RU2675660C1 - Unit of separate moving elements of a mechanical model, which are capable of moving around one axis, and a method of connecting the details of separate moving details elements of a unit of the mechanical model, which are capable of moving around one axis - Google Patents

Abstract

FIELD: satisfaction of human vital requirements.

SUBSTANCE: invention relates to play and souvenir sets production. Unit of separate moving elements of a mechanical model that are capable of moving around one axis contains interconnected axis, separate moving elements and details of such separate moving elements. Novelty is that the unit contains the first and second group of parts. First group of parts contains at least two parts, each of which contains a central hole for inserting an axis into it. Each of the parts of the first group contains at least two rectangular connecting holes located symmetrically with respect to the central hole on each of the parts of the first group. Second group of parts contains parts that are pairwise symmetrical and each of which contains protrusions on opposite edges, and a central protrusion in the central part. First and second groups of parts are interconnected by means of parts of the second group, which are previously grouped and form a central axial gap between the central projections of these parts of the second group. Protrusions located on one side at the edges of the parts of the second group are installed in the rectangular connecting holes of one of the parts of the first group; the other protrusions on the other side at the edges of the parts of the second group are installed in the rectangular connecting holes of another part of the first group, and the axis is inserted into the central hole of one of the parts of the first group and into the central axial clearance between the central projections of the parts of the second group, as well as into the central hole of the other part of the first group. Method of connecting parts of separate movable elements of the proposed unit provides for the connection of parts by installing one part in the connecting holes of other parts, further fastening all the parts into a single unit. Novelty is that the connecting actions are carried out using an axis and two groups of parts, wherein the connection of the first group of parts and the second group of parts is carried out by inserting protrusions located on opposite edges of the parts of the second group into the rectangular connecting holes of one of the parts of the first group, as well as the insertion of protrusions located on the other – opposite edges of the details of the second group, into the rectangular connecting holes of another separate part of the first group, and between the central protrusions of the individual parts of the second group a central axial gap is formed, after which the axis is inserted into the central hole of one of the parts of the first group, as well as into the central axial gap formed between the central protrusions of the second group of parts, and into the central hole of another separate part of the first group. Axis splits the details of the second group in all directions perpendicular to the axis with simultaneous bonding of the axis and all the details of the first and second groups into a single unit.

EFFECT: invention allows more convenient and quick installation of the unit and at the same time rigidly fastening the entire unit without using glue or other additional fasteners and/or substances.

10 cl, 11 dwg

Description

Technical field

The invention relates to the production of game and souvenir sets, namely, to a unified creative idea: a device - a unit of separate moving elements of a mechanical model that can move around one axis, and to a method of connecting parts of individual moving elements of such a node of a mechanical model. The invention can be used as part of game and souvenir sets, designers, models of which are obtained by connecting, assembling and mounting individual elements, which can be made of sheet material and connecting elements. Such models can be volumetric models with moving elements, mechanical 3D - puzzles and other designs.

State of the art

Known technical solution "Game designer" Marco ", which includes a node of separate movable elements of a mechanical model that can move around one axis, containing the axis and parts of individual movable elements that are interconnected (Declaration patent of Ukraine for invention No. 65775 A, m class A63N 33/04, published on April 15, 2004, bull. No. 4) [1]. This technical solution is intended to simplify the manufacture of the elements of the designer kit and reduce the manufacturing cost, but the design features of the nodes of this utility model do not provide an opportunity to more conveniently and quickly mount the assembly, it is sufficient to fasten the entire assembly rigidly without using glue or other additional fasteners and / or substances.

The invention is known as “Product from a toy constructor”, which includes a unit of separate movable elements of a mechanical model that can move around one axis, containing the axis and parts of individual movable elements that are interconnected (Patent of the Russian Federation for invention No. 2118195, m. A63H 33/08, publ. 08/27/1998) [2]. This invention allows you to design complex gear mechanisms and achieve a variety of speeds and mechanical effects, but this technical solution does not provide the ability to more conveniently and quickly mount the unit and does not provide the ability to rigidly fasten the entire assembly without using glue or other additional fasteners and / or substances.

Closest to the proposed invention is a node in the design of "3D (three-dimensional) puzzle blocks for assembling a model of a horse for children." Such a unit contains separate movable elements of a mechanical model capable of moving around one axis, it also contains interconnected axis and parts of individual movable elements (Application of the People's Republic of China No. 20100583761.1 of 12.12.2010, class A63N 33/12, publication No. 102553263 dated July 11, 2012) [3]. Such a technical solution is intended for the possibility of tight connection (installation) of various individual parts into nodes and into the whole structure for training and development of coordination of children, but this invention, the design decisions of the elements of its nodes do not allow for more convenient and quick installation of the node and do not allow it quite rigidly fasten the entire assembly without glue or other additional fasteners and / or substances.

A known method of connecting parts of individual movable elements of a mechanical model assembly, which is described in the invention of the "Game Designer" Marco ", provides for the connection between these parts by installing one part in the connecting holes of the other parts and further connecting all the parts into a single node of the mechanical model (Declaration patent Of Ukraine for invention No. 65775 A, class C. А63Н 33/04, published on April 15, 2004, bull. No. 4) [1]. This method of connection is used for structural cross-shaped elements (crossbars) with connecting cross-shaped elements, and this way they achieve the creation of a reliable system for communicating type-setting elements of the designer, but this method does not allow more convenient and quick installation of a unit of individual moving elements of a mechanical model that can move around one axis, and at the same time it is enough to firmly fasten the entire assembly without using glue or other additional fasteners and / or substances.

способ не позволяет более удобно и быстро осуществить монтаж узла отдельных подвижных элементов механической модели, способных двигаться вокруг одной оси, и при этом достаточно жестко скрепить весь узел без использования клея или других дополнительных крепежных деталей и/или веществ.A known method of connecting parts of the individual elements of the node of the mechanical model, which is described in the invention "Product from a toy constructor", providing for the connection of these parts and the further installation of all parts in a single node of the mechanical model (Patent of the Russian Federation for the invention No. 2118195, class A63N 33 / 08 publ. 08/27/1998) [2]. This method of connecting parts is carried out due to the operations of hooking, pinching, introducing one part into another, as well as using clamping levers of other elements, and

the method does not allow for more convenient and quick installation of the assembly of individual movable elements of a mechanical model capable of moving around one axis, and it is sufficient to firmly fasten the entire assembly without the use of glue or other additional fasteners and / or substances.

