RU2468848C1 - Toy construction set element (versions) - Google Patents

Abstract

FIELD: games.

SUBSTANCE: invention relates to elements of a construction set, which may be used both in toy construction sets and in brain twisters. An element of a construction set comprises a base, at least on one side of which there is at least one connection unit formed by cantilever plates arranged at the sides of the square, the side length of which equals "a", besides, each connection unit additionally includes cantilever plates with height of "a/2" and length of not more than "a/2", arranged from the tops of the square along cantilever plates, height of which is more than "a/2".

EFFECT: in the proposed invention, functional capabilities of a construction set element are expanded due to increased number of their connection versions.

8 cl, 38 dwg

Description

The invention relates to designer elements that can be used both in children's building kits and in puzzles.

One of the well-known analogues is the LEGO constructor element, which contains a base made, as a rule, in the form of a parallelepiped with one or more connecting nodes (patent RU 2150985 from 06/20/2000).

The disadvantages of the known element of the designer include its low functionality, since its design provides only one possible option for connecting the same type of designer elements.

The objective of the claimed invention is to create a design element that provides many options for connecting the same elements.

The technical result consists in expanding the functionality of the designer element by increasing the options for connecting the claimed element with the same type of designer elements.

The technical result according to the first embodiment of the designer element is achieved by the fact that the designer element contains a base, at least on one side of which there is a connecting node formed by cantilever plates located on the sides of the square, the side length of which is equal to "a", each connecting node additionally contains cantilever plates with a height of “a / 2” and a length of not more than “a / 2”, located from the vertices of the square along the cantilever plates whose height is more than “a / 2”.

The technical result of the first embodiment of the designer element is also achieved by the fact that at least a part of the cantilever plates is made in one piece with the cantilever plates.

The technical result according to the second embodiment of the designer element is achieved by the fact that the designer element contains a base, at least on one side of which there are two connecting nodes, each of which is formed by cantilever plates located on the sides of the square, the length of which is equal to "a", and the distance between the centers of adjacent squares is equal to or a multiple of "2a", and each connecting node additionally contains cantilever plates with a height of "a / 2" and a length of not more than "a / 2", located from the vertices of the square along the cantilever plates, the height of which is more than "a / 2".

The technical result of the second embodiment of the designer element is also achieved by the fact that at least a part of the cantilever plates is made in one piece with the cantilever plates.

The technical result according to the third embodiment of the designer element is achieved by the fact that the designer element contains a base, at least on one side of which at least one row there are three connecting nodes, each of which is formed by cantilever plates located on the sides of the square, the length of which side equal to "a", and the distance between the centers of adjacent squares in a row is equal to or a multiple of "2a", and each connecting node additionally contains cantilever plates with a height of "a / 2" and for another no more than “a / 2”, located from the vertices of the square along the cantilever plates, the height of which is more than “a / 2”.

The technical result of the third embodiment of the designer element is also achieved by the fact that at least a part of the cantilever plates is made in one piece with the cantilever plates.

The technical result according to the fourth embodiment of the designer element is achieved by the fact that the designer element contains a base, at least one connecting node is located on at least one side of at least one row, each of the connecting nodes is formed by cantilever plates located along sides of a square whose side length is “a”, and the distance between the centers of adjacent squares in the same row and between the centers of neighboring squares in adjacent rows is equal to or a multiple of "2A", and each connecting node additionally contains cantilever plates with a height of "a / 2" and a length of not more than "a / 2", located from the vertices of the square along the cantilever plates, the height of which is more than "a / 2".

The technical result of the fourth embodiment of the designer element is also achieved by the fact that at least a part of the cantilever plates is made in one piece with the cantilever plates.

The invention is illustrated by drawings.

