements
    • A63H33/105Building blocks, strips, or similar building parts to be assembled by means of additional non-adhesive elements with grooves, e.g. dovetails
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63HTOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
    • A63H33/00Other toys
    • A63H33/04Building blocks, strips, or similar building parts
    • A63H33/10Building blocks, strips, or similar building parts to be assembled by means of additional non-adhesive elements
    • A63H33/108Building blocks, strips, or similar building parts to be assembled by means of additional non-adhesive elements with holes
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63HTOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
    • A63H33/00Other toys
    • A63H33/16Models made by folding paper
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V1/00Shades for light sources, i.e. lampshades for table, floor, wall or ceiling lamps
    • F21V1/14Covers for frames; Frameless shades
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21SNON-PORTABLE LIGHTING DEVICES; SYSTEMS THEREOF; VEHICLE LIGHTING DEVICES SPECIALLY ADAPTED FOR VEHICLE EXTERIORS
    • F21S4/00Lighting devices or systems using a string or strip of light sources
    • F21S4/10Lighting devices or systems using a string or strip of light sources with light sources attached to loose electric cables, e.g. Christmas tree lights
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V1/00Shades for light sources, i.e. lampshades for table, floor, wall or ceiling lamps
    • F21V1/12Composite shades, i.e. shades being made of distinct parts

Landscapes

  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Toys (AREA)

Abstract

ET SELVBÆRENDE FLETTE -MODULBYGGESYSTEM TIL FLEXIBLE MATERIALERA self-supporting braid-module building system for flexible materials

Description

PATENT NAVN:PATENT NAME:

SELVBÆRENDE FLETTE -MODULBYGGESYSTEMSELF-SUPPORTING WRAFT MODULE BUILDING SYSTEM

2.KONCEPT BESKRIVELSE AF OPFINDELSEN:2. CONCEPT DESCRIPTION OF THE INVENTION:

Systemet består af et grundelement som kan være kvadratisk og et samleelement som kan være symetrisk krydsformet. Med bare disse to elementer kan der skabes et utal af forskellige forme, størrelser og udtryk. 3-Dimensionelle modeller kan laves til stjerner, hjerter, kranse, dyr, fisk fugle, planter, abstrakte designede skulpturer etc.The system consists of a basic element which can be square and an assembly element which can be symmetrical cross-shaped. With just these two elements, a variety of shapes, sizes and expressions can be created. 3-Dimensional models can be made for stars, hearts, wreaths, animals, fish birds, plants, abstract designed sculptures etc.

Designer lamper i mange forskellige afskygninger, julebelysning og børnelamper. Mulighederne er grænseløse.Designer lamps in many different shades, Christmas lights and children's lights. The possibilities are limitless.

Lyskilderne er hovedsagelig mini LED lys på en kobber ledning, som kan flettes ind på indersiden af lamperne ved at hænge fast i krydssamleelemntets naturlige kroge/pileform.The light sources are mainly mini LED lights on a copper wire, which can be interlaced on the inside of the lamps by sticking to the cross hooks element's natural hooks / arrow shape.

Udførelsen kan være forskellige plast materialer så som PP, PVC,ABS, Acryl, etc. Med den fordel at de kan være transperente og lade lys skinne igennem. Det kan også udføres i tynde metaller som har den nødvendige flexibilitet samt diverse træsorter lavet til tynde plader der kan give sig nok til at danne modhold når de flettes sammen. Endelig er det også muligt at kombinerer de forskellige materialer for at opnå den rigtige koblingsfunktion og/eller design udtryk.The design can be various plastic materials such as PP, PVC, ABS, Acrylic, etc. With the advantage that they can be transparent and let light shine through. It can also be made of thin metals which have the necessary flexibility as well as various types of wood made into thin sheets which can give enough to resist when they are braided together. Finally, it is also possible to combine the different materials to achieve the right coupling function and / or design expression.

Størrelserne er uden begrænsninger.The sizes are unlimited.

BAGGRUND FOR OPFINDELSEN:BACKGROUND OF THE INVENTION:

De fleste mennesker er egentlig ikke særlig kreative eller har svært ved at skabe noget kreativt de selv er tilfredse med.Most people are not really creative or find it difficult to create something they are happy with.

Det betyder ikke at folk ikke har lyst til at udfolde sig og hvis blot udfaldsrummet er overskueligt og succeen er nogenlunde sikret, så vil de rigtig gerne nørkle med noget. Faktisk er det afstressende og behageligt at lave noget konkret med sine hænder, så som at flette.This does not mean that people do not want to unfold and if only the outcome space is clear and the succe is reasonably assured, then they would really like to dabble with something. In fact, it is stressful and comfortable to do something concrete with your hands, such as braiding.

Dette er der nu et stigende behov, fordi digitaliserings samfundsudviklingen får folk til at skabe færre konkrete ting i dagligdagen.This is now a growing need because digital society development is causing people to create fewer concrete things in their daily lives.

DK 2017 00346 A1DK 2017 00346 A1

Samtidig er der inden for de sidste få år sket en rivende udvikling inden for LED belysning. En af nyskabelserne er kobber ledning mini LED lys. Eftersom de virker ved lavspænding er det muligt for slutbrugerne selv at bruge dem kreativt til udsmykning etc.At the same time, there has been rapid development in LED lighting within the last few years. One of the innovations is the copper wire mini LED light. Since they work at low voltage it is possible for the end users to use them creatively for decoration etc.

Men udfordringen for brugerne har været at finde objekter hvor de kan slynge disse lyskæder på, så de bliver dekorative. Både for producenter og forbruger er det svært at skabe forskellige designs hvor LED lysene sidder på den indre/ydre skald og på denne måde får formen eller skulpturen til at lyse som en helhed. I øjeblikket kan man kun købe færdige metal gitre formet som en stjerne eksempelvis.But the challenge for users has been to find objects where they can swipe these light chains to make them decorative. For both manufacturers and consumers it is difficult to create different designs where the LED lights sit on the inner / outer shell and in this way make the shape or sculpture shine as a whole. Currently, you can only buy finished metal grids shaped like a star for example.

Hvis lysene blot kunne følge den indre kontur, så ville det være muligt at fremstille formen i et semi transperent materiale der vil få lyset til at blive mere eller mindre difust og oplyse helheden istedet for kun punktvis.If the lights could only follow the inner contour, then it would be possible to produce the shape in a semi-transparent material that would make the light more or less diffuse and enlighten the whole instead of only point by point.

Disse to behov er nu blevet forenede og mulige at tilgodese ved hjælp af opfindelsen af det selvbærende flettemodulbyggesystemet.These two needs have now been united and made possible by the invention of the self-supporting braid module building system.

Systemet er et modulært og kreativt design byggesystem til at skabe former, designlamper, lysdekorationer, julepynt og sæsson belysnings effekter med, samt meget andet.The system is a modular and creative design building system for creating shapes, design lamps, light decorations, Christmas decorations and seasonal lighting effects, and much more.

Lyseffekterne der kan skabes med dette system er ret enestående og ud over lamper og dekorativ belysning i alle afskygninger, så kan der også flettes bogstaver og tal. Herved kan det fleksible flette modulbyggesystem faktisk det samme som neonlys, men på en ny måde der gør brugeren istand til selv at skabe det der skal skrives billigt, enkelt og nu og her.The lighting effects that can be created with this system are quite unique and in addition to lamps and decorative lighting in all shades, letters and numbers can also be merged. In this way, the flexible braid module building system can actually be the same as neon light, but in a new way that allows the user to create what is to be written cheaply, simply and now and here.