Closest to the proposed method for connecting parts is the method described in the invention of “3D (three-dimensional) puzzle blocks for assembling a model of a horse for children”, which involves connecting parts by installing one part in the connecting holes of other parts and further connecting all the parts into a single mechanical model unit (Application of the People's Republic of China No. 20100583761.1 dated 12.12.2010, class A63N 33/12, publication No. 102553263 dated July 11, 2012) [3]. This method of connecting parts of individual movable elements of a mechanical model assembly, which are capable of moving around one axis, involves connecting parts to each other by installing one part in the connecting holes of other parts and further bonding all the parts to a single mechanical model assembly. However, the implementation of such a connection of some parts with other parts using the connecting holes of these parts through the connecting rods, which provide the structural elements with the possibility of movement, does not allow more convenient and quick installation of the assembly and it is rather rigid to fasten the entire assembly without the use of glue or other additional fasteners and / or substances.

Disclosure of invention

The basis of the invention is the task of creating a node of separate movable elements of a mechanical model that can move around one axis, the design of which would be due to new features, namely due to the presence of new elements, their shape and their relative position and fastening, would allow more convenient and quickly complete the assembly of the assembly and at the same time it is enough to firmly fasten the entire assembly without the use of glue or other additional fasteners and / or substances.

The basis of the invention is also the task of creating such a method of connecting parts of individual movable elements of a mechanical model assembly, which are capable of moving around one axis, which would be due to new technological steps, their sequence, operations to ensure and implement a certain relationship between the assembly parts, including due to the wedging process, it would allow more convenient and quick installation of the unit and at the same time it is enough to firmly fasten the entire unit without using glue or other additional fasteners and / or substances.

The problem is solved in that the node of the individual movable elements of the mechanical model, which are able to move around one axis, contains interconnected axis, separate movable elements and parts of such separate movable elements. What is new is that the assembly contains a first group of parts and a second group of parts, while the first group of parts contains at least two separate parts, and each of these individual parts of the first group contains a central hole for inserting an axis into it. In addition, each of at least two separate parts of the first group contains at least two rectangular connecting holes that are located symmetrically with respect to the central hole on each of the individual parts of the first group. The second group of parts contains no less than two separate parts that are made pairwise symmetrical, and each of these separate parts of the second group contains protrusions on opposite edges. In addition, each of these separate parts of the second group contains at least one central protrusion in the central part. In this case, the first group of parts and the second group of parts are interconnected using separate parts of the second group, which are pre-grouped and form a central axial clearance between the central protrusions of these individual parts of the second group. When connecting parts of the first and second groups, the protrusions located on one side along the edges of individual parts of the second group are installed in at least two rectangular connecting holes of one of the individual parts of the first group, and other protrusions that are located on the other side at the edges of the individual parts the second group are installed in at least two rectangular connecting holes of another separate part of the first group. The axis is inserted into the central hole of one of the individual parts of the first group and into the central axial clearance formed between the central protrusions of the individual parts of the second group, and also into the central hole of another separate component of the first group.

For some use cases, the proposed site is characterized by the following features, developing, clarifying the set of features of an independent item.

Each of the individual parts of the first group contains three rectangular connecting holes that are located symmetrically with respect to the central hole on each of the individual parts of the first group, and the second group of parts contains three separate parts, each of which contains protrusions along the edges, as well as each of these individual parts the second group contains in the central part at least one central protrusion.

Each of the individual parts of the first group contains four rectangular connecting holes that are located symmetrically with respect to the central hole on each of the individual parts of the first group, and the second group of parts contains four separate parts, each of which contains protrusions along the edges, as well as each of these individual parts the second group contains in the central part at least one central protrusion.

The axis has a circular cross section and is made pointed at both ends.

Details of the first group and the second group are made of material that has a higher material resistance than the material of which the axis is made.

At the ends of each of the individual parts of the second group, fixing projections are made.

On the protrusions of each of the individual parts of the second group, longitudinal slots are made, which are located along the axis line of the assembly.

The problem is also solved by the fact that the method of connecting parts of individual movable elements of a mechanical model assembly that are capable of moving around one axis involves connecting parts to each other by installing one part in the connecting holes of other parts and further bonding all the parts into a single unit of the mechanical model. What is new is that connecting actions are carried out using an axis and two groups of parts. The connection of the first group of parts and the second group of parts is carried out by inserting protrusions that are located on opposite edges of at least two separate parts of the second group into at least two rectangular connecting holes of one of the individual parts of the first group, and insert other protrusions that located on other opposite edges of not less than two separate parts of the second group, in not less than two rectangular connecting holes of another separate part of the first group. Moreover, between the Central protrusions of the individual parts of the second group form a Central axial clearance. After that, the axis is inserted into the central hole of one of the individual parts of the first group, as well as into the central axial clearance, which is formed between the central protrusions of the individual parts of the second group, and into the central hole of another separate component of the first group. The axis of the wedge details of the second group in all directions perpendicular to the axis with simultaneous fastening of the axis and all parts of the first and second groups in a single node.

For some use cases, the proposed site is characterized by the following developing, clarifying features.

When connecting all the parts of the assembly, they additionally strengthen and secure the fastening of the details of the first group and the details of the second group into a single assembly by engaging at the edges of at least two connecting holes of the parts of the first group with fixing tabs that are located at the ends of each of the individual parts of the second group.

Using longitudinal slots on the protrusions of each of the individual parts of the second group, the density of the connection of the individual parts of the second group with the individual parts of the first group is provided.

Inventive step

The design of the proposed assembly of individual movable elements of a mechanical model capable of moving around one axis, and the proposed method for connecting parts of this assembly are united by a single creative concept and allow achieving the set technical result: the proposed method of connecting parts of individual movable elements of the proposed assembly of a mechanical model can only be used together with the design of this assembly of individual movable elements of a mechanical model capable of moving around one axis, and, accordingly, such a node determines the implementation of the process of connecting its parts in accordance with the proposed method.

The combination of all the essential features of the proposed site, including its new essential features, allows to obtain a technical result, namely, it is more convenient and quick to install the site and at the same time firmly fasten the entire site without the use of glue or other additional fasteners and / or substances .