Figure 1 shows a design element according to the first embodiment with connecting nodes on both sides of the base, side view;

Figure 2 shows a design element according to the first embodiment with connecting nodes on both sides of the base, top view;

Figure 3 shows a design element according to the first embodiment with connecting nodes on both sides of the base, isometry;

Figure 4 shows a design element according to the first embodiment with a connecting node on one side of the base, isometric view from above;

Figure 5 shows a design element according to the first embodiment with a connecting node on one side of the base, isometric view from below;

Figure 6 shows a structural element according to the second embodiment with connecting nodes on both sides of the base, side view;

Figure 7 shows a design element according to the second embodiment with connecting nodes on both sides of the base, top view;

On Fig shows a design element according to the second embodiment with connecting nodes on both sides of the base, isometry;

Figure 9 shows the design element according to the second embodiment with connecting nodes on both sides of the base, and part of the cantilever plates made in one piece with the cantilever plates, isometry;

Figure 10 shows the design element according to the second embodiment with connecting nodes on both sides of the base, with a distance between the centers of the connecting nodes equal to "6a", isometry;

Figure 11 shows a structural element according to the third embodiment with connecting nodes on both sides of the base, side view;

On Fig shows a structural element according to the third embodiment with connecting nodes on both sides of the base, top view;

On Fig shows an element of the designer according to the third embodiment with connecting nodes on both sides of the base, isometry;

On Fig shows a design element according to the fourth embodiment with connecting nodes on both sides of the base, top view;

On Fig shows a design element according to the fourth embodiment with connecting nodes on both sides of the base, isometry;

On Fig shows a design element according to the fourth embodiment with connecting nodes on both sides of the base, with a distance between the centers of the connecting nodes equal to "4A", isometry;

On Fig shows a design element according to the fourth embodiment with connecting nodes on both sides of the base, and the upper connecting nodes are rotated relative to the lower by 45 degrees, isometry;

On Fig shows a design element according to the first embodiment with connecting nodes on two sides of the base, and the plane on which the connecting nodes are located at an angle of 45 degrees to each other, isometry;

In Fig.19 shows a design element according to the fourth embodiment with six connecting nodes on one side of the base, isometry;

In Fig.20 shows a design element according to the fourth embodiment with six incomplete connecting nodes on one side of the base, and only half of the side connecting nodes and a quarter of the corner connecting nodes are located on the base, isometry;

On Fig shows a connection diagram of a designer element in the second embodiment with connecting nodes on both sides of the base and a designer element in the fourth embodiment with six incomplete connecting nodes on one side of the base, with only half of the side connecting nodes and quarter of the corner connecting nodes, isometry;

On Fig depicted interconnected structural element of the second embodiment with connecting nodes on both sides of the base and the structural element of the fourth embodiment with six incomplete connecting nodes on one side of the base, with only half of the side connecting nodes and a quarter of corner connecting nodes, isometry;

On Fig shows a connection diagram of a designer element in the first embodiment with connecting nodes on both sides of the base and a designer element in the fourth embodiment with four connecting nodes on two sides of the base, isometry;

On Fig shows the connection of the designer element in the first embodiment with connecting nodes on both sides of the base and the designer element in the fourth embodiment with four connecting nodes on both sides of the base, isometry;

On Fig shows a connection diagram of a designer element in the fourth embodiment with four connecting nodes on two sides of the base with structural elements connected to each other, namely: a designer element in the first embodiment with connecting nodes on both sides of the base and the designer element in the fourth an embodiment with four connecting nodes on both sides of the base, isometry;

Fig. 26 shows the connection of three designer elements: a designer element according to the fourth embodiment with four connecting nodes on both sides of the base (2 pieces) and a designer element according to the first embodiment with connecting nodes on both sides of the base, isometry;

On Fig shows a connection diagram of a designer element in the fourth embodiment with six connecting nodes on two sides of the base with structural elements connected to each other, namely: a designer element in the first embodiment with connecting nodes on both sides of the base and two designer elements in the fourth embodiment with four connecting nodes on both sides of the base, isometry;

On Fig shows the connection of four designer elements: the designer element in the fourth embodiment with four connecting nodes on both sides of the base (2 pieces), the designer element in the fourth embodiment with six connecting nodes on both sides of the base and the designer element in the first embodiment with connecting nodes on both sides of the base, isometry;

In Fig.29 shows the first embodiment of the connection (of the type "side-side" or "plane-plane") of the design element of the fourth embodiment with four connecting nodes on both sides of the base and the design element of the fourth embodiment with six connecting nodes on both sides bases, isometry;

On Fig shows the first embodiment of the connection (of the type "side-side" or "plane-plane") of the structural element of the fourth embodiment with four connecting nodes on both sides of the base and the structural element of the fourth embodiment with six connecting nodes on both sides bases, isometry;

On Fig shows a second connection option (type "end-plane" or "end-side") of the design element of the fourth embodiment with four connecting nodes on both sides of the base and the design element of the fourth embodiment with six connecting nodes on both sides bases, isometry;