DK 2017 00346 A1DK 2017 00346 A1

OPSUMEREING AF OPFINDELSEN:SUMMARY OF THE INVENTION:

GRUNDELEMENTETBASIC ELEMENT

Er en kvadratisk flad plade med 2 eller flere slidser i hver koblingsretning. ( FIG 1.) Disse slidser er flette åbninger for et krydsformet samleelement. (FIG 2.) Koblings princippet består i, at de to slidser i grundelementet og det krydsformede samleelements fire pilformede indstiksorganer, kan flettes sammen. (FIG 3.) Elementerne flettes og lirkes ind i hinanden igennem grundelementets 2 slidser, hvorved at pilformens yderspidser herefter danner et modhold, der gør at de ikke let og utilsigtet glider fra hinanden igen. (FIG 4.)Hvor krafigt dette modhold skal være afgøres af piletakkernes overstørrelse i forhold til slidshullerne. (FIG 5).Is a square flat plate with 2 or more slots in each coupling direction. (FIG. 1.) These slots are braid openings for a cross-shaped connector. (FIG 2.) The coupling principle consists in the fact that the two slots in the base element and the four arrow-shaped insertion members of the cross-shaped assembly element can be interlaced together. (FIG. 3.) The elements are merged and leached into each other through the slots of the base element 2, whereby the outer tips of the arrow shape then form a restraint which prevents them from sliding apart easily and unintentionally. (FIG. 4) How strong this resistance should be determined by the oversize of the arrowheads relative to the slots. (FIG. 5).

Samleelementet kan stikkes op igennem det foreste slids-hul fra den ene side hvorved den kommer om på den anden side af kvadrat elementet. Herefter kan det stikkes ned igennem den næste slids-hul hvorved det kommer igennem til den første side igen. På denne måde er kvadratelementet og samle elementet flettet sammen. Grunden til de 2 slidser er at det sikre at samlingerne kommer til at stå i lige linie over for hinanden. (FIG 6.)The connecting element can be protruded through the front slit hole from one side, whereby it comes into contact with the other side of the square element. Then it can be inserted down through the next slit hole, through which it comes through to the first side again. In this way, the square element and the gathering element are interlaced. The reason for the 2 slots is to ensure that the collections will be in straight line with each other. (FIG. 6)

To eller flere slidser gør at det krydsformede samleelement og det kvadratiske grundelement samles i lige linie med hinanden. Dette er vigtigt når det næste grundelement tilføjes til krydselementet. Det er nu muligt at fortsætte med at flette elementer på hinanden som et flat tæppe. (FIG 7.)Two or more slots allow the cross-shaped connecting element and the square base element to be aligned in alignment with each other. This is important when adding the next basic element to the cross element. It is now possible to continue to blend elements on each other like a flat rug. (FIG. 7.)

DK 2017 00346 A1DK 2017 00346 A1

Når elementerne udføres i fleksible materialer som tyndt træ, tyndt metal, plast og gummi, vil det være muligt at opnå en afbøjning af samleelementets pilespidser når de trykkes ind i et slids-hul. Derfor kan de udføres med en større bredde end de slids-huller de skal passerer. (FIG 8.)When the elements are made of flexible materials such as thin wood, thin metal, plastic and rubber, it will be possible to obtain a deflection of the arrowheads of the collecting element when pressed into a slit hole. Therefore, they can be made with a greater width than the slit holes they have to pass. (FIG. 8)

I tilfælde af at både grundpladerne og samleelemnternes materialer ikke er fleksible vil det være nødvendigt at krænge samleelementet en del til siden for at få den til at passerer slids-hullet. Det yderste slids-hul skal udføres lidt breddere end det inderste for at det kan krænge nok. (FIG 9.) For at undgå at elementerne krænger så meget i forhold til hinanden at de kan falde ud, er det vigtigt at de to midterste pile på krydset som ikke er i brug ved sammenkoblingen kan flippes op så de bliver låst og forhindret i at krænge til siderne. (FIG 10. & FIG 11.)In the event that both the base plates and the materials of the fittings are not flexible, it will be necessary to tilt the fittings a part to the side to cause it to pass through the slit hole. The outer slit hole needs to be slightly wider than the innermost for it to roll enough. (FIG. 9.) In order to prevent the elements from tilting so much in relation to each other that they can fall out, it is important that the two middle arrows on the intersection that are not in use during the coupling can be flipped open so that they are locked and prevented from to tilt to the sides. (FIG. 10 & FIG. 11.)

I designet af modellerne er det vigtigt at kunne styre om elementer skal holde en vis afstand eller ikke. Specielt når elementer skal sammensættes vinklet altså 90 grader eller 180 grader etc. Så er det nødvendigt at de ikke glider helt tæt sammen. (FIG 12.)In the design of the models, it is important to be able to control whether elements should stay a certain distance or not. Especially when elements are to be assembled angled ie 90 degrees or 180 degrees etc. Then it is necessary that they do not slide quite close together. (FIG. 12.)

Begge Elementer kan udføres i et flat flexibelt materiale som plast folie, carton, papir, metalfolie, gummi, EVA eller andre skum typer, natur materialer som træ, bambus m.m.Both Elements can be made in a flat flexible material such as plastic foil, carton, paper, metal foil, rubber, EVA or other foam types, natural materials such as wood, bamboo and more.

Når to grundplader er koblet sammen med et samleelement, så kan de skubbes helt tæt sammen. Men kan også glide ud indtil det punkt hvor pilekoblingerne støder imod og fastholder elementerne. Den kvardratiske grundplade har 2 hakker som kan danne modhold når krydselementets pileender der ikke bruges til at holde plader sammen med, vippes op på oversiden af de to grundelementer. Derved skabes der en styret afstand imellem grundelementerne med maximal samlingsafstand . (FIG 13. & 14.)When two baseplates are connected to an assembly element, they can be pushed together very tightly. But can also slide out to the point where the arrow links abut and hold the elements. The square base plate has 2 notches which can resist when the cross member's arrow ends that are not used to hold plates together are tilted up on the upper side of the two basic elements. This creates a controlled distance between the basic elements with maximum joint spacing. (FIGS. 13 & 14)

Hvis det pilformede samleelementet ikke er låst ved at flippe de to ikke koblede ender opad, så er det muligt at vinkle to grundelementer en hel del i forhold til hinanden. Så udfaldsrummet eller vinklingen imellem to grundelementer i plan flade kan blive 35 grader eller mere. Afhængig af de yderste slidshuls længde i forhold til samle-elementets pile-rod. Denne tekniske mulighed åbner op for at der kan samles grundelementer i en ring på 5, 6, 7 ,8 etc. og giver et utal af formgivningsmæssige konstruktioner.If the arrow-shaped connector is not locked by flipping the two non-coupled ends upwards, then it is possible to angle two basic elements a great deal relative to each other. So the drop-out space or the angle between two basic elements in flat plane can be 35 degrees or more. Depending on the length of the outer slit holes relative to the arrows of the collecting element. This technical possibility opens up the possibility that basic elements can be assembled in a ring of 5, 6, 7, 8 etc. and provides a myriad of design constructions.

Eftersom samleelementerne er smallere end grundelementerne vil det være muligt at bøje disse uden at de glider ud af indfletningerne i de to slidser i hvert grundelement. Dette muliggør at to grundelementer kan bøjes frit i forhold til hinanden i 45 grader eller 90 grader eller sågar 180 grader til de to grundelementer dækker ind over hinanden blot med den afstand som et samlekryds giver.Since the assembly members are narrower than the base members, it will be possible to bend them without slipping out of the interlaces in the two slots in each base member. This allows two basic elements to bend freely relative to each other for 45 degrees or 90 degrees or even 180 degrees for the two basic elements to cover each other simply at the distance provided by a junction.