New features of the proposed site allow to achieve a technical result: due to the presence, shape and relative position of at least two separate parts 3, 4, 5 (for example 3, 4 or 3, 4, 5) of the first group 1 with central holes 6 for inserting an axis into them 7 and at least two separate parts 12, 13, 14, 15 (for example 12, 13 or 12, 13, 14, 15) of the second group 2, which are made pairwise-symmetric, when they are connected to each other and to the axis 7, made so so that when assembling and pre-providing grouping of at least two separate parts 12, 13, 14, 15 (for example 12, 13 or 12, 13, 14, 15) of the second group 2 between the central protrusions 18 of the parts of the second group 2, a central axial clearance 21 is formed, and as a result of connecting all the parts of the assembly, the axis 7 is freely and without resistance installed in the central holes 6 parts 3, 4 (for example 3, 4 or 3, 4, 5) of the first group of parts 1, and after assembly is complete, the axis 7 becomes sandwiched in the central axial clearance 21 formed between the central protrusions 18 of the parts of the second group 2.

The presence and shape of at least two rectangular connecting holes 8, 9, which are located symmetrically relative to the Central hole 6 on each of at least two separate parts 3, 4, 5 (for example 3, 4 or 3, 4, 5) of the first group 1 in combination with the presence and shape of the protrusions 16, 17, which are located at the edges of at least two separate parts 12, 13, 14, 15 (for example 12, 13 or 12, 13, 14, 15) of the second group 2, allow convenient and quick installation and fastening of parts of the first and second groups.

The location of the axis 7 in the center of the node is ensured by the mounted, fixed and "centered" individual parts 12, 13, 14, 15 of the second group of parts 2 in the rectangular connecting holes 8, 9 of the individual parts 3, 4, 5 of the first group of parts 1. Thus, the presence, shape, relative position of parts 3, 4, 5 of the first group 1, parts 12, 13, 14, 15 of the second group 2 and axis 7 allow for more convenient and quick installation of the assembly and at the same time it is enough to firmly fasten the entire assembly without using glue or other additional fasteners and / or substances.

In some cases, the construction of the proposed invention, the axis 7 is made circular in cross section and has exacerbations at both ends, and in such cases, after the final assembly of the assembly, axis 7 may not touch the central holes 6 of parts 3, 4, 5 of the first group of parts 1, and the axis 7 can only be fixed in the central axial clearance 21. Due to the fact that the axis 7 can have a circular cross-section, and the inner planes of the central protrusions 18 of the individual parts 12, 13, 14, 15 of the second group of parts 2 have a flat surface, the force When the axis 7 is inserted into the formed central axial clearance 21, it is minimal, which makes it possible to strengthen the achievement of the technical result — it is more convenient and quick to mount the assembly.

When assembling the unit, the centering of the axis 7 relative to the central holes 6 of the individual parts 3, 4, 5 of the first group of parts 1 provides at least two separate parts from parts 12, 13, 14, 15 (for example 12, 13 or 12, 13, 14, 15) the second group of parts 2, which are "independently" centered when connected, abutting against the edges of the rectangular connecting holes 8, 9, 10, and of individual parts 3, 4, 5 of the first group of parts 1. There are also at least two separate parts from the parts 12, 13, 14, 15 (e.g. 12, 13 or 12, 13, 14, 15) of the second group of parts 2, with equivalent wedging and axis 7 ensure that all central holes 6 of parts 3, 4, 5 of the first group of parts 1 are aligned with the central axial clearance 21, and the axis 7 itself provides alignment of these individual parts 12, 13, 14, 15 of the second group of parts 2 to a position parallel to each other , it also provides uniform wedging of parts 12, 13, 14, 15 of the second group 2 at opposite ends of the assembly.

It is unforeseen that the parts of the assembly in a pre-assembled, but not yet fixed state by axis 7, provide a uniformly centered corridor for axis 7 to install this axis 7, and axis 7, when inserted into holes 6 and into axial clearance 21, “aligns” the assembly in the assembly, centers the central holes 6 and the central axial clearance 21, and also fastens the entire assembled assembly structure, and the axis 7 only tangentially interacts with a small part of its surface with a small part of the surface of the central protrusions 18 ny details 12, 13, 14, 15 of the second group of parts 2 nodes. In this case, when the axis 7 is installed in the central axial clearance 21 of the assembly, the central protrusions 18 on the individual parts 12, 13, 14, 15 of the second group of parts 2 direct the movement of the axis 7 in two directions, allowing axis 7 to be easily “pulled” without special skills several central holes 6 of individual parts 3, 4, 5 of the first group of parts 1 at the same time, which ultimately allows to achieve a technical result - it is more convenient and quick to carry out the assembly of the assembly and rather rigidly fasten the entire assembly without using glue or other additional fasteners and / or substances.

It was also unpredictable that the minimum contact spot of the axis 7 with the central protrusions 18 on the individual parts 12, 13, 14, 15 of the second group of parts 2 and formed by the central protrusions 18 on the individual parts 12, 13, 14, 15 of the second group of parts 2 "axial corridor ”(axial space), namely, the central axial clearance 21 makes it easy to insert axis 7, despite possible irregularities in the surface of axis 7, roughness in the material of axis 7 and other parts of the assembly, micro-bulge on axis 7, and other components of the assembly, which enables more convenient and quick Tro to mount and fasten the assembly. Such an implementation is not possible in other known designs, where when the axis is mounted in a rather elongated unit, in which the central holes on several parts are combined, this axis must pass through all these holes, rubbing against them. In this case, it would have been necessary to produce an axis with a diameter of 5-10 mm, and then the accuracy of the diameters of the holes and the diameter of the axis should be unacceptably high in the mass production of such products, which would not allow to achieve the technical result.

In the proposed design of the assembly, all the details of the first group 1 and the details of the second group 2 can be cut out (made) of sheet material several millimeters thick or made in another way, in particular by molding or molding. But the most economically and ergonomically sound is the manufacture of parts of the unit from a sheet of wooden material with a thickness of several millimeters, for example from plywood. The use of other materials for the manufacture of assembly parts (for example, plastic) is quite expensive and complicates the further connection of these parts with their ability and ability to move around one axis.

In practice, in order to achieve "mobility" of the assembly parts around one axis, in most cases of using similar assemblies, it is necessary to produce cast parts, use metal axes, connect with bolts or glue, which leads to a complication of the structure, its cost increase, and also leads to a decrease structural elements to a minimum size - up to 2 mm (for example, bolts), which is not advisable and is not ergonomic for such products, and does not allow to achieve the technical result. In the proposed design of the assembly for the manufacture of parts, mainly the use of wooden sheet materials is provided, and in this case, the working diameter of the axis 7 can be up to 2 mm, since with an axis diameter of 3-4 mm the friction force at both ends of the axis 7 (when rotating the entire assembly about the frame of the overall design of the final product into which this assembly is included) would be so large that lubricants or bearings would have to be used. In the proposed design of the node, it is possible to use as an axis 7, for example, a conventional wooden toothpick or a similar element, which is made round in cross section and pointed at both ends. Thus, the thin axis 7 allows you to create a "cascade of gears" from the first group of parts 1 (for example, as shown in Fig. 7) and it is easy to rotate the entire system of such gears even with a multiple increase in the shoulder force.

