RU186639U1 - BLOCK INTERFACE DEVICE - Google Patents

Abstract

The device for interfacing blocks for interfacing between the electronic unit and the non-electronic block comprises at least one electrically conductive terminal, which is a button structure, a snap button formed at the end of the device for interlocking the blocks, and a snap hole formed on the other end of the device for interlocking the blocks and electrically connected to the snap button. At least one protrusion is made on the end surface of the non-electronic block. The device for interfacing the blocks comprises a base, at least one retaining rib located on the end surface of the base, a retaining wall made on the other end surface of the base, and enclosing a space enclosed by the retaining wall. The retaining rib is attached to the snap-in hole of the electronic unit, and the inner surface of the retaining wall is adjacent to the protrusion of the non-electronic unit in order to ensure mutual fixation.

Description

FIELD OF TECHNOLOGY

[0001] This utility model relates to the field of assembly of blocks, in particular, to a device for interfacing blocks made with the possibility of assembling an electronic block and a non-electronic block of two different designs.

BACKGROUND TO USING A USEFUL MODEL

 1. The prior art

[0002] In traditional blocks, such as LEGO, GIGO blocks, or other assembly blocks, it is possible to connect and combine various components of non-electronic blocks to obtain a planar or three-dimensional shape. In non-electronic blocks of this type there is no electrical connection, