NO157846B - Building block SET. - Google Patents

Description

The invention relates to a building element or building block set in accordance with the introduction to patent claim 1.

Plastic building blocks for jointing usually have on one of their surfaces knobs or protrusions and on the other, usually an overlying surface, clamping recesses or grippers for these elements. The joining of two building blocks takes place by pressing the knobs on one building block into the grippers on the other.

Known building blocks of this type usually consist of a relatively hard and smooth plastic material, where contact problems occur and the use of the building blocks can lead to rattling. It is uncomfortable when you step with your bare feet on building blocks that lie outside, especially as the known building blocks are mostly angular. Building blocks of the type described with rounded edges for e.g. round construction is shown in JA-PS 25 92 61 and 54 15 39.

Building blocks made of soft plastic are also known, but these are either of a fundamentally different structure or they are deficient in terms of stability and dimensional stability.

From French patent document 1,232,715, a building block made of soft plastic is known, e.g. of polyethylene. This building block is composed of individual cylindrical elements, which are held together by a step. Each cylindrical element has a locking lug on the upper side and a clamping recess on the underside, as the locking lug consists of solid material and the clamping recess has a significant wall thickness of about a quarter of the element's outer diameter. Likeens has risen a considerable thickness. This known building block does indeed allow a multi-sided joining, including round construction, but it also has significant disadvantages, e.g. it is not possible to make solid walls, because it lacks side walls.

Moreover, it is apparently difficult to achieve correct clamping between the lugs and the clamping recesses. If both are not manufactured with very precise tolerances, then if the cams are slightly over-dimensioned, you will only be able to press them into the clamping recesses with a large consumption of force. The reason for this is that neither the knobs made of solid material nor the clamping recesses, which are designed with significant wall thickness, are elastically yielding. Conversely, even a slight over-dimensioning of the lugs in relation to the clamping recesses will result in insufficient interlocking.

In German specification 1,478,616, building blocks are described which have a wall with cylindrical connecting elements in a row on one side. A wall standing at right angles to this wall serves to stiffen the connecting elements. A single-element building block consists of a cylindrical piece of pipe with a cavity and a projection arranged at the closed end.

The main purpose of the invention is to form a building block set of plastic building blocks which not only offers great variation with just the basic shape, but also lies comfortably in the hand, is dimensionally stable and guarantees a secure attachment between joined stones.

This task is solved in accordance with the invention with a building block set, which is described in claim 1. Further description of the invention is given in the subclaims. The building block set according to the invention allows, due to the rounding of the building block edges, swinging of joined building blocks towards each other, so that extremely versatile constructions can be made. Walls can run towards each other at a desired angle, circular constructions such as impellers, gears, towers etc. are possible. Furthermore, individual building blocks or entire groups of building blocks can be bent, which conveys the impression that the material is deformable. This impression is reinforced by the use of a soft plastic material. Preferably high-pressure polyethylene

(PE-rayk) of the type PE-M-20-200-00 (according to DIN 16 776) used. This building block material lies well and comfortably in the hand. It is wear-resistant and shape-resistant, and unthinkable from a nutritional point of view. It also ensures good contact between joined building blocks. By rounding the building stone edge, and using soft plastic, even a small child cannot injure himself on the building stones.

In order for the knob on one building block not only to be firmly fixed in the grippers in the other building block, but also to be guided well during a turning movement, the knob is made with a relatively large step height. A step height of from about a quarter to half, and preferably from about a third of the gripper height of the building block has been found to be beneficial. The gripper for the cam is a sleeve-shaped wall part, on which the cam is placed coaxially. With its cylindrical surface, the sleeve-shaped wall part forms the rounded building block edges. To the extent that the sleeve-shaped wall part, in the case of a multi-element building block, comes to lie within the building block, a bracing wall is formed, which gives the building block sufficient dimensional stability.

In order to achieve a good contact point for the cam in the gripper, a certain tolerance must be ensured when injection molding the building blocks. A sliding or sliding system according to "ISA fit" has proven to be beneficial.

In order to avoid accumulations of material, on the one hand where neighboring grippers of multi-element building blocks bump into each other, and on the other hand where the straight side walls of a building block run into the sleeve-shaped grippers, in accordance with an appropriate continuation of the invention provision has been made so that the cylindrical wall parts of the sleeve-shaped gripper in the interior of the building block are made with a smaller wall thickness than the wall thickness at the outside of the building block. Likewise, the cover wall, which connects the sleeve-shaped gripper with the cam as well as the cam itself, is preferably made with a smaller wall thickness. When the wall thickness is reduced, the sleeve-shaped grippers which lie up to the cylindrical inner wall parts also form a space in the area of the molded joint, which is preferably approximately equal to the wall thickness of the sleeve-shaped gripper in the area of the building block edges. As material accumulations are avoided, "shrinkage" during injection molding is also largely avoided, so that good parallelism between grippers and cams is ensured. The stick building blocks can be easily stuck and still attach well to each other. Due to the spaces between neighboring grippers, the injection mold can be made with increased stability, which gives a long service life.