New features of the proposed site in combination with well-known features, such as the presence, shape and relative position of the first group of parts 1 and the second group of parts 2 when they are connected to each other and to axis 7 allow you to “stretch” the thin axis 7 (for example, with a diameter of up to 2 mm) through a node with a large number of parts of the first group 1 and parts of the second group 2, to combine the central holes 6, the central axial clearance 21, and the total length of such a central axial space of the node may exceed an axis diameter of 20-25 r s, which allows to achieve the technical result - more conveniently and rapidly carry out assembly and installation while sufficiently tightly seal the entire assembly without the use of glue or other additional fasteners and / or substances.

The achievement of the technical result is enhanced by the fact that in some cases each of the individual parts of the first group contains three or four rectangular connecting holes 8, 9, 10, 11, which are symmetrically located relative to the central hole 6 on each of the individual parts of the first group 1, and the second group parts 2, respectively, contains three or four separate parts from parts 12, 13, 14, 15, and each of these individual parts of the second group 2 contains protrusions 16, 17 at the edges, and also each of these individual parts is a second gr Upp 2 contains in the central part at least one central protrusion 18. That is, by increasing the number of connecting holes 8, 9, 10, 11 of the parts of the first group 1 and increasing the number of individual parts 12, 13, 14, 15 of the parts of the first group 2 , increases the rigidity and strength of the fastening of the entire site without the use of glue or other additional fasteners and / or substances. Moreover, in some cases, the node is increased rigidity and bond strength of the entire node is achieved by the fact that at the ends of the individual parts 12, 13, 14, 15 of the second group of parts 2 can be located mounting tabs 19, 20, which when fastening parts of the second group 2 with parts of the first group 1 are hooked to the edges of the rectangular connecting holes 8, 9, 10, 11 of parts 3, 4 of the first group 1, and when wedging the parts of the assembly with the axis 7, these mounting protrusions 19, 20 also abut against the edges of the rectangular connecting holes 8, 9 , 10, 11, holding together This node.

In some cases, on the protrusions 16, 17 of the individual parts 12, 13, 14, 15 of the second group of parts 2, longitudinal slots 22 (Fig. 9, 10) can be made that are located along each individual part 12, 13, 14, 15 of the second group 2, on which a longitudinal slot 22 is located and along the axis line of the assembly. The longitudinal slot 22 allows the material from which the individual parts 12, 13, 14, 15 of the second group 2 are made to be better absorbed when wedged, that is, during the wedging, each of these longitudinal slots 22 is reduced as much as possible, which allows the material of the parts 12, 13, 14 15 of the second group 2 more gently press against the connecting holes 8, 9, 10, 11 of the individual parts 3, 4, 5 of the first group of parts 1. The edges of the individual parts 12, 13, 14, 15 of the second group 2 due to the longitudinal slots 22 are divided into two parts, with the result that on each of the details she 12, 13, 14, 15 of the second group forms a strip of material (one part of each of the individual parts 12, 13, 14, 15 of the second group of parts 2), which is more flexible - it is thinner, while it does not break, since it is supported by a strip having a greater thickness (the other part) of the corresponding individual part 12, 13, 14, 15 of the second group of parts 2. Thus, due to the longitudinal slots 22, the flexibility of the individual parts 12, 13, 14, 15 of the second group 2 is increased, which allows strengthen the ability to achieve a technical result.

Also, in some cases, the implementation of the node, the achievement of the technical result is enhanced by the fact that the details of the first group 1 and the details of the second group 2 are made of material that has a greater material resistance than the material from which axis 7 is made. Thus, axis 7 can more easily and with less resistance than the known analogues and prototype, inserted in the Central holes biv Central axial clearance 21, and this increases the effect of wedging axis 7 of the parts, which also helps to ensure more It is convenient and rapid assembly mounting, a sufficiently rigid bonding the entire assembly without the use of glue or other additional fasteners and / or substances. The combination of all the essential features of the proposed method for connecting parts of individual movable elements of a mechanical model assembly, capable of moving around one axis, including new significant features, allows using it to achieve a technical result, namely, it is more convenient and quick to install the assembly and at the same time it’s enough firmly fasten the entire assembly without using glue or other additional fasteners and / or substances.

New features of the proposed method is the implementation of the connection using the axis 7, the first group of parts 1 and the second group of parts 2 together by inserting protrusions 16 located on the edges of at least two of the individual parts 12, 13, 14, 15 of the second group 2 in at least than two rectangular connecting holes 8, 9, 10, 11 of one of the individual parts 3 of the first group 1, and inserts of other protrusions 17 located on other edges of at least two of the individual parts 12, 13, 14, 15 of the second group 2, no less than two rectangular connecting holes 8, 9, 10, 11 of another separate part 4 and / or 5 of the first group 1 and the formation between the central protrusions 18 of the separate parts 12, 13, 14, 15 of the second group 2 of the central axial clearance 21 allows you to conveniently and quickly pre-fasten the parts of the assembly without inserting an axis 7. Pre-bonding due to the design features of the parts of the first group 1 and parts of the second group 2 before inserting the axis 7 is not yet stable enough. The axis 7 is inserted into the central holes 6 of one of the individual parts 3 of the first group 1, into the central axial clearance 21 formed between the central protrusions 18 of the individual parts 12, 13, 14, 15 of the second group 2, and into the central hole 6 of another separate component, for example 4 and / or 5 of the first group 1. In this case, the installation (insertion) of the axis 7 can be carried out on either side of the assembly. By installing the axis 7, it is possible to wedge this axis 7 of the individual parts 12, 13, 14, 15 of the second group 2 of the assembly in all directions perpendicular to the axis 7 and along the individual parts 12, 13, 14, 15 of the second group 2. Thus, the axis 7 can be fastened the details of the first group 1 and with the details of the second group 2 in a single unit. Due to these new features of the proposed method of connection, the technical result is achieved, namely, the assembly of the assembly is conveniently and quickly carried out and the entire assembly is sufficiently rigidly fastened without the use of glue or other additional fasteners and / or substances.