On Fig depicts a second variant of the connection (type "end-plane" or "end-side") of the designer element according to the fourth embodiment with four connecting nodes on both sides of the base and the designer element in the fourth embodiment with six connecting nodes on both sides bases, isometry;

On Fig depicts a third variant of the connection (type "end-to-end") of the designer element according to the fourth embodiment with four connecting nodes on both sides of the base and the designer element in the fourth embodiment with six connecting nodes on both sides of the base, isometry;

On Fig depicts a third variant of the connection (type "end-to-end") of the designer element according to the fourth embodiment with four connecting nodes on both sides of the base and the designer element in the fourth embodiment with six connecting nodes on both sides of the base, isometry;

On Fig shows a connection diagram of a designer element in the fourth embodiment with four connecting nodes on one side of the base and a designer element in the fourth embodiment with nine connecting nodes on both sides of the base, isometric;

On Fig shows the connection of the designer element in the fourth embodiment with four connecting nodes on one side of the base and the designer element in the fourth embodiment with nine connecting nodes on both sides of the base, isometric;

On Fig shows a bench assembled from the elements of the designer, isometric view from above;

On Fig shows a bench assembled from the elements of the designer, isometric view from below.

We will describe in detail the connecting unit using the example of a designer element, according to the first embodiment, see Figs. 1-3, which show a side view, a top view and an isometric view, respectively.

The designer element comprises a base 1, at least on one side of which a connecting unit 2 is located or made integrally with the base 1. The connecting unit 2 is formed by cantilever plates 3 located on the sides of the square. The length of the side of the square is “a”. Each connecting node 2 additionally contains cantilever plates 4 with a height of "a / 2" and a length of not more than "a / 2". The cantilever plates 4 are located from the vertices of the square along the cantilever plates 3. The height of the cantilever plates 3 is more than “a / 2”. At the same time, at least part of the cantilever plates 4 can be made integrally with the cantilever plates 3.

The base may be a plate of various thicknesses and may contain various holes and voids to save material in the manufacture of a design element, for example, by casting, pressing or stamping.

The connecting nodes 2 can be and only on one side of the base 1. This element allows you to create a flat surface on which during the game you can put various game elements, for example, soldiers. Figures 4 and 5 show such a designer element, according to the first embodiment, with a connecting unit 2 only on one side of the base 1. Figures 33 and 34 show the connection of such an element with a designer element having connecting nodes on each side.

To connect a large part, several connecting nodes are enough, so sometimes it is not necessary to arrange the nodes only so that the distance between their centers is exactly “2a”. The main thing is that the distance between the centers of the connecting nodes should be a multiple of “2a”, since the nodes for connecting to the nodes of other elements of the designer must be arranged strictly at such a frequency that it is possible to connect this element with other elements of the designer. Figure 10 shows a design element according to the second embodiment, where four connecting nodes could fit on the base on each side, but only two nodes are located at the ends of the base so that the distance between their centers is “6a”. The figure 16 shows a design element according to the fourth embodiment, where nine connecting nodes could fit on the base on each side, but only four connecting nodes are located, so that the distance between their centers is “4a”.

Connecting nodes on one side of the base can be oriented at an angle with respect to nodes located on the other side of the base. The figure 17 shows a design element according to the fourth embodiment with four connecting nodes on each side of the base, and the connecting nodes on one side are rotated at 45 degrees relative to the connecting nodes on the other side of the base.

The base can be arranged in such a way as to orient in space the connecting nodes on it, located at different angles and at different levels. The figure 18 shows a design element according to the first embodiment, in which the planes on which the cantilever plates 3 of the connecting nodes 2 are located are located at an angle of 45 degrees. In this element, the base 1 is part of a hollow cylinder.

When connecting designer elements, the cantilever plates of the connection node of one designer element come into contact with the cantilever plates of the connecting nodes of the other element, while the connection is an interference fit, that is, for the cantilever plates of one connecting node to fit between the cantilever plates of the other connecting nodes, they must bend, and the resulting elastic force creates a friction force between the plates and the plates, which holds the designer elements fastened to each other th. In this case, connections are possible when the flat surfaces of the cantilever plates and plates are in contact with each other, and the ends of the cantilever plates are in contact with the flat surfaces of the cantilever plates or plates. Therefore, cantilever plates and plates are made of elastic materials. The thickness of the cantilever plates and plates can be different and is determined by their necessary strength, elasticity and material saving in the manufacture of the designer element. Cantilever plates and plates may have chamfers and slopes of the side surfaces for more convenient positioning of the structural elements when connected to each other, as well as for better connection with each other. Also, cantilever plates and plates can have various convexities, which can act as latches when connecting the connecting nodes to each other.

