DK2126267T3 - Connector for a blind between a viklingsaksel and a head portion thereof - Google Patents

Description

Description [0001] The invention relates to the mechanical connection between the bearing insert and the roller blind tube in a roller blind.

[0002] In traditional roller blinds the roller blind rod was made of wood, and the bearing insert was simply a round nail placed centrally in the wood, which was solid and rodshaped at one end. As the development began to use tubes to roll a roller blind around, the bearing insert became a plug with a cylindrical metal insert, said plug being pushed or hammered into position for a compression fit. However, as roller blind mechanisms have become more sophisticated, more and more of a mechanical nature is placed inside the tube and in the bearing insert, and it is no longer satisfactory that a plug is pressed into a tube, because it becomes impossible to separate the two sensibly afterwards. There is hence a need for a joint or mechanical connection that is at the same time rigid, if it is desired to make it permanent, but which may be removed against a force that is less than the pulling of a plug that is compression fit into the tube. Ideally, the force to obtain this is in the range 50 to 200 Newton.

[0003] Parts that are suitable for this purpose are indeed manufactured, but the fit obtained when the parts are joined is entirely dependent on the manufacturing tolerances of the parts. The worst cases are the extremes of the tolerances: a tube with an inside diameter that is too small trying to cooperate with a plug that is average, or a plug with an outside diameter that is too large trying to cooperate with an average value inside diameter of the tube. In both cases, the joint will be too tight. Similarly, an inside diameter of the tube at the maximum limit trying to cooperate with an outside diameter of the plug at the minimum limit will not be a joint at all - it will fall apart. However, close tolerances are expensive to obtain in manufacture, and in particular when one part is made of a polymer, the cost becomes unrealistic for a roller blind component.

[0004] US Patent 3,854,517 describes a bearing insert that cooperates with a roller blind tube by means of grooves that engage ribs on the inside of the roller blind tube. These is no mention of frictional engagement, and the construction does not need this feature. It is the purpose of the invention to provide a mechanical connection between the bearing insert and the roller blind tube in a roller blind in which the influence of manufacturing tolerances is minimized. This is obtained in a construction according to the present claim 1. The insert is provided with angularly disposed radial and longitudinal ribs that cooperate with the inner surface of the roller blind tube, said inner surface being provided with longitudinal grooves at an angular spacing that is identical to the angular spacing of said ribs. Such longitudinal grooves may be manufactured by extrusion, if the tube is made of aluminium, or they may be shaped by reaming from one end of the tube, because they need not have a length that exceeds the length of the ribs. In that case even a rolled and welded steel tube may be used.

[0005] The operator fitting the insert into the end of a tube will quickly obtain a feel for the degree to which the fit between the insert and the tube will fulfil the force criteria mentioned above. If the insert moves too tightly in the tube when the ribs engage the inner cylindrical surface of the tube, then it is withdrawn, rotated to place the ribs in the direction of the grooves and re-inserted. In order that there is no risk of too loose fitting in the tube, the tolerances are shifted towards a too tight fit with the cylindrical inside surface of the tube as the average dimension with the given tolerance.

[0006] In an advantageous embodiment the insert as well as the inside of the tube are provided with indexing means that ensure that either the inside cylindrical surface of the tube or the bottom of the longitudinal grooves are reliably engaged. The term "indexing means" has been used, although "registration means" might equally indicate the essence of this feature, namely that a given angular relationship between the roller blind tube and the insert is reliably obtained.

[0007] In a further advantageous embodiment the indexing means of the tube consist of at least one pair of internal longitudinal ribs in the tube, with a distance such that they may be straddled by two consecutive ribs on the insert, while one of the grooves is disposed between said ribs. In this manner, the insertion where the ribs engage the inner cylindrical surface of the tube corresponds to straddling the two internal ribs, whereas the angularly displaced engagement with the grooves in the tube means that one insert rib is fitted beetween the two internal ribs in the tube.

[0008] In a further advantageous embodiment of the invention the indexing means of the tube consist of two inwards-facing dimple-like structures, with a distance such that they may be straddled by two consecutive ribs on the insert (1), while one of said grooves is disposed between said dimple-like structures. Dimples would be simply formed by pressing radially inwards in a tubular material that is otherwise smooth, apart from the grooves.

[0009] In further advantageous embodiments either the ribs or the grooves define a slightly conical surface. This enables a simpler evaluation of the insertion and extraction force to be expected, because the axial penetration without appreciable force will be to a depth that is dependent on the tightness of the fit. If the fit is too tight, then it is easy to retract the insert before it is caught and perform the angular displacement to the grooves. The conical surfaces provide a wedge-like effect.

[0010] It is also desired to protect a use of the mechanical connection by providing a sequence of operations such as that given in claim 7.