Unexpected in the claimed method, it turned out that the new features of this method in conjunction with known features, including the combination of new features in the implementation of this method allow unexpectedly easily and quickly "stretch" a fairly thin axis 7 (with a diameter of not more than 2 mm) across a node with a large number of parts of the first group 1 by moving the axis 7 through the combined central holes 6 of the parts of the first group 1 and through the central axial clearance 21 formed by the central protrusions 18 of the parts of the second group 2 . Moreover, the length of the total axial space of the node may exceed the diameter of the axis 7 by 20-25 times. This is probably achieved due to the fact that when installing (inserting) the axis 7 into the central axial clearance 21, this axis 7 is pressed only by the inner planes of the central protrusions 18, which form the central axial clearance 21, and the axis 7 is fixed (holding) in the center is due to the fact that when connecting - fastening the parts of the unit and when wedging the axis 7 of the parts of the second group 2, "centering (centering)" and fixing these parts of the second group 2 in the rectangular connecting holes 8, 9, 10, 11 of the parts of the first gr UPPA 1. Accordingly, when connecting all the parts of the assembly, the individual parts 12, 13, 14, 15 of the second group 2 are aligned to a position parallel to each other, which is provided by the axis 7, and as a result of this technological action, the parts of the second group 2 are uniformly wedged on opposite ends of the knot. That is, not the assembly in the assembly provides for the axis 7 a uniform centered common axial corridor (axial space) for installing the axis 7, but the axis 7 aligns the assembly in the process of connecting the assembly parts, “centers” the central holes 6 of the parts of the first group 1 with a central axial clearance 21 and fixes the entire structure, interacting with the tangent of only a small part of its surface with a small part of the surface of individual parts of the assembly - with the central protrusions 18 of the parts of the second group 2. Moreover, when installing the axis 7 into the assembly, the central protrusions 18 on separate parts 12, 13, 14, 15 of the second group 2 “direct” the axis 7 in two directions, allowing without special skills to easily extend the axis 7 through several central holes 6 immediately, which, respectively, allows more convenient and quick installation of the unit and at the same time it is enough to firmly fasten the entire unit without the use of glue or other additional fasteners and / or substances.

The achievement of the technical result for the proposed method of connection is enhanced by the fact that in some cases the implementation of the method when connecting all the parts of the individual movable elements of the node of the mechanical model is additionally strengthened and provides fastening of parts 3, 4, 5 of the first group 1 and details 12, 13, 14, 15 of the second groups of parts 2 in a single unit by engaging at the edges of at least two connecting holes 8, 9, 10, 11 with mounting tabs 19, 20, which are located at the ends of each of the individual parts 12, 13, 14, 15 of the second group of parts 2.

Also, in individual cases of the method, the achievement of the technical result is enhanced by the use of longitudinal slots 22 on the protrusions of the individual parts 12, 13, 14, 15 of the second group 2, which ensures a tight connection of the individual parts 12, 13, 14, 15 of the second group of parts 2 with individual parts 3, 4, 5 of the first group of parts 1.

Thus, the technical result is achieved through the implementation of the proposed objects - the design of the node and the method of connecting its parts, which are united by a single creative concept, and the new features of which allow you to get a new design of the node and a new way of connecting the parts of this node with new properties.

When creating the proposed inventions, in order to achieve a technical result, it was required to create a new set of knot elements, their interconnections, shapes, a new set of technological actions of the method of connecting the knot parts, which allowed to obtain an unobvious effect when implementing, using these technical solutions. The unexpectedness of the achievement of the technical result in the implementation of the proposed technical solutions is also due to the achievement of a qualitatively new property of the assembly design and the method of connecting its parts, thanks to the new combination of all the elements of the assembly, including its new elements, due to the new set of operations of the method of connecting the assembly of parts of the assembly, including its new actions, convenience and quick assembly of the proposed assembly is achieved, rigid fastening of the entire assembly without the use of glue or other additional creams ezhnyh parts and / or substances.

Description of drawings

The practical implementation of the proposed site is characterized by drawings (Fig. 1 - Fig. 11) and a description of the design of this site in a static state, its assembly and use.

The proposed technical solutions are illustrated by the following graphic images - figures of the drawings 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11:

In FIG. 1 shows contour images of parts of the first group 1 and parts of the second group 2.

In FIG. 2 shows volumetric images of parts of the first group 1 and parts of the second group 2.

In FIG. 3 shows images of parts 12, 13, 14, 15 of the second group 2, with protrusions 16, 17, with central protrusions 18, with a central axial clearance 21 formed: three-dimensional and views from different sides.

In FIG. 4 shows a first group of parts 1 and a second group 2 of parts in an assembled state without an inserted axis 7.

In FIG. 5 shows the first group of parts 1 and the second group of parts 2 in an assembled state, with an axis 7 before installation.

In FIG. 6 shows an example of a unit in an assembled state (the first group of parts 1 and the second group of parts 2 in an assembled state with an axle 7 inserted).

In FIG. 7 shows an example of a unit in an assembled state (the first group of parts 1 and the second group of parts 2 in an assembled state with an axle 7 inserted).

In FIG. 8 shows an example of a unit in an assembled state (the first group of parts 1 and the second group of parts 2 in an assembled state with an axle 7 inserted).

In FIG. 9 shows an example of a separate part of the second group 2 with slots 22.

In FIG. 10 shows an example of a first group of parts 1 and a second group of parts 2, before assembly, where the individual parts of the second group 2 are made with slots 22.

In FIG. 11 shows an example of using the proposed assembly in an assembly that is installed in a mechanical model.

Elements of the invention are indicated by the following reference signs:

1 - the first group of parts (in Fig. 1 and in Fig. 2 circled by a dashed-dotted line);

2 - the second group of parts (in Fig. 1 and in Fig. 2 circled by a dashed line);

3 - a separate part of the first group of parts 1;

4 - a separate part of the first group of parts 1;

5 - a separate part of the first group of parts 1;

6 - the Central hole of the individual parts 3, 4, 5 of the first group of parts 1;

7 - axis;

8, 9, 10, 11 - connecting holes of individual parts 3, 4, 5 of the first group of parts 1;

12, 13, 14, 15 - separate pairwise-symmetrical parts of the second group of parts 2;

16, 17 - protrusions on the opposite edges of the individual parts 12, 13, 14, 15 of the second group of parts 2;

18 - Central protrusions in the Central parts of the individual parts 12, 13, 14, 15 of the second group of parts 2;

19, 20 - mounting tabs at the ends of each of the individual parts 12, 13, 14, 15 of the second group of parts 2;

21 - formed during the preparation of the Central axial clearance between the individual parts 12, 13, 14, 15 of the second group of parts 2;

22 - slots on the protrusions of each of the individual parts 12, 13, 14, 15 of the second group of parts 2.