According to an advantageous further development of the invention, the cams have a conically extending end surface, which facilitates insertion into the sleeve-shaped grippers. A concentric circle-shaped opening in the end surface of the knob prevents air cushions being trapped inside the sleeve-shaped gripper when the building blocks are joined together, and that this makes joining more difficult.

This opening can advantageously be used for inserting and piercing a rod, which can serve to stiffen the construction or as a pivot axis. The opening gives another additional effect, as it turns the building block into a small flute. Additional effects are also created when using (floating) building blocks in water.

As mentioned above, it is already possible to produce imaginative constructions with just a few basic shapes of the building blocks. In the following, a building block set of such basic building blocks is described. Numerous other special shapes of the building blocks are possible. Of these, a very simple one has been selected for illustration. The attached drawings show: Fig. 1 to 3 respectively. longitudinal and cross sections of building blocks with one, two, respectively. three knobs and corresponding grippers. Fig. 4 longitudinal and cross section of a building block in the form of a gripper sleeve open on both sides, and

fig. 5 side view and view from above, partly in section, of a building block with knobs on surfaces perpendicular to each other.

According to fig. 1, a building block consists of a cylindrical or sleeve-shaped clamping receiver or gripper 1, where a coaxial cam 2 is placed. The inner diameter d of the gripper 1 has the same nominal size as the outer diameter D of the cam 2, where such tolerances must be ensured during manufacture that on the on the one hand, the knob 2 on one building block can be pressed into the sleeve-shaped gripper 1 in another stick building block without great effort, while on the other side it must be possible to get a connection with good adhesion between both.

A good attachment for the cam 2 in the sleeve-shaped gripper 1 is supported by the use of soft plastic by the cam being made with a relatively large step height h. In the example shown, the step height h corresponds to approximately one third of the gripper height H. This ensures a large installation respectively contact surface between gripper 1 and cam 2 for joined building blocks.

As shown, the end surfaces 3 of the cam 2 run conically together at an angle of approximately 45°, concentrically in the middle of the end surface 3 is arranged a circular cylindrical opening 4, the wall 5 of which essentially runs parallel to the building block axis. Because of this opening 4, the building block can be combined with a rod 6' which can serve as a bracing element for larger structures or as an axle element for rotatable and pivotable structures. The transverse dimensions of the opening 4 and the rod 6' are matched in relation to each other so that the clamping between both is achieved, and the clamping due to the conicity of the end surface 3 is greater or smaller, depending on which side the rod 6' is pushed into the opening 4.

The described building block is preferably of such a size that playing children can indeed take it in their mouths, but not swallow it. The size is also appropriately chosen so that sensible constructions can be built up with few parts and that the building blocks are not easily lost even when playing outdoors. The gripper height H, which is suitably equal to the outer diameter of the gripper, so that building blocks with vertically arranged knobs can also be obtained, is preferably between 18 and 20 mm. As a wall thickness, 1.5 mm has proven beneficial. Thus, the inner diameter d of the gripper 1 and the outer diameter D of the cam 2 are approximately 15 to 17 mm. The step height h of the cam 2 preferably corresponds to 6 to 7 mm. The inner diameter of the opening 4 or the outer diameter of the rod is approximately 6 mm.

According to fig. 2 and 3, multi-element building blocks are formed simply by placing single-element building blocks in a row according to fig. 1. Due to the rigidity and for optical reasons, however, the gripper 1 is connected to adjacent building block elements with additional side wall steps 7 and cover wall steps 8. Thus the smooth side walls of the multi-element building blocks are maintained, while the sleeve-shaped grippers in the corner areas form roundings 9. The gripper wall, which runs within the building block, the multi-element building block provides good stiffness.

As the drawing shows, the bracing walls have 6 inside

the area of the building blocks a smaller wall thickness than the gripper wall in the area of the rounding 9 and than the side walls 7. Due to this smaller wall thickness in the bracing wall 6, a space S is formed between these also in the area where they are located

closest. This space S is, as shown, approximately equal to the wall thickness of the gripper 1 in the area of the rounding 9 and the side wall 7. From this it appears that because the mean distance e between the lugs is equal to the outer diameter H<*> of the gripper, the thickness to the bracing wall 6 approximately half as large as the wall thickness of the rounding 9 and the side walls 7.