[0011] The invention will be further described with reference to the drawings, in which

Fig. 1 shows one type of engagement between insert and tube in cross section,

Fig. 2 shows an enlargement of part of the cross section shown in Fig. 1

Fig. 3 shows the alternative type of engagement between insert and tube in cross section,

Fig. 4 shows an enlargement of part of the cross section shown in Fig. 3, and Fig. 5 shows a cross section of a groove in still greater enlargement.

[0012] In Fig. 1 is shown an insert 1 inside a roller blind tube 2. The insert is made in a plastic material and the roller blind tube is extruded in an aluminium alloy. It is seen that the insert 1 is provided with a number of ribs 3 that center the insert inside the tube 2 at the radius R and create friction to the inside surface of the tube, i.e. they provide the retaining force against being pulled out. In Fig. 2 is seen an enlargement of this fitting of the insert inside the tube, and the ribs 3' and 3" are shown straddling a structure 2', 2" formed on the inside of the tube.This structure is a set of longitudinal ribs that between them define a space 2s. From inspecting Figs. 1 and 2 it is not possible to determine the strength of the joint between the insert 1 and the tube 2, but it has to be sufficient to prevent falling or even simple pulling out of the insert 1. Rotation is prevented by the engagement beetween the external ribs 3', 3" and the internal ribs 2', 2". In case the outside diameter of the circle defined by the external ribs 3', 3" is too large, the insert 1 cannot be pushed all the way into the tube 2, and this means that the roller blind assembly becomes too long, although the friction force criterion is satisfied.

[0013] Fig. 3 shows how a greater clearance between the insert 1 and the roller blind tube 2 is obtained, but it is more clearly shown in Fig. 4. The inside of the roller blind tube has been provided with longitudinal grooves 4 that locally increase the inside radius of the roller blind tube to R' at angular intervals that correspond to the angular distance between the external ribs 3 on the insert 1. In order to make use of this larger radius, the insert is rotated a half division with respect to the situation described above, so that the rib 3" now engages the space 2s between the ribs 2', 2". The local radius R' also applies to this space 2s. For clarity it is shown that the ribs 3 do not reach the bottom of the grooves 4, which in practice would lead the operator to prefer the previous situation.

[0014] In Fig. 5 is shown an even greater enlargement in order to illustrate the two radii obtained in the same roller blind tube 2. The provision of the choice of two radii is not necessary along the whole length of the roller blind tube, but only near one or both ends. For this reason the grooves may not need to be created by extrusion, but they may be made by other methods known in the trade, such as by a reaming or milling process near the ends. The internal rib structure 2', 2" also does not need to extend the whole length of the tube, because the purpose is a locking against rotation. That may be obtained by the provision of a dimple-like structure near one or both ends of the roller blind tube.

[0015] In practice, it may occur that the experienced operator will begin assembly by trying out the configuration shown in Figs. 3 and 4. If this provides a fit that is too loose, he withdraws the insert 1 from the opening of the roller blind tube 2, rotates it so that two of the external ribs straddle the structure 2', 2" and inserts it agan, pushing it home against a force that is satisfactory.

[0016] Summing up, the end of a roller blind tube has an insert with a bearing arbor. The diameter tolerances on roller blind tubes and inserts are such that the operator meets very variable forces in pressing it in. According to the invention there may be provided a choice of diameters by providing the insert with longitudinal ribs that cooperate either with the original inside surface of the roller blind tube, which is normal, or with longitudinal grooves having slightly increased radius with respect to the axis of the roller blind tube.

Claims (7)