The implementation of the invention

The practical implementation of the proposed site and the method of connecting its parts is characterized by the following description.

Static state. The proposed site contains a first group of parts 1 (Fig. 1, Fig. 2) and a second group of parts 2 (Fig. 1, Fig. 2, Fig. 3). The first group of parts 1 contains at least two separate parts 3, 4, 5. As examples in FIG. 1, FIG. 2, FIG. 4-7 show three separate parts 3, 4, 5 of the first group of parts 1. FIG. 8, FIG. 11 shows two separate parts 3, 4 of the first group of parts 1. FIG. 10 shows four separate parts 3, 4, 5 of the first group of parts 1, where parts 3 in quantity are two. Each of these individual parts 3, 4, 5 of the first group of parts 1 contains a central hole 6 (Fig. 1, 2, 4, 5, 10) for insertion (installation) into this central hole 6 of axis 7. Axis 7 is shown in figures 5 , 6, 7, 8, 11.

Each of the individual parts 3, 4, 5 of the first group of parts 1 contains at least two rectangular connecting holes 8, 9, which are located symmetrically with respect to the central hole 6 on each of the individual parts 3, 4, 5 of the first group of parts 1 (Fig. 1, 2, 10). In some cases, the construction of the node, each of the individual parts 3, 4, 5 of the first group of parts 1 contains three or four connecting holes 8, 9, 10, 11. In FIG. 1, 2, 10 as an example, four connecting holes 8, 9, 10, 11 are shown.

The second group of parts 2 contains at least two separate parts 12, 13, which are made pair-symmetric. In some cases, the implementation of the proposed site, the second group of parts 2 contains three - 12, 13, 14 or four separate parts - 12, 13, 14, 15. In figures 1, 2, 3, 4, 10, four separate parts 12 are shown as an example , 13, 14, 15 of the second group of parts 2. Each of these individual parts 12, 13, 14, 15 of the second group of parts 2 contains protrusions 16, 17 (Fig. 1, 3) at opposite edges, and also each of these individual parts 12, 13, 14, 15 of the second group 2 contains in the central part at least one central protrusion 18 (Fig. 1, 2, 3, 9, 10). Depending on particular cases of the general design of the assembly, two central protrusions 18 on each of the individual parts 12, 13, 14, 15 (Fig. 9) can be made on separate parts 12, 13, 14, 15 of the second group of parts 2 (or FIG. 9), or in the amount of three or, if necessary, and more.

The axis 7 may have, for example, a circular cross section and tapering at both ends (FIGS. 5, 6, 7, 8). Figure 11 shows the axis 7 not pointed at the ends.

In individual cases of the invention, all the details of the first group 1 and the details of the second group 2 are made of a material that has a higher material resistance than the material of which the axis 7 is made, which makes it possible to enhance the achievement of the technical result due to the easier movement of the axis 7 in the central holes are formed axial clearance 21.

In some cases, the invention at the ends of each of their individual parts 12, 13, 14, 15 of the second group of parts 2 can be made and located mounting tabs 19, 20 (Fig. 1, 2, 3, 4, 9, 10).

In some cases, the invention on the protrusions of each of the individual parts 12, 13, 14, 15 of the second group of parts 2 can be made longitudinal slots 22, which are located along the axis of the node, namely along each individual part 12, 13, 14, 15 the second group of parts 2, on which there is a longitudinal slot 22 and along the axis 7 line (Fig. 9, Fig. 10).

The first group of parts 1 and the second group of parts 2 are interconnected using separate parts 12, 13, 14, 15 of the second group 2 as shown in figures 4, 5, 6, 7, 8. Individual parts 12, 13, 14, 15 of the second group 2 are previously grouped (before connecting to the first group of parts 1) and, when connected, form a central axial clearance 21 between the central protrusions 18 of these individual parts 12, 13, 14, 15 of the second group 2 (Fig. 3). When connecting parts of the first group 1 and parts of the second group 2, the protrusions 16 located on one side along the edges of the individual parts 12, 13, 14, 15 of the second group 2 are installed in at least two rectangular connecting holes 8, 9, 10, 11 one of the individual parts 3 of the first group 1, and other protrusions 17, which are located on the other side along the edges of the individual parts 12, 13, 14, 15 of the second group 2, are installed in at least two rectangular connecting holes 8, 9, 10, 11 of another separate part 4 and / or 5 of the first group 1 (arrangement of all parts of the first group 1 and parts of the second group 2 before assembly is shown in Fig. 3 and Fig. 10). The axis 7 is inserted (installed) in the central hole 6 of one of the individual parts 3 of the first group 1 and in the central axial clearance 21 formed between the central protrusions 18 of the individual parts 12, 13, 14, 15 of the second group 2, as well as in the central hole 6 of the other separate parts 4 (or two other separate parts 4, 5) of the first group 1 (Fig. 5, 6, 7, 8).

The practical use of the proposed assembly involves the assembly (installation) of all parts of this design, and in the assembled state, this assembly is industrially applicable as a structural element in the composition of game and souvenir sets, designers, models of which are obtained by connecting, assembling and mounting a set of parts. The details of the first group 1 and the second group 2 can be cut from sheet material several millimeters thick or made in another way, in particular by molding or molding. Axis 7 can be made in any economically and ergonomically sound and appropriate way from any materials that can be economically and ergonomically sound and suitable for use (for example, wood or plastic). In practice, it is possible to use, for example, a toothpick or a similar element as a “axis 7” part, which can be made of wood material and which has a fairly low cost, which will also generally reduce the total cost of the product in which the proposed assembly is used.

To use the claimed invention, all these parts, elements must be combined into a single unit by connecting and fastening together manually, that is, the user of the unit independently carries out installation and connection of all parts of the unit by manual assembly as follows.

An example of the practical implementation of the proposed method is an example of the assembly and connection of all parts of the node in a single design.

The stages, the implementation of the proposed method are also illustrative in figures 2, 3, 4, 5, 6, 7, 8, 10.