Part of the cantilever plates and plates can be combined into one, or, conversely, one cantilever plate or plate can be divided into several parts, which reduces its elasticity and saves material in production. In figures 8 and 9 shows the elements of the designer according to the second embodiment, where in figure 9 the element of the designer part of the cantilever plates 3 and plates 4 are made in one piece (as a whole).

When connecting designer elements to each other, the connecting nodes of one element enter between the connecting nodes of another element. Therefore, a designer element is possible in which on one side of the base the connecting nodes are not completely located, but only their parts, and in such a way as to hold the connecting nodes of the other element when connecting.

Below is an example of such an element and an explanation of how it is obtained. On the basis of the design element, the connecting nodes may not be completely located, but parts of the connecting nodes. The figure 19 shows the design element according to the fourth embodiment with six connecting nodes on one side of the base, arranged in two rows. The figure 20 presents a design element obtained from the element from figure 19 by removing half from each connecting node on the sides of the element, and three quarters are removed from the corner connecting nodes. 21 and 22 show the connection of such an element with a structural element according to the second embodiment.

The use of designer elements is to connect them to each other to build structures for the game. The elements are connected to each other using cantilever plates and plates. When connecting designer elements to each other, cantilever plates and plates of connecting nodes of one element come into contact with cantilever plates and plates of other elements. When the cantilever plates and plates contact, the gaps between them have a negative value, therefore, when the cantilever contacts, the cantilever plates and plates are elastically deflected, which creates an elastic force pressing them against each other, which in turn creates a friction force between the cantilever plates and plates. It is this friction force between cantilever plates and plates of different elements of the designer that keeps them in a connected state.

Consider the connection of the designer element with four connecting nodes on each side of the base and the designer element with one node on each side of the base (Fig.23, 24). With this connection, the cantilever plates 3 of the connecting node of the second element are between the cantilever plates 4 of the connecting nodes of the first element. The gaps between the plates and the plates are negative, therefore, the elements are held in a fixed state by friction, as described above. In this case, the cantilever plates 4 of the first element enter into the same elastic contact with the cantilever plates 3 of the second element. When connecting, the second element of the designer enters the first until the cantilever plates 4 of both elements abut against each other with their ends (the place of such contact is indicated by the number 5). The cantilever plates 4 have a height equal to "a / 2", thus achieving a clear positioning of the connecting nodes of one element relative to another. The center of the base of the connecting node of the second element is offset from the center of the base of the nearest node of the first element strictly by a distance “a” along the X axis, a distance “a” along the Y axis and a distance “a” along the Z axis.

We attach on top of the second element the third element of the constructor with four connecting nodes on each side of the base (Fig.25, 26). Similarly, the centers of the bases of the connecting nodes of the third element will stand at a distance equal to "a" on each axis X, Y, Z from the center of the connecting node of the second element. It turns out that the connecting nodes of the third element are located strictly above the connecting elements of the first element at a distance of "2A" between their centers. This arrangement allows you to attach the next element of the designer immediately to the first and third element. On Fig and 28 shows how to the first and third element is attached to the element with six connecting nodes on each side of the base.

A feature of the designer elements according to the claimed invention is that the designer elements can be interconnected in three different planes.

In figures 29 and 30 shows the connection of two designer elements made according to the fourth embodiment with 4 and 6 nodes on each side of the base. Such a connection can be called "plane-plane." With this connection, the cantilever plates of the connecting nodes of one element of the designer are between the cantilever plates of another element of the designer. In this connection, the base planes of the designer elements are parallel, hence the name of the connection - “plane-plane”.

In figures 31 and 32 shows the connection of the same elements, but in a different way - "end-plane". With this connection, the cantilever plates of the connecting nodes of the designer element enter between the cantilever plates of the other designer element, and the cantilever plates of the connecting nodes of one designer element enter between the cantilever plates of the other designer element. With this connection, the base plane of one designer element abuts against the base plane of the other designer element, hence the name of the connection - “end-plane”.