1. Mekanisk forbindelse mellem en lejeindsats (1) og et rullegardinsrør (2) i et rullegardin, hvor indsatsen (1) er forsynet med i vinkel anbragte radiale og langsgående ribber (3, 3', 3"), og hvor den indvendige overflade af rullegardinsrøret (2) er forsynet med langsgående riller (4) i en vinkelafstand, som er identisk med vinkelafstanden af ribberne (3, 3', 3"), kendetegnet ved, at de langsgående ribber (4) har en lidt forstørret radius i forhold til aksen af rullegardinsrøret, hvorved der tilvejebringes et udvalg af diametre deri, afhængigt af diametertolerancer på rullegardinsrøret (2) og indsatsen (1), hvor ribberne (3, 3', 3") på indsatsen (1) kan samvirke friktionsmæssigt enten med den originale indvendige overflade af rullegardinsrøret eller med rillerne (4).Mechanical connection between a bearing insert (1) and a roller blind (2) in a roller blind, the insert (1) being provided with angled radial and longitudinal ribs (3, 3 ', 3 ") and the inner surface of the roller tube (2) is provided with longitudinal grooves (4) at an angular distance identical to the angular distance of the ribs (3, 3 ', 3 "), characterized in that the longitudinal ribs (4) have a slightly enlarged radius in relative to the axis of the roller tube, thereby providing a selection of diameters therein, depending on diameter tolerances on the roller tube (2) and the insert (1), where the ribs (3, 3 ', 3 ") on the insert (1) can cooperate frictionally with either the original inner surface of the roller blind or with the grooves (4). 2. Mekanisk forbindelse ifølge krav 1, kendetegnet ved, at indsatsen (1) samt det indvendige af røret (2) er forsynet med indekseringsmidler (2', 2"; 3', 3"), som sikrer, at enten den indvendige cylindriske overflade af røret eller bunden af de langsgående riller (4) er i pålideligt indgreb med ribberne (3, 3', 3").Mechanical connection according to claim 1, characterized in that the insert (1) and the interior of the tube (2) are provided with indexing means (2 ', 2 "; 3', 3") which ensure that either the inner cylindrical surface of the tube or bottom of the longitudinal grooves (4) is reliably engaged with the ribs (3, 3 ', 3 "). 3. Mekanisk forbindelse ifølge krav 2, kendetegnet ved, at indekseringsmidlerne af røret består af mindst ét par indvendige, langsgående ribber (2', 2”) i røret med en afstand, således at to på hinanden følgende ribber (3', 3") kan befinde sig på begge sider af dem på indsatsen (1), mens en af rillerne er anbragt i bunden af rummet (2s) mellem ribberne.Mechanical connection according to claim 2, characterized in that the indexing means of the pipe consists of at least one pair of inner longitudinal ribs (2 ', 2 ") in the pipe at a distance such that two successive ribs (3', 3"). ) may be located on either side of them on the insert (1) while one of the grooves is disposed at the bottom of the space (2s) between the ribs. 4. Mekanisk forbindelse ifølge krav 2, kendetegnet ved, at indekseringsmidlerne af røret består af to indadrettede, forsænkningslignende strukturer med en afstand, således at to på hinanden følgende ribber (3', 3") kan befinde sig på begge sider af dem på indsatsen (1), mens en af rillerne er anbragt mellem de forsænkningslignende strukturer.Mechanical connection according to claim 2, characterized in that the indexing means of the tube consist of two inwardly recessed recess-like structures at a distance such that two successive ribs (3 ', 3 ") can be located on both sides of them on the insert. (1) while one of the grooves is disposed between the recess-like structures. 5. Mekanisk forbindelse ifølge krav 1, kendetegnet ved, at ribberne på indsatsen definerer en lidt konisk overflade, hvor den mindste diameter skal indsættes først.Mechanical connection according to claim 1, characterized in that the ribs on the insert define a slightly tapered surface where the smallest diameter must be inserted first. 6. Mekanisk forbindelse ifølge krav 1, kendetegnet ved, at rillerne (4), i det mindste langs en længde af det indvendige af rullegardinsrøret, som svarer til den langsgående forlængelse af indsatsen (1), definerer en lidt konisk overflade med et toppunkt indvendigt i rullegardinsrøret.Mechanical connection according to claim 1, characterized in that the grooves (4), at least along a length of the interior of the roller tube, corresponding to the longitudinal extension of the insert (1), define a slightly tapered surface with an apex inside. in the blinds. 7. Anvendelse af en mekanisk forbindelse ifølge krav 2, kendetegnet ved, at indsatsen (1) i et første trin af monteringen er indstillet til at tilpasses en ribbe (3") over for rummet (2s) mellem to på hinanden følgende ribber (2', 2") og skubbes aksialt ind i røret (2), indtil det fastholdes ved hjælp af friktion ved den forudbestemte aksiale position indvendigt i røret (2), i modsat fald, vil indsatsen (1) i et andet trin trækkes tilbage igen, og i et tredje trin af monteringen roteres den for at tilpasses et par ribber (3', 3"), som ligger på begge sider af ribberne (2', 2"), som omslutter rummet (2s) og skubbes aksialt ind i røret (2) mod en tiltagende friktion, indtil indsatsen (1) er ved en forudbestemt aksial position indvendigt i røret (2).Use of a mechanical connection according to claim 2, characterized in that the insert (1) in a first step of the assembly is adjusted to fit a rib (3 ") to the space (2s) between two successive ribs (2). ', 2 ") and pushed axially into the tube (2) until it is held by friction at the predetermined axial position inside the tube (2), otherwise the insert (1) will be retracted in a second step. and, in a third step of the assembly, it is rotated to fit a pair of ribs (3 ', 3 ") located on both sides of the ribs (2', 2") which enclose the space (2s) and are axially pushed into the the tube (2) towards an increasing friction until the insert (1) is at a predetermined axial position inside the tube (2).