The proposed method for connecting parts of individual movable elements of a mechanical model assembly that are capable of moving around one axis provides for the implementation of actions in the form of connecting parts to each other by installing one part in the connecting holes of other parts and further bonding all the parts to a single mechanical model unit.

Users manually connect the parts of the first group 1 and the details of the second group 2 to each other by performing connecting actions.

Connecting actions are carried out using axis 7 and two groups of parts 1 and 2. Figures 2, 3, 4, 5, 6 show an example of connecting parts of individual moving elements of a mechanical model assembly, where three parts of the first group 1 are provided (3, 4, 5), and the presence of parts of the second group 2 in the amount of four (12, 13, 14, 15), and the presence of axis 7 is also provided (Fig. 5, 6). In this example (figures 2, 3, 4, 5, 6), parts 12, 13, 14, 15 of the second group 2, when connected and mounted, are actually perpendicularly located between part 3 of the first group of parts 1 and parts 4, 5 of the first group as well 1. Also shown in and FIG. 10, but using two parts 3 of the first group of parts 1.

Thus, the first group 1 and the second group 2 of the assembly parts are sequentially interconnected by inserting (installing) the protrusions 16, which are located on opposite edges of at least two separate parts, and in the above example, four separate parts 12, 13, 14, 15 of the second group of parts 2, in no less than two (in the above example, four) rectangular connecting holes 8, 9, 10, 11 of one of the individual parts 3 of the first group 1. And also insert the other protrusions 17, which are located on the other opposite edges no less we have two, and in the given example, four separate parts 12, 13, 14, 15 of the second group of parts 2, in no less than two (in the given example, four) rectangular connecting holes 8, 9, 10, 11 of another separate part the first group 1 (Fig. 2, Fig. 4).

The installation of the protrusions 16 and 17 of the individual parts 12, 13, 14, 15 of the second group 2 in the connecting holes 8, 9, 10, 11 of the individual parts 3, 4, 5 of the first group 1 can be carried out both alternately (in any sequence), and almost at the same time, that is, it does not matter in which sequence the user performs such an installation and connection of parts of the first group 1 and parts of the second group 2.

After such a connection between the central protrusions 18 of the individual parts 12, 13, 14, 15 of the second group 2, a central axial clearance 21 is formed (Fig. 3), after which the axis 7 is inserted into the central hole 6 of one of the individual parts 3 of the first group 1, in the central axial clearance 21 formed between the central protrusions 18 of the individual parts 12, 13, 14, 15 of the second group 2 and into the central hole 6 of another separate part 4 of the first group 1 (and in this example, the central holes 6 of two separate parts 4, 5 of the first groups of parts 1) (Fig. 5). The user can also insert (install) the axis 7 first into the central holes 6 of the individual parts 4, 5 of the first group 1, then into the central axial clearance 21 formed between the central protrusions 18 of the individual parts 12, 13, 14, 15 of the second group 2, after whereby the user inserts (installs) the axis 7 into the central hole 6 of one of the individual parts 3 of the first group 1.

When assembling and connecting all the parts of the assembly until the axis 7 is inserted into the central holes 6 of the parts 3, 4, 5 of the first group and into the axial clearance 21 formed at the joints of the assembly parts, there is a play, and the entire assembled structure is not finally bonded, that is, the user holds this still not completely assembled unit manually. Accordingly, by inserting the axis 7 into the central holes 6 of the individual parts 3, 4, 5 of the first group of parts 1 and into the central axial clearance 21 formed between the central protrusions 18 of the individual parts 12, 13, 14, 15 of the second group 2, this axis is wedged 7 individual parts 12, 13, 14, 15 of the second group 2 in all directions perpendicular to the axis 7 and along the individual parts 12, 13, 14, 15 of the second group 2, and also simultaneously provide the fastening of the axis 7 with the details of the first group 1 and with the details of the second group 2 into a single node (figures 4, 5, 6, 7, 8, 11).

Due to the structural features of the assembly and the method of connecting its parts, the diameter of the central holes 6 of the parts of the first group does not impede the free passage of the axis 7 through these holes 6, and the planes of the inner central protrusions 18 of the individual parts 12, 13, 14, 15 of the second group 2 (which form the central axial the gap 21) can have minimal contact with the axis 7, which allows the axis 7 to move quite easily, smoothly and gradually forward through all holes 6 and through the central axial clearance 21 of the assembly, while at the same time, the axis 7 with hydrochloric riving force the individual parts 12, 13, 14, 15 of the second group 2 node.

Thus, the individual parts 12, 13, 14, 15 of the second group 2 are wedged by the axis 7 in all directions perpendicular to axis 7, which allows the whole assembly to be sufficiently rigidly fastened without the use of glue or other additional fasteners and / or substances, and to use the finished fastened assembly as part of the constructions of game and souvenir design kits, including in three-dimensional models with movable elements and / or in mechanical 3D puzzles and in other similar designs (Fig. 11).

The finished fastened assembly can be dismantled without much effort. This possibility of free dismantling of all parts of the assembly appears only after the complete removal of the axis 7 from the axial space of the assembly, which is formed by the central holes 6 of the first group of parts 1 and axial clearance 21, i.e., after removing the axis 7, all parts of the first group 1 and parts of the second group are released 2 knots from radial forces (wedging forces), and all parts of the knot can be easily dismantled and disconnected.

In some cases, when the method is connected (bonded) to all parts of individual movable elements of a mechanical model unit, after insertion (installation) of the axis 7 into the central holes 6 of the parts of the first group 1 and into the axial clearance 21 formed, they additionally strengthen and secure the fastening of parts of the first group 1 and the second group 2 in a single unit by engaging and "snapping in" at least two edges, and in the example (Fig. 3, 4, 9) of the four connecting holes 8, 9, 10, 11 of the parts of the first group 1 of the mounting protrusions 19, 20 which located at the ends of each of the individual parts 12, 13, 14 15, the second group 2, which further strengthen the fastening of all parts of the site (Fig. 4, 6, 11).

In some cases, the method, due to the use of longitudinal slots 22 on the protrusions of each of the individual parts 12, 13, 14, 15 of the second group 2, provides a tight connection of the individual parts 12, 13, 14, 15 of the second group 2 with the individual parts of the first 3, 4, 5, group 1 (Fig. 9, Fig. 10).