Eftersom grundelementerne selv kan bøjes diagonalt fra hjørne til hjørne, så er det muligt at sammen flette et grundelement med sig selv ved at bruge et enkelt samlekryds.Since the basic elements themselves can be bent diagonally from corner to corner, it is possible to merge a basic element with themselves by using a single junction.

Når 2 grundelementer er bøjet diagonalt og hver især er samlet med et samlekryds, så kan de sættes sammen med yderligere 2 samlekryds hvorved de vil optræde som et 2/3 modul i forhold til grundelementerne. De vil ligeledes flette sig sammen i en diagonal linje i forhold til grundelementernes normale fletteretning.When 2 basic elements are bent diagonally and each is joined by a junction, they can be joined by another 2 junctions whereby they will act as a 2/3 module in relation to the basic elements. They will also merge in a diagonal line relative to the normal braid direction of the basic elements.

Det fleksible flette modulbyggesystem er istand til at bøjes og drejes i enhver tænkelig retning, så selvom dets grund retning er total matrix lige op og ned, så har det meget fleksible design features der gør at det kan genskabe en næsten hver tænkelig form og udtryk man kan forestille sig.The flexible braided module building system is capable of bending and turning in every imaginable direction, so even though its basic direction is total matrix straight up and down, it has very flexible design features that allow it to recreate almost every imaginable shape and expression can imagine.

DK 2017 00346 A1DK 2017 00346 A1

Grundelementet er i sin basis form udformet kvadratisk bestående af 4 lige store sider som hver især udgør en modul side. På selve overfladen af grundelementet er der udført 2 eller flere flettehuller for hvert modul side.The basic element is in its basic form square made up of 4 equal sides, each of which forms a module side. On the surface of the base element itself, 2 or more braid holes are made for each module side.

Flettehullernes udformning kan være med lige sider, kurvede som et smil, ovale eller pilformede, samt kombinationer heraf (FIG 15.) Flettehullernes hjørner kan være halvcirkelformede, rektangulær, lige, pilformede eller kombinationer heraf. Spalteafslutningen kan desuden udformes med en cirkel eller kvadrat der er større end siderne i spalten. Endelig kan alle udformninger også udføres som en spaltelinie og altså ikke med en given afstand imellem de 2 spalte åbningssider.The shape of the braid holes may be of straight sides, curved as a smile, oval or arrow shaped, and combinations thereof (FIG. 15.) The corners of the braid holes may be semi-circular, rectangular, straight, arrow shaped or combinations thereof. In addition, the slot end can be formed with a circle or square larger than the sides of the slot. Finally, all designs can also be designed as a slit line and thus not at a given distance between the two slit opening sides.

Fremstillingsmæssigt kan der være fordele ved nogle af disse i forhold til produktionsmæssigt at give fejlfri elementer.Manufacturally, there may be advantages to some of these in relation to producing error-free elements.

Grundelementet kan også udformes i et utal af geometriske former som med fordel kan have et passende antal side moduler (FIG 16,17,18 & 19. )The base element may also be formed in a myriad of geometric shapes which may advantageously have a suitable number of side modules (FIGS. 16, 17, 18 & 19.)

Grundelementerne har en diagonal bukke-linie der giver elementerne en trekantet geometri. Denne bestemte geometri gør det muligt at formgive, flette eller bygge et utal af spændende former og udtryk.The basic elements have a diagonal bending line which gives the elements a triangular geometry. This particular geometry makes it possible to design, merge or build a myriad of exciting shapes and expressions.

Man bestemmer selv hvor meget man ønsker at bukke elementerne og alt efter om hvordan de bliver vendt vil de dreje i forskellige retninger. (FIG 20.)You decide for yourself how much you want to fold the elements and depending on how they are turned they will rotate in different directions. (FIG. 20.)

Den vinkelfleksible trekantform sammen med de justerbare vinkler imellem samlingerne skabt af kryds og grundelementerne gør at systemet kan skabe en næsten hver tænkelig form. Specielt også meget organiske forme er mulige at opnå i stabile konstruktioner. (FIG 21.)The angular flexible triangle shape together with the adjustable angles between the joints created by the intersections and the basic elements allow the system to create almost every imaginable shape. Especially also very organic molds are possible to obtain in stable structures. (FIG. 21.)

SAMLEELEMENTET.ASSEMBLY ELEMENT.

Samleelementet er flexibelt og kan bukkes. Dette muliggør 3D byggeri og at der ikke kun kan udføres flade modeller, men også 3 dimensionale modeller.The assembly element is flexible and foldable. This enables 3D construction and that not only flat models but also 3 dimensional models can be performed.

Det kryds formede samleelement med pileform i enderne kan udformes på flere måder. I tilfælde af at det er dobbelt sysmetrisk er det for at letter brugerne i byggeriet fordi det altid vil vende korrekt ligegyldigt hvilken ende der benyttes. (FIG 2.) Til gengæld er det kun 2 af pilene der egentlig anvendes til selve koblingen af to grundelementer. Pileformen er valgt for at kommunikerer en samleretning og også fordi de har en naturlig indstiksstyring samt et naturligt modhold når de er større end flettehullet.The cross shaped joint element with arrow shaped at the ends can be designed in several ways. In the event that it is doubly symmetrical, it is to facilitate the users in the building because it will always turn correctly no matter which end is used. (FIG. 2.) In contrast, only two of the arrows are actually used for the coupling of two basic elements. The arrow shape is chosen to communicate a direction of assembly and also because they have a natural insertion control as well as a natural resistance when larger than the braid hole.

En cirkulær form, en dråbeform, et kvadrat på spidsen eller en oval form vil også kunne anvendes. (FIGA circular shape, a drop shape, a square on the tip or an oval shape may also be used. (Figure

22. ) Til gengæld er pileformen mere ideel når den skydes ind en smule vinklet hvorved dens overstørrelse vil kunne glide på plads og efterfølgende når den rettes op give maksimalt modhold. (FIG22.) On the other hand, the arrow shape is more ideal when slid into slightly angled, whereby its over-size will slide into place and subsequently when corrected give maximum resistance. (Figure

23. )23.)

Det vil være muligt kun at udforme de 2 samlende ender som pile og dermed skabe andre mulige funktioner og forme på en eller 2 af de resterende ender. Dette kan eksempelvis udnyttes til at lave enIt will be possible to design only the 2 joining ends as arrows and thus create other possible functions and shapes on one or 2 of the remaining ends. This can, for example, be utilized to make one

DK 2017 00346 A1 cirkelformet ende med et hul i som kan anvendes til fastgørelse af ledning, snor eller andet ophængnings funktionalitet, som fastgørelse til en væg, loft eller et andet objekt. (FIG 24.)DK 2017 00346 A1 circular end with a hole in which can be used for fastening wire, cord or other suspension functionality, as fastening to a wall, ceiling or other object. (FIG. 24.)

Samleelementet kan også udføres i sprøjtestøbt plast hvorved fastgørelses funktionen kan designes mere avanceret med klik eller snap. (FIG 25.)The connector can also be made of injection molded plastic, whereby the fastening function can be designed more advanced with a click or snap. (FIG. 25.)

Ydermere er krydssamleelementerne udformet således at de danner hold for de ledninger der går igennem LED lyskæder som flettes ind i lamper og dekorationer på indersiden. Altså uden brug af værktøj eller andre koblingsorganer er de muligt at fæstne micro LED lyskæderne hel tæt op af foliefladerne. .(FIG 26 & 27. )Herved opstår det maximale dimm lys alt efter foliens ønskede gennemsigtighed.In addition, the intersection elements are designed to form holdings for the wires passing through LED light chains which are merged into lamps and decorations on the inside. Thus, without the use of tools or other coupling means, they are possible to attach the micro LED light chains all the way up to the foil surfaces. (FIGS. 26 & 27.) This results in the maximum dimming of light according to the desired transparency of the film.