In figures 33 and 34 shows the connection of the same elements by the method of "end-to-end". With this connection, part of the cantilever plates of the connecting nodes of one designer element covers part of the cantilever plates of the other designer element so that the cantilever plates of the second element abut against the plane of the plates of the first designer element, and vice versa, part of the cantilever plates of the connecting nodes of the second designer element cover part of the console plates the first element of the designer so that the cantilever plates of the first element abut their ends against the plane plates of the second element of the designer. With such a connection, the plane of the base of one element of the designer abuts against the end face of the base of the other element of the designer, and these planes are perpendicular, hence the name of the connection - "end-to-end".

It should be noted that for all these three types of connection, the center of the base of the connecting node of one element is shifted relative to the center of the base of the nearest node of the other element strictly by a distance “a” along the X axis, distance “a” along the Y axis and distance “a” along the Z axis.

Figures 35 and 36 show the connection of two designer elements with nine connecting nodes on each side of the base and a designer element with four connecting nodes on one side of the base.

On Fig and 38 shows the assembled from the elements of the designer bench. It is assembled from the following elements:

- an element of the designer according to the fourth embodiment with 27 connecting nodes on each side of the base, arranged in three rows, - a bench seat;

- a designer element according to the fourth embodiment with 18 connecting nodes on the lower side of the base, arranged in three rows, a flat cover of the bench seat;

- two constructor elements, according to the third embodiment with five connecting nodes on each side of the base — the front legs of the bench;

- two structural elements according to the third embodiment with seven connecting nodes on each side of the base — the back legs of the bench;

- two designer elements according to the fourth embodiment with eight elements on one side and two elements on the other side of the base, and these elements are truncated so that only half are left of the connecting nodes, and only a quarter of the corner connecting nodes are the armrests of the bench;

- an element of the designer according to the fourth embodiment with 18 connecting nodes on one side of the base, arranged in two rows, - the back of the bench.

The claimed variants of the designer element allow you to collect complex three-dimensional spatial structures.

Claims (8)

1. A designer element containing a base, at least on one side of which there is a connecting node formed by cantilever plates located on the sides of the square, the side length of which is equal to "a", each connecting node additionally contains cantilever plates with a height of "a / 2" and a length of no more than “a / 2”, located from the vertices of the square along the cantilever plates, the height of which is more than “a / 2”. 2. The designer element according to claim 1, characterized in that at least a portion of the cantilever plates is made integral with the cantilever plates. 3. A designer element containing a base, at least on one side of which with a gap relative to each other are two connecting nodes, each of which is formed by cantilever plates located on the sides of the square, the length of the side of which is equal to "a", and the distance between the centers of adjacent squares is equal to or a multiple of “2a”, with each connecting node additionally containing cantilever plates with a height of “a / 2” and a length of not more than “a / 2”, located from the vertices of the square along the cantilever plates, the height of which more "a / 2". 4. The designer element according to claim 3, characterized in that at least a part of the cantilever plates is made in one piece with the cantilever plates. 5. A designer element containing a base, at least on one side of which at least one row with a gap relative to each other are three connecting nodes, each of which is formed by cantilever plates located on the sides of the square, the length of which is equal to "a" , and the distance between the centers of adjacent squares in a row is equal to or a multiple of “2a”, each connecting node additionally containing cantilever plates with a height of “a / 2” and a length of no more than “a / 2”, located from the vertices of the square along to nsolnyh plates, the height of which more than "a / 2". 6. The design element according to claim 5, characterized in that at least a portion of the cantilever plates is made in one piece with the cantilever plates. 7. A designer element comprising a base, at least on one side of which at least four connecting nodes are located at least in one row with a gap relative to each other, each of the connecting nodes is formed by cantilever plates located on the sides of the square, length the sides of which are “a”, and the distance between the centers of adjacent squares in the same row and between the centers of neighboring squares in adjacent rows is equal to or a multiple of “2a”, each connecting node additionally containing t cantilever plates of height “a / 2” and a length of not more than “a / 2”, located from the vertices of the square along the cantilever plates, the height of which is more than “a / 2”. 8. The design element according to claim 7, characterized in that at least a portion of the cantilever plates is made integral with the cantilever plates.

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