In order to save material and because it is permitted in terms of strength, the knob 2 and the cover wall 8 of the building block are likewise made with a smaller wall thickness than the rounding and the side walls 7 are appropriate with approximately the same wall thickness as the bracing wall 6.

Building blocks with three or more elements are formed in a similar way.

As stated, the cam distance e is equal to the outer diameter H' of the sleeve-shaped gripper 1. When several building blocks are joined together, the building blocks with their surfaces lie close to each other, through which a further anchoring is achieved between the individual building blocks. Due to the inevitable tolerances in the cam spacing, the better adhesion between the building blocks is achieved, the more elements these have. So that the force applied when joining and taking apart the multi-element building blocks does not become too great, the cam spacing must be kept within a correspondingly narrow tolerance. The one, two, respectively. the three-element building blocks shown in fig. 1,2 and 3 are usually sufficient as basic building blocks to carry out numerous constructions. It is clear that many further building block variants are possible. For example, rectangular, square or hexagonal stones or even slab stones can be produced. Angled or L-shaped building blocks are also possible. As mentioned above, on a building block, knobs can also be formed on gripping surfaces that are perpendicular to each other to enable building in directions perpendicular to each other. It is also possible to use reversible building blocks where knobs are arranged on the building block sides above or where a knob is arranged together with a gripper on one of the building block sides.

A particularly simple such stone is a building block with another

open gripper sleeve on both sides with dimensions like a normal building block, as with normal building blocks, sleeve blocks containing multiple elements are also possible. Such a multi-element casing stone is shown in fig. 4. By double-sided insertion of normal building blocks into a sleeve block, a reversal of the building direction is achieved. For unobstructed two-sided insertion, it is necessary that the total height of the knob on a building block is equal to or less than half the height H of the gripper.

It is also possible with end stones to end a construction where the end stone has a smooth cover wall instead of the knob. Other end building blocks are those with partly sharp and partly rounded edges.

A building block with knobs on mutually perpendicular surfaces is shown in fig. 5. On the sleeve-shaped gripper 1 on an element-containing building block according to fig. 1, one, two or three, or as shown four knobs 2' are formed vertically on the building stone scissors 10, but for manufacturing reasons without end surfaces. So that building blocks stuck on these knobs 2', as shown dashed in fig. 5, must lie evenly against the clamping sleeve 1, this can advantageously be equipped with a ring attachment (not shown) with smooth contact surfaces. Concentrically within the knob 2', smaller insertion sleeves are designed on the clamping sleeve 1 for the insertion and insertion of rods 6'.

Claims (9)

1. Pluggable box-shaped building block set, i.e. relatively thin-walled plastic elements of such a size that they cannot be swallowed by playing children, with one, two or more knobs (2) which are designed in the cover wall (8) on the upper side of each building block, and a corresponding number of grippers (1) for the knobs, on the underside, as well as with an outer wall that is closed and encloses the building block's side surfaces and end surfaces smoothly with rounded corners (9), which building block set includes building blocks with both one and two or more elements, as the building block with one element has a cylindrical outer wall, where the the cylindrical knob (2) is concentrically arranged, characterized by the fact that in the case of two- and multi-element building blocks, grippers (1) are formed by sleeve-shaped wall parts, which in the area of the building block's outer sides merge into the outer wall and also form the rounded corners and which in the interior of the building block forms stiffening walls (6), as the building block material is a soft plastic with good adhesion, which is dimensionally stable and resistant to wear. 2. Building block set in accordance with claim 1, characterized in that the building block material is high-pressure polyethylene (PE-soft). 3. Building block set in accordance with claim 2, characterized in that the sleeve-shaped wall parts on the gripper (1) in the interior of the building block are made with a reduced wall thickness in relation to the wall thickness on the outside of the building block, thus leaving a space (5) between the grippers (1) , also where the distance is smallest. 4. Building block set in accordance with claim 3, characterized in that the knobs (2) and the cover wall (8) are made with a smaller wall thickness than the wall thickness in the rounded building block edges (9). 5. Building block set in accordance with one of claims 1 to 4, characterized in that the knob (2) has a conical converging end surface (3) where a circular opening (4) is arranged concentrically. 6. Building block set in accordance with claim 5, grade i-sert at rods (6') for clamping insertion into the openings (4). 7. Building block set according to one of claims 1 to 6, characterized in that the knob (2) has a total height equal to or slightly less than half the height (H) of the sleeve-shaped gripper (1) and that the outer diameter (H') of the gripper is equal to its height H. 8. Building block set in accordance with one of claims 1 to 3, characterized by a building block in the form of one or more double-sided open gripper sleeves placed in a row one after the other. 9. Building block set in accordance with one of claims 1 to 3, characterized by a building block with knobs and/or grippers on building block sides that stand at right angles to each other.