LED kæderne kan også fastholdes ved hjælp af en dertil udformet klips. Disse klips kan snappes på samlekrydsene eller grundpladerne ved at disse får et hul på midten eller andre strategiske steder som eksempel. (FIG 28 & 29.) Klipsen sætter altså fast i de fleksible elementer og danne anker-punkt for de ledninger eller LED lys der efterfølgende klipses fast.The LED chains can also be held by means of a specially designed clip. These clips can be snapped onto the junctions or baseplates by providing a hole in the middle or other strategic locations as an example. (FIGS. 28 & 29.) The clip thus attaches to the flexible elements and forms the anchor point for the wires or LED lights that are subsequently clipped.

Det er også muligt at integrerer Grundelement og samleelement i et og samme element. (FIG 30.) Herved er systemet som en hermafrodit konstruktion, som altså både har han organ og hun organer integreret på det samme grundelement. Det er altså i dette tilfælde unødvendigt med dedikerede samleelmenter.It is also possible to integrate the Element and Assembly element into one and the same element. (FIG. 30.) In this way, the system is like a hermaphrodite structure, which means that both his organ and his organs are integrated on the same basic element. Thus, in this case, dedicated assembly elements are unnecessary.

KORT FIGUR FORKLARING:BRIEF FIGURE EXPLANATION:

1. Grundelement i kvadratisk udførelse1. Basic element in square design

2. Samleelement i krydsformet version2. Assembling element in cross-shaped version

3. Grundelement og samleelement3. Basic element and assembly element

4. Et samleelement flettet ind i et grundelement4. An assembly member is woven into a base element

5. 2 grundelementer flettet sammen af et samleelement5. 2 basic elements intertwined by an assembly element

6. Tværsnit af samleelement flettet ind i 2 grundelementer6. Cross section of assembly element merged into 2 basic elements

7. 4 grundelementer samlet af 3 samleelementer7. 4 basic elements made up of 3 assembly elements

8. Samleelements pileformede koblingshoved flettet ind i 2 flettespalter8. Arrow element coupler-shaped coupling head braided into 2 braid slots

9. 2 flettespalter med variable længder9. 2 variable length braid slots

10. Samleelements frie koblingshoveder vippet opad og låst på grundelement10. Assembly element free coupling heads tilted up and locked on base element

11. Samleelement vippet i lås imellem 2 grundelementer11. Assembly element tilted in lock between 2 basic elements

12. 2 grundelementer samlet i 90 graders vinkel12. 2 basic elements assembled at 90 degree angle

13. 2 grundelementer flettet med størst mulig samlespalte13. 2 basic elements braided with the widest possible gap

14. 2 grundelementer flettet med mindst mulig samlespalte14. 2 basic elements braided with minimum gap

15. Flettespalter i forskellige udformninger, pileform, smil, lige,halv-oval, oval,15. Braids slots of various shapes, arrow shape, smile, straight, semi-oval, oval,

DK 2017 00346 A1DK 2017 00346 A1

16. Lang 6 modul grundelement16. Long 6 module base element

17. Lang 8 modul grundelement17. Long 8 module base element

18. Kort 3 modul grundelement18. Short 3 module base element

19. 5 modul grundelement19. 5 module base element

20. Let diagonalt bøjet 4 modul grundelement20. Slightly diagonally bent 4 module base element

21. 3 grundelementer samlet omkring 90 graders hjørne21. 3 basic elements gathered around a 90 degree corner

22. Forskellige udforminger af samleelementets koblingshovder, kvadrat, ovalt, pileformet, cirkulær,22. Various designs of coupling heads, square, oval, arrow shaped, circular,

23. Samleelements flettehoved indsat i spalte med modhold23. Assembly element braid head inserted into recess slot

24. Samleelementhoved med funktion som ledningsholder/fastgørelse24. Assembly element head with function as cord holder / fastener

25. Samleelementhoved med fastholdelsesklips funktion25. Assembly element head with retaining clip function

26. Grundelement og samleelementhovederne som ledningsholder og lys fastgørelsesorgan26. Base element and the assembly element heads such as cord holder and light fastener

27. LED lysledning indflettet imellem flere samleelementer27. LED light wire interspersed between several connectors

28. Snapelement til samling af ledninger og samleelement28. Snap element for connecting wires and connecting element

29. Grundelement til montage af snapelement29. Basic element for mounting snap element

30. Androgyn grund og samleelement i et.30. Androgynous ground and collecting element in one.

31. Spaltet samleelement og grundelement med single spalte åbninger.31. Slotted joint element and base element with single slit openings.

DETALJERET FIGUR FORKLARING:DETAILED FIGURE EXPLANATION:

1. Grundelement i kvadratisk udførelse1. Basic element in square design

1) Er en diagonal bukkelinie på tværs af grundelementet. Denne gør det muligt at bukke elementet i alle vinkler i 360 grader og sksber en trekantet prisme geometri.1) Is a diagonal bending line across the base element. This makes it possible to bend the element at all angles in 360 degrees and gives a triangular prism geometry.

2) Er et indhak i grungelementets yderkant, med e.g. en vinkel på 120 grader og en bredde svarende til den pileformede konnektor således at den kan flippes op over kanten.2) Is a notch at the outer edge of the grunge element, e.g. an angle of 120 degrees and a width corresponding to the arrow-shaped connector so that it can be flipped over the edge.

3) Er den yderste sideflanke på grundelementet3) Is the outer flank of the base element

4) Er overgangspunktet på siden til indhakket. Dette er placeret i lige linie med underkanten af det inderste flettehul.4) Is the transition point on the side to the notch. This is aligned with the bottom edge of the inner braid hole.

5) Er det yderste flettehuls-spalte.5) Is the outermost braid slot.

6) Er grundelementets midterste sideflanken. Aftstanden er reguleret nøje efter samlekonnektores afstand imellem de pileformede fletteorganer.6) Is the middle side flank of the base element. The distance is regulated closely according to the distance of collecting connectors between the arrow-shaped braid members.

7) Er hjørnespidsen på grundelementet hvor diagonalbukningen løber ud.7) Is the corner point of the base element where the diagonal bend extends.

8) Er det inderste flettehul-spalte.8) Is the innermost braid slot.

2. Samleelement i krydsformet version2. Assembling element in cross-shaped version

9) Samleelementets flettespids som stikkes først ind i flettehul-spalterne9) The braid tip of the assembly element which is first inserted into the braid slots

10) Samleelement flettespids sideflanke med indføringsvinkel10) Assembly element braid tip flank with insertion angle

11) Modholds kurve til fastholdelse og let udtagning11) Counterbalance curve for retention and easy removal

12) Samleelement flettehovedrod12) Assembly element braid root

13) Fletteorgan13) Braiding means

3. Grundelement og samleelement3. Basic element and assembly element

DK 2017 00346 A1DK 2017 00346 A1

14) Fletteorgan14) Braiding means

15) Samlekryds15) Collection intersection

16) Pileformet flettehoved16) Arrow-shaped braid head

17) Flettehoved indførings-spidsside17) Braid head insertion tip side

18) Flettehoved indførings-spids18) Braid head insertion tip

19) Flettorganside19) Browser Page

20) Krydshjørne20) Cross corner

21) Krydselement indførings-spids højdeside21) Cross element insertion tip height side

22) Grundelement flettespalte22) Basic element braid column

23) Grundelement flettespalte side23) Basic element braided column side

24) Grundelement24) Basic element

25) Ydre hjørne sideflanke25) Outer corner side flank

26) Innner sideflanke26) Inner side flank

27) Flettespaltehjørne27) Merge column corner

28) Flette låsehak28) Braid locking notches

29) Grundelementhjørnespids29) Basic element corner tip

30) Flettelåsehak bundafrunding30) Braided locking bottom bottom round

31) Grundelement sideflanke højde31) Base element side flank height

4. Et samleelement flettet ind i et grundelement4. An assembly member is woven into a base element

32) Krydssamleelement indsat i flettespalte32) Cross assembly element inserted in braid slot

33) Innner flettespalte33) Inside braid column

34) Flettespalte hjørne34) Braided corner

35) Flettehak35) Braided heel

36) Grundelement midtersideflanke36) Base element center flank

37) Grundelementhjørne37) Basic Element Corner

38) Samlekryds pilespids38) Collecting cross arrow tip

39) Samleorgan pilespidsafrunding39) Arrowhead rounding assembly

40) Krydssamleelementets organers hjørne samling40) The corner assembly of the cross member element

41) Fletteorganspids41) Braid tip

42) Krydsformet samleorgan42) Cross-shaped assembly

5. 2 grundelementer flettet sammen af et samleelement5. 2 basic elements intertwined by an assembly element

43) Grundelement hjørne43) Basic element corner

44) Krydsformet fletteelement44) Cross-shaped braid element

45) Fletteelement spids45) Braid element tip

46) Fletteslids46) Braid slot

47) Grundelement sideflanke47) Basic element side flank

48) Flettelementspids tip48) Braid tip tip

49) Låsehak49) Locking catch

50) Grundelement sideflanke50) Basic element side flank

51) Flettespalte51) Merge column

6. Tværsnit af samleelement flettet ind i 2 grundelementer6. Cross section of assembly element merged into 2 basic elements

DK 2017 00346 A1DK 2017 00346 A1

52) Fletteelement bøjet52) Braid element bent

53) Grundelement kant53) Base element edge

54) Fletteelementspids54) Braid tip

55) Flettespids modholdskant55) Braid retaining edge

56) Grundelement center56) Basic element center

57) Fletteelement center57) Merge element center

58) Fletteelemnetspids modholdshjørne58) Merge tip retention corner

59) Grundelement flettespalte59) Basic element braid column

7. 4 grundelementer samlet af 3 samleelementer7. 4 basic elements made up of 3 assembly elements

60) Krydsformet fletteelement60) Cross-shaped braid element

61) Flettespalte61) Merge column

62) Fletteelementspids62) Braid tip

63) Grundelementspids63) Basic element tip

64) Fletteelementspids64) Braid tip

65) Fletteelementspids flanke65) Flange element tip flank

66) Fletteelementspids flanke66) Flange element tip flank

67) Fletteelementspids flanke67) Braid tip tip flank

68) Grundelement side flanke68) Base element side flank

69) Grundelement hjørne69) Basic element corner

8. Samleelements pileformede koblingshoved flettet ind i 2 flettespalter8. Arrow element coupler-shaped coupling head braided into 2 braid slots

70) Samleelementspids70) Assembly element tip

71) Samleelementspids modholdshjørne71) Assembly element tip retention corner

72) Fletteelementorganrod72) Braid organ root

73) Flettespaltehjørnerunding73) Merge column corner rounding

74) Smileforment flettespalte74) Smile-shaped braid column

75) Smaleelementrods flanke75) Narrow element root flank

76) Flettespalte sideflanke76) Merge column side flank

77) Fletteelementspidsflanke77) Braid tip tip

78) Flettespalte kurve78) Braided curve

9. 2 flettespalter med variable længder9. 2 variable length braid slots

79) Flettespalteende kurve79) Braid splitting curve

80) Flettespalte side80) Merge column page

81) Forlænget Flettespalteåbning endetop81) Extended Braid slot opening end top

82) Oprindelige fletteåbningsspalte endetop82) Original braid opening slot end top

83) Flettespalte side83) Merge column page

10. Samleelements frie koblingshoveder vippet opad og låst på grundelement10. Assembly element free coupling heads tilted up and locked on base element

84) Samleelement hjørnespids84) Assembly element corner tip

85) Yderste Flettespalte85) Outer braid column

86) Grundelement86) Basic element

87) Inderste flettespalte87) Inner braid column

DK 2017 00346 A1DK 2017 00346 A1

88) Grundelement hjørne88) Basic element corner

89) Grundelement midterflanke89) Base element center flank

90) Låsehak90) Locking catch

91) Krydsformet fletteelement91) Cross-shaped braid element

92) Fletteelementspids modholdshjørne92) Merge element tip retention corner

93) Flettespalte med indflettet samleelement93) Braid column with interlaced assembly element

94) Samleelementspidsflanke94) Assembly element tip flange

95) Samleelementspids95) Assembly element tip

96) Samleelementrod96) Assembly element root

11. Samleelement vippet i lås imellem 2 grundelementer11. Assembly element tilted in lock between 2 basic elements

97) Flettespalte97) Merge column

98) Samleelementspids98) Assembly element tip

99) Flettespalte med indflettet samleelement99) Braid column with interlaced assembly element

100) Grundelementhjørne100) Basic element corner

101) Grundelementsideflanke101) Basic element page flank

102) Samleelementspids102) Assembly element tip

103) Ydre flettespalte103) Outer braid column

104) Låsehak104) Locking catch

105) Grundelementsideflanke105) Basic element page flank

106) Indre flettespalte106) Inner braid column

107) Samleelementspids modholdshjørne107) Assembly element tip retention corner

12. 2 grundelementer samlet i 90 graders vinkel12. 2 basic elements assembled at 90 degree angle

108) Samleelement108) Assembly element

109) Grundelementbukkelinie109) Basic Element Bending Line

110) Indre samlespalte110) Internal junction

111) Låsehak111) Locking catch

112) Grundelementhjørne112) Basic Element Corner

113) Grundelementsideflanke113) Basic element page flank

114) Grundelementbukkelinie114) Basic Element Bending Line

115) Grundelementhjørnespids115) Basic element corner tip

13. 2 grundelementer flettet med størst mulig samlespalte13. 2 basic elements braided with the widest possible gap

116) Grundelementsideflanke116) Basic element page flank

117) Grundelementhjørne117) Basic Element Corner

118) Låsehak118) Locking catch

119) Grundelementsideflanke119) Basic element page flank

120) Grundelement sideflamke120) Basic element side flame

121) Grundelementspids121) Basic element tip

122) Grundelementsideflanke122) Basic element page flank

123) Samleelementspids123) Assembly element tip

124) Grundelementspids124) Basic element tip

125) Grundelementflettespalte125) Basic element braid column

DK 2017 00346 A1DK 2017 00346 A1

126) Flettespalte126) Merge column

127) Grundelement sideflanke127) Basic element side flank

14. 2 grundelementer flettet med mindst mulig samlespalte14. 2 basic elements braided with minimum gap

128) Låsehak128) Locking catch

129) Grundelementspids129) Basic element tip

130) flettespalte130) merge column

131) Flettehak131) Braided heel

132) Grundelementsideflanke132) Basic element page flank

133) Flettespalte133) Merge column

134) Flettespalte med samleelement134) Braid column with assembly element

135) Flettespalte med samleelement135) Braid column with assembly element

136) Grundelementspids136) Basic element tip

15. Flettespalter i forskellige udformninger, pileform, smil, lige,halv-oval, oval,15. Braids slots of various shapes, arrow shape, smile, straight, semi-oval, oval,