The longitudinal slots 22 are located along each individual part 12, 13, 14, 15 of the second group 2, on which the slot 22 is made, and along the line of the axis 7 of the assembly (Fig. 9, Fig. 10). The longitudinal slots 22 are intended to improve and facilitate the implementation of the method of connecting parts of the node. The longitudinal slots 22 allow the material from which the individual parts 12, 13, 14, 15 of the second group 2 are made to be better absorbed when these individual parts 12, 13, 14, 15 are wedged out by the axis 7, i.e. during wedging by the axis 7 of the individual parts 12, 13, 14, 15, each longitudinal slot 22 decreases as much as possible under physical pressure during insertion (installation) into the connecting holes 8, 9, 10, 11 of individual parts 3, 4, 5 of the first group 1, which allows the material of the individual parts 12, 13, 14 , 15 of the second group 2 more “gently” join and snuggle up to the connective m holes 8, 9, 10, 11 of individual parts 3, 4, 5 of the first group 1. The edges of the individual parts 12, 13, 14, 15 of the second group of parts 2 due to the longitudinal slots 22 are divided into two parts, and one part is formed - a strip material, which is more flexible due to the fact that it is thinner, but it does not break, since it is supported by another, having a greater thickness, part of the individual parts 12, 13, 14, 15 of the second group 2. Accordingly, due to longitudinal slots 22, when implementing the connection method, increases the flexibility of individual parts 1 2, 13, 14, 15 of the second group 2, which allows to enhance the ability to achieve a technical result.

Thus, the proposed method of connecting parts of the node can be implemented only if the proposed node, its parts, and the proposed node, respectively, is designed to implement the proposed method of connecting its parts.

The proposed assembly of individual movable elements of a mechanical model that are capable of moving around one axis, and a method for connecting parts of individual movable elements of a mechanical model of a unit that are capable of moving around one axis, have undergone extensive testing as part of game and souvenir sets (designers), in particular in bulk models with moving elements, 3D mechanical puzzles and other designs.

The test results showed that the proposed site and the method of connecting its parts allow for more convenient and quick installation of the site and at the same time it is enough to firmly fasten the entire site without the use of glue or other additional fasteners and / or substances.

The proposed site and method for connecting parts meet all the requirements of their operation and application. The production of the proposed assembly of separate movable elements of a mechanical model that can move around one axis, together with the implementation of the method of connecting its elements, will expand the range of modern game and souvenir designers, their assembly technologies.

Industrial applicability

The present invention can be carried out in industry - according to the claimed technical solutions, the proposed site and method of its assembly can be carried out in industrial production and are widely used for its intended purpose.

An example of a specific industrial implementation of the proposed invention, its use is given above as the best example of implementation.

The proposed technical solutions are widely tested in experimental production conditions. The results of such tests showed the achievement of a technical result when using them.

Claims (10)

1. The node of the individual movable elements of the mechanical model, which are able to move around one axis, containing interconnected axis, separate movable elements and parts of such separate movable elements, characterized in that it contains a first group of parts and a second group of parts, the first group parts contains at least two separate parts, and each of these individual parts of the first group contains a Central hole for inserting an axis into it, in addition, each of at least two separate parts of the first group s contains at least two rectangular connecting holes that are located symmetrically with respect to the central hole on each of the individual parts of the first group, and the second group of parts contains at least two separate parts that are made pairwise-symmetrical, and each of these individual parts of the second group contains protrusions at opposite edges, in addition, each of these individual parts of the second group contains at least one central protrusion in the central part, while the first group of parts and the second group of parts are interconnected using separate parts of the second group, which are pre-grouped and form a central axial clearance between the central protrusions of these individual parts of the second group, as well as when connecting parts of the first and second group, the protrusions located on one side along the edges of the individual parts of the second group, are installed in at least two rectangular connecting holes of one of the individual parts of the first group, and other protrusions that are located on the other side along the edge individual parts of the second group are installed in at least two rectangular connecting holes of another separate part of the first group, and the axis is inserted into the central hole of one of the individual parts of the first group and in the central axial clearance formed between the central protrusions of the individual parts of the second group, as well as in the central hole of another separate part of the first group. 2. The node according to claim 1, characterized in that each of the individual parts of the first group contains three rectangular connecting holes that are symmetrically relative to the central hole on each of the individual parts of the first group, and the second group of parts contains three separate parts, each of which contains protrusions at the edges, and each of these individual parts of the second group contains at least one central protrusion in the central part. 3. The assembly according to claim 1, characterized in that each of the individual parts of the first group contains four rectangular connecting holes that are symmetrically relative to the central hole on each of the individual parts of the first group, and the second group of parts contains four separate parts, each of which contains protrusions along the edges, and also each of these separate parts of the second group contains at least one central protrusion in the central part. 4. The node according to claim 1, characterized in that the axis has a circular cross section and is made pointed at both ends. 5. The node according to claim 1, characterized in that the details of the first group and the second group are made of material that has a higher material resistance than the material of which the axis is made. 6. The node according to p. 1, characterized in that at the ends of each of the individual parts of the second group made mounting tabs. 7. The node according to claim 1, characterized in that on the protrusions of each of the individual parts of the second group, longitudinal slots are made, which are located along the axis of the node. 8. The method of connecting parts of individual movable elements of a mechanical model assembly, which are capable of moving around one axis, involving connecting parts to each other by installing one part in the connecting holes of other parts and further fastening all the parts into a single mechanical model unit, characterized in that the connecting actions carried out using the axis and two groups of parts, while the connection of the first group of parts and the second group of parts is carried out by inserting protrusions that are laid on opposite edges of at least two separate parts of the second group in at least two rectangular connecting holes of one of the individual parts of the first group, and also insert other protrusions that are located on the other - opposite edges of at least two separate parts of the second group, at least two rectangular connecting holes of another separate part of the first group, while between the Central protrusions of the individual parts of the second group form a Central axial clearance, after which the whole the axis is pushed into the central hole of one of the individual parts of the first group, as well as into the central axial clearance, which is formed between the central protrusions of the individual parts of the second group, and into the central hole of another separate component of the first group, with the axes wedging the details of the second group in all directions perpendicular axis with simultaneous fastening of the axis and all parts of the first and second groups into a single unit. 9. The method according to p. 8, characterized in that it further reinforces and secures the fastening of the details of the first group and the details of the second group into a single unit by engaging at the edges of at least two connecting holes of the details of the first group with fixing protrusions that are located at the ends of each of the individual details of the second group. 10. The method according to p. 8, characterized in that by means of longitudinal slots on the protrusions of each of the individual parts of the second group, the density of the connection of the individual parts of the second group with the individual parts of the first group is provided.

Images