137) Vinklet flettespaltespids front137) Angled braid tip front

138) Flettespaltehjørnerunding138) Merge column corner rounding

139) Vinklet flettespaltespids bagkant139) Angled braid tip rear edge

140) Smileformet flettespalte140) Smile-shaped braid slit

141) Flettespalte hjørnerunding141) Braided corner rounding

142) Smileformet flettespalte front142) Smile-shaped braid front

143) Liniær flettespalte143) Linear braid column

144) Hjørnerunding144) Corner rounding

145) Forkant145) Front edge

146) Halvoval flettespalte146) Halvoval braid column

147) Hjørneafrunding147) Corner rounding

148) Ligesidet flettespaltefront148) Equilateral braid column front

149) Oval flettespalte149) Oval braid column

150) Hjørneafrunding150) Corner rounding

151) Flettespalte forkant151) Braided front edge

16. Lang 6 modul grundelement- diamantformet16. Long 6 module base element- diamond shaped

152) Lang diamantformet grundelement152) Long diamond shaped base element

153) Sideflanke låsehak153) Side flank locking notch

154) låsehak154) locking notches

155) grudelementnæse ydre flettespalte155) abrasive nose outer braid slot

156) grudelementnæse indre flettespalte156) internal elemental nerve intersection

157) Låsehak157) Locking catch

158) Grudelementnæsespids158) Pit element nose tip

17. Lang 8 modul grundelement - dobbelt diamant17. Long 8 module base element - double diamond

159) Grundelementnæsespids159) Basic Nose Tip

160) Næseflanke160) Nose flank

161) Låsehak161) Locking catch

DK 2017 00346 A1DK 2017 00346 A1

162) Grudelementnæse ydre flettespalte162) Outer element nose outer braid

163) Sideflanke163) Side flank

164) Låsehak164) Locking catch

165) Flettespalte165) Merge column

166) Dobbelt diamandtop166) Double diamond top

167) Kort sideflanke167) Short side flank

168) Sideflanke168) Side flank

169) Diamantspids169) Diamond tip

170) Flettespalte170) Merge column

171) Bukkecenterlinie171) Buccentric line

172) Låsehak172) Locking catch

173) Dobbelt diamandtop173) Double diamond top

18. Kort 3 modul grundelement18. Short 3 module base element

174) Flettespalterunding174) Merge column rounding

175) Flettespalte175) Merge column

176) Låsehak176) Locking catch

177) Kort sideflanke177) Short side flank

178) Afslutningsspids178) Termination tip

19. 5 modul grundelement19. 5 module base element

179) Låsehak179) Locking catch

180) Låsehakflanke180) Latch flange

181) Kort sideflanke181) Short side flank

182) Mellemflanke182) Middle flank

183) Femkantet grundelement centrum183) Pentagonal base element center

184) Flettespalte184) Merge column

20. Let diagonalt bøjet 4 modul grundelement20. Slightly diagonally bent 4 module base element

185) Grudelementbukkelinie185) Pit element bucket line

186) Flettespalte186) Merge column

187) Grundelementhjørne187) Basic Element Corner

188) Sideflanke188) Side flanks

189) Bukkeliniespids189) Bend line tip

190) Sideflanke190) Side flank

191) grundelementspids191) base element tip

21. 3 grundelementer samlet omkring 90 graders hjørne21. 3 basic elements gathered around a 90 degree corner

192) Grundelementspids192) Basic element tip

193) Flettespalte193) Merge column

194) Grundelementbukkekantspids194) Base element arch edge

195) Låsehak195) Locking catch

196) Grundelementbukkekant196) Base Elbow Bend

197) Grundelementhjørneflanke197) Basic element corner flank

198) Grundelementhjørne198) Basic Element Corner

DK 2017 00346 A1DK 2017 00346 A1

199) Grundelement sideflanke199) Basic element side flank

200) Grundelementhjørnespids200) Basic element corner tip

201) Hjørne201) Corner

22. Forskellige udforminger af samleelementets koblingshovder, kvadrat, ovalt, pileformet, cirkulær,22. Various designs of coupling heads, square, oval, arrow shaped, circular,

202) Kvadratisk flettehoved202) Square braid head

203) Flettehoveds indføringsflanke203) The insertion flange of the braid head

204) Flettehovedmodholdsflanke204) Braid head restraint flank

205) Flettehoveds indføringsflanke205) The insertion flange of the braid head

206) Flettehovedspids206) Braid head tip

207) Ovalt flettehoved207) Oval braid head

208) Samleelementrod208) Assembly element root

209) Flettehovedmodholdshjørne209) Merge head retention corner

210) Cirkulær flettehoved210) Circular braid head

211) Flettehoved modholdsrunding211) Braid head restraint rounding

212) Samleelementrod212) Assembly element root

213) Cirkulære flettehovedruninger213) Circular braid head rounds

214) Pileformet flettehoved214) Arrow-shaped braid head

215) Pileformet modholdsflanke215) Arrow-shaped restraining flank

216) Modholdsrunding216) Countervailing rounding

23. Samleelements flettehoved indsat i spalte med modhold23. Assembly element braid head inserted into recess slot

217) Pileformet flettehovedspids217) Arrow-shaped braid tip

218) Smileformet flettespalte218) Smile-shaped braid slit

219) Flettehovedindføringsflanke219) Braid insertion flange

220) Flettehovedmodholdrunding220) Braid head restraint rounding

221) Samleelementrod221) Assembly element root

222) Flettespalteforkant222) Braided column front

223) Flettespalterunding223) Merge column rounding

224) Flettespaltehjørnerunding224) Merge column corner rounding

225) flettespaltebagkant225) braid backing

24. Samleelementhoved med funktion som ledningsholder/fastgørelse24. Assembly element head with function as cord holder / fastener

226) Ringformet samleelement226) Annular assembly

227) LED ledningsindføring227) LED wire insert

228) LED lednings el-stik228) LED power cord

229) Samleelement cirkel229) Assembly element circle

230) Samleelementrod230) Assembly element root

231) Lednings fastholdelsesknude231) Cord retention node

232) LED ledning232) LED wire

233) LED ledningsstik233) LED wiring connector

234) Koblingselementsfunktionshoved234) Clutch element function head

DK 2017 00346 A1DK 2017 00346 A1

25. Samleelementhoved med fastholdelsesklips funktion25. Assembly element head with retaining clip function

235) Klemmeåbne trykarm235) Clamping open arm

236) Samleelement flettehoved236) Assembly element braid head

237) Samleelementrods hjørne237) Assembly element root corner

238) Flettehoved indføringsflanke238) Braid insertion flange

239) Flettehoved modholdshjørne239) Braid head retention corner

240) Samleelementrod240) Assembly element root

241) Pileformet flettehoved241) Arrow-shaped braid head

242) Flettehovedspids242) Braid head tip

243) Flettehovedmodholdshjørne243) Braid head retention corner

244) Fastholdelsesvæg244) Retaining wall

245) Fingerflanke245) Finger flank

246) Fjederhus246) Spring housing

247) Snaphoved247) Snaphead

248) Klolæbe248) Cloth lip

26. Grundelement og samleelementhovederne som ledningsholder og lys fastgørelsesorgan26. Base element and the assembly element heads such as cord holder and light fastener

249) Kobber lednings LED kæde249) Copper wire LED chain

250) Mini LED lys250) Mini LED light

251) Ledning indflettet bag flettehoved i flettet position251) Cord interwoven behind braid head in braided position

252) Ledning og LED indflettet imellem flerer samleelementorganer252) Conduit and LED interbedded between multiple assembly members

253) LED lys fritliggende imellem indfletninger253) LED light exposed between interlays

254) Kobberledning254) Copper wire

27. LED lysledning indflettet imellem flere samleelementer27. LED light wire interspersed between several connectors

255) Kobberledning255) Copper wire

256) Mini LED256) Mini LED

257) Indflettet Kobberledning under samleelements flettehoved257) Braided Copper Cord below the braid head of the assembly element

258) Kobberledning indfletning258) Copper wire interlacing

259) Grundelement259) Basic element

260) Samleelement260) Assembly element

261) Flettespids261) Braid tip

262) Grundelement sideflanke262) Base element side flank

263) Samleelement fletthovedspids263) Assembly element braid tip

264) Mini LED264) Mini LED

265) Mini LED på kobberledning265) Mini LED on copper wire

28. Snapelement til samling af ledninger og samleelement28. Snap element for connecting wires and connecting element

266) Samleelementspids266) Assembly element tip

267) Samleelementrods hjørne267) Assembly element root corner

268) Samleelement flettespidsflanke268) Assembly element braid tip flange

269) Smaleelementrod269) Narrow-element root

270) Samleelementhoved modholdshjørne270) Assembly element head retention corner

271) Samleelementhoved271) Assembly element head

DK 2017 00346 A1DK 2017 00346 A1

272) Flettespids272) Braid tip

273) Modholds innerhjørne273) Resist the inner corner

274) Snapsokkel274) Snap socket

275) Snap275) Snap

276) Snapkrave276) Snap collar

277) Mini LED277) Mini LED

278) Snapfæstning278) Snap Fortification

279) Kobberledning279) Copper wire

280) Ledningssnap280) Cord snap

281) Ledningssnap læbe281) Cord snap lip

282) Ledningssnapkrave282) Cord snap collar

29. Grundelement til montage af snapelement29. Basic element for mounting snap element

283) Grundelement283) Basic element

284) Centersnaphul284) Center snap hole

285) Flettespalte285) Merge column

286) Grundelementhjørne286) Basic Element Corner

287) Indre flettespalte287) Inner braid column

288) Flettespaltehjørne288) Merge column corner

289) Flettespalte flenke289) Braided slit flange

290) Låsehak290) Locking catch

291) Grundelementhjørne291) Basic element corner

292) Låsehakflanke292) Latch flange

293) Grundelementside293) Basic element page

294) Flettespalteside294) Merge column page

295) Åbning for andre fittingselementer295) Opening for other fitting elements

296) Cirkulær åbning til fittingselementer296) Circular opening for fittings

297) Åbningsvæg297) Opening wall

298) Fjedringsspalte298) Suspension column

299) Fjedringsspalte hjørnekurve299) Spring split corner curve

300) Åbningshul300) Opening hole

30. Androgyn grund og samleelement i et.30. Androgynous ground and collecting element in one.

301) Flettehoved301) Braid head

302) flettehovedmodholdspil302) braid head restraint game

303) enkelt fletteåbning303) single braid opening

304) flettehovedspids304) braid tip

305) diagonal bukkelinie305) diagonal bend line

DK 2017 00346 A1DK 2017 00346 A1

306) fletteåbning306) braid opening

31. Spaltet samleelement og grundelement med single spalte åbninger.31. Slotted joint element and base element with single slit openings.

307) Spaltet flettehoved spids307) Split braid head tip

308) Flettespidsflanke308) Braid tip flange

309) Låsehak309) Locking catch

310) Samleelementrod310) Assembly element root

311) Grundelementsideslanke311) Basic element siding

312) Spaltet flette elementrod312) Split merge element root

313) Samleelementrod313) Assembly element root

314) Flettespalte314) Merge column

315) Pileformet flettehoved modholdshak315) Arrow-shaped braid head restraint notch

316) Spaltet fletthovedspids316) Split braid tip

Claims (10)

KRAV:REQUIREMENTS: 1. Selvstabiliserende og selvbærende rumligt modul-flettesystem, hvor grundmoduler er samlet igennem 2 eller flere spalter med et eller flere konnektorelementer.1. Self-stabilizing and self-supporting spatial module braid system, wherein basic modules are assembled through 2 or more slots with one or more connector elements. Et modulflettesystem som skaber stabilitet imellem de enkelte samlinger, således at grundelementerne står i lige plan over for hinanden når de er samlede.A module braid system that creates stability between the individual joints, so that the basic elements face each other when they are assembled. Med modul forståes at flettesiderne altid er udført i de samme dimensioner og i et gritmodul således at de går op i højde, længde og bredde mål.By module it is understood that the braid pages are always made in the same dimensions and in a grit module so that they go up in height, length and width measurements. Samtidig sikrer de en selvbærende stabilitet for de 3-D rumlige strukturer der kan blive skabt af systemet.At the same time, they ensure self-sustaining stability for the 3-D spatial structures that can be created by the system. Systemet er unikt ved at det ikke behøver et indre skelet for at kunne opnå stablie rummelige former.The system is unique in that it does not need an inner skeleton in order to obtain stable spacious shapes. Dette er afgørende i brugernes kreative proces hvor man kan opnå stabilitet uden at planlægge en indre konstruktion først.This is crucial in the users creative process where stability can be achieved without planning an internal design first. 2. Dialgonal bukkekant på grundelementer der skaber en basal strukturel geometriske konstruktion2. Dialgonal curvature of basic elements creating a basic structural geometric construction En diagonal bukkekant gør at alle grundelementer får en trekant formet struktur, som giver den grundlæggende statiske konstuktions stabilitet.A diagonal curvature gives all basic elements a triangular structure, which provides the stability of the basic static construction. Det unikke tre-punkt design giver den stærke strukturelle konstruktion for alle former der bliver skabt med systemet.The unique three-point design provides the strong structural design for all shapes created with the system. Til trods for at flettesamlingerne er feksible så medvirker trekantgeometiren til at alle former skabt med systemet blive stabile og statiske, hvorved rumlige former med hulrum gøres mulige.Although the braid joints are flexible, the triangular geometry helps ensure that all shapes created with the system become stable and static, making possible spatial shapes with voids. 3. Flette-konnektorelement med en eller flere modhageformede koblingshovedorganer.3. Braid connector element with one or more barbed-shaped coupling head means. Ved hjælp af en indstikguidet form og efterfølgende modhagefunktioner, som fastholder når først at samleelementet er flettet i bund på grundelementet.By means of an insert guided shape and subsequent barbed functions, which once maintain that the connecting element is braided at the bottom of the base element. Grundelement og samleelement har en materialemæssig fleksibilitet der gør at de kan afbøde den overstørrelse som flettehovedet har i forhold til flettespalterne. Herved er det muligt at få dem til at blive flettet sammen.The base element and assembly element have a material flexibility that allows them to mitigate the oversize that the braid head has in relation to the braid slots. This makes it possible to have them braided together. DK 2017 00346 A1DK 2017 00346 A1 4. Flettekonnektor med koblingshoveder der kan flippe op for at låse frem og tilbage og side til side.4. Braid connector with coupling heads that can be flipped to lock back and forth and side to side. Herved kan afstanden imellem 2 grundelementer fastholdes helt præcist.In this way the distance between 2 basic elements can be maintained precisely. Denne funktion stryker desuden den selvbærende konstruktion yderligere.This feature further extends the self-supporting structure. Det er muligt kun at vælge at låse i den ene side hvorved der optræder en fast vinkling imellem to grundelementer i det vandrette plan.It is possible to choose only to lock on one side, thereby providing a fixed angle between two basic elements in the horizontal plane. 5. Variabel og fleksibel vinkling i vandret plan og af afstanden imellem grundelementer i samlet tilstand.5. Variable and flexible angle in horizontal plane and of the distance between basic elements in overall condition. Ved at gøre samleelementets rod længere end blot til at kunne nå igennem flettespalterne, er det muligt at varierer den vandrette afstand og vinkel imellem grundelementerne.By making the root element longer than simply being able to reach through the braid slots, it is possible to vary the horizontal distance and angle between the base elements. Dette giver stor design frihed samtidig med at stabiliteten og fastholdelses evnen er intakt.This gives great design freedom while keeping the stability and retention capability intact. 6. Smil udformning af flettespalteåbningerne.6. Smile the design of the braid slot openings. Den smileformede spalte muliggør at plastfolie-elemneterne kan tåle et større tryk fra standseprocessen i produktionen uden at blive deformeret eller danne uønskede skygger.The smile-shaped slit allows the plastic foil elements to withstand greater pressure from the stop process in production without being deformed or creating unwanted shadows. Desuden guider og hjælper denne form selve indfletningen.In addition, this form guides and aids the actual interlacing. 7. 360 graders variabel vinkling imellem grundelementer i forhold til hinanden.7. 360 degree variable angle between basic elements relative to each other. Det fleksible flettesamlings element muliggør at grundelementerne kan vinkles i helt op til 360 grader i forhold til hinanden. Dette giver det ultimative modulgrit der gør at modulet altid går op grundgeometrisk.The flexible braid element allows the base elements to be angled up to 360 degrees relative to each other. This gives the ultimate module grit, which means that the module always goes up basic geometrically. 8. 130 graders vinkelsamlinger giver lukket halvmodul8. 130 degree angle joints provide closed half module Når 2 diagonaltbukkede grundelementer flettes direkte samme, så opstår der et lukket halvmodul.When 2 diagonally bent basic elements are merged directly the same, a closed half module is formed. 9. Samleelemneterne har en fastholdende Indfletningsfunktion af LED lyskæder9. The assembly elements have a permanent interlacing function of LED light chains Samleelementerne er konstruerede således at de kan modtage en indfletning af kobber ledningerThe connectors are designed so that they can receive a braid of copper wires Ledninger med LED lys på kan flettes helt tæt på den indre fladei enhver form skabt af systement.Wires with LED lights on can be braided very close to the inner surface of any type of system. DK 2017 00346 A1DK 2017 00346 A1 10. Grundelementer og samleelementer kan udformes med en ophængningsfunktion.10. Basic elements and assemblies can be designed with a suspension function. For at kunne hænge eller fastgøre modulsystemet er det muligt at udforme funktioner der klikker eller snapper eller kan skrues, limes,tapes fast til andre objekter eller interiør genstande.In order to be able to hang or fasten the modular system, it is possible to design functions that click or snap or can be screwed, glued, taped to other objects or interior objects.
DKPA201700346A 2017-06-12 2017-06-12 Self-supporting braiding module building system DK201700346A1 (en)

Priority Applications (3)

Application Number Priority Date Filing Date Title
DKPA201700346A DK201700346A1 (en) 2017-06-12 2017-06-12 Self-supporting braiding module building system
EP18816490.9A EP3638388A4 (en) 2017-06-12 2018-06-12 CONSTRUCTION SYSTEM FOR SELF-SUPPORTING WEB MODULE
PCT/DK2018/050133 WO2018228649A1 (en) 2017-06-12 2018-06-12 Self-supporting weaving-module building system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DKPA201700346A DK201700346A1 (en) 2017-06-12 2017-06-12 Self-supporting braiding module building system

Publications (1)

Publication Number Publication Date
DK201700346A1 true DK201700346A1 (en) 2019-02-04

Family

ID=64660647

Family Applications (1)

Application Number Title Priority Date Filing Date
DKPA201700346A DK201700346A1 (en) 2017-06-12 2017-06-12 Self-supporting braiding module building system

Country Status (3)

Country Link
EP (1) EP3638388A4 (en)
DK (1) DK201700346A1 (en)
WO (1) WO2018228649A1 (en)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102017130863A1 (en) * 2017-12-21 2019-06-27 Claus Hencken Lampshade and light
KR102537404B1 (en) * 2020-09-28 2023-06-01 (주)플레이31 Play kit made by paper
JP2025073870A (en) * 2023-10-27 2025-05-13 妹尾 淑子 Soft fitting structure and structure using fitting portion of soft fitting structure

Family Cites Families (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2414716A (en) * 1944-12-15 1947-01-21 Rigagig Toy Company Mechanical toy
JP2006132762A (en) * 2004-10-04 2006-05-25 Yoshiritsu Co Ltd Assembled block
KR200406231Y1 (en) * 2005-10-21 2006-01-20 고현규 Prefabricated three-dimensional structure using paper panel
WO2007135800A1 (en) * 2006-05-24 2007-11-29 Yoshiritsu Kabushiki Kaisha Knockdown block
WO2007136047A1 (en) * 2006-05-24 2007-11-29 Yoshiritsu Kabushiki Kaisha Knockdown block
JP2012040288A (en) * 2010-08-23 2012-03-01 Yoshiritsu Co Ltd Construction block
US9784426B2 (en) * 2014-07-29 2017-10-10 Roly Joe Holder Systems and methods for forming self-supporting three-dimensional structures
US10857475B2 (en) * 2015-09-03 2020-12-08 Max Moskowitz Magnetic tiles construction set and accessories kit therefor
ITUB20153586A1 (en) * 2015-09-11 2017-03-11 Simon Carlo Marussi MODULAR GROUP FOR THE FORMATION OF CONSTRUCTION FOR LUDIC USE.
CN105709438A (en) * 2016-04-07 2016-06-29 聂音弟 Manual educational combined toy

Also Published As

Publication number Publication date
WO2018228649A1 (en) 2018-12-20
EP3638388A4 (en) 2021-05-05
EP3638388A1 (en) 2020-04-22

Similar Documents

Publication Publication Date Title
JP6440044B1 (en) Paneled geometric puzzle
DK201700346A1 (en) Self-supporting braiding module building system
US20070070626A1 (en) Lighting substrate
US8764234B1 (en) Decorative sphere
JP7277409B2 (en) toy
KR200479680Y1 (en) Decorative Plate With Storage Function In Addition To Decoration
US9784426B2 (en) Systems and methods for forming self-supporting three-dimensional structures
EP2762217A1 (en) Geometric systems for building 3-D structures
JP4950328B2 (en) Lease with storage
US20160035253A1 (en) Modular card display device
EP0506354A1 (en) Decorative continuous assemblage of composing elements
US20250073606A1 (en) Vacuum decoration system
CN202972490U (en) Sheet assembly component with symmetrically distributed clamping grooves
US20100075566A1 (en) Self-storing toy kit
US20080078901A1 (en) Ring display system
GR1009678B (en) Three-dimensional mosaic tile
KR20110081044A (en) Folding structure
CN105709438A (en) Manual educational combined toy
CN221990043U (en) Decorative tent system
JP3251244U (en) 3D design set toy
TWD183497S (en) Synthetic and natural materials
US12465122B2 (en) Method of gem composition for the manufacture of jewellery (crystal in crystal)
JP3221399U (en) battledore
CN202225664U (en) A structure for easily forming three-dimensional ornaments with sheets
US10222043B1 (en) Illuminated ornament assembly

Legal Events

Date Code Title Description
PAT Application published

Effective date: 20181213

PHB Application deemed withdrawn due to non-payment or other reasons

Effective date: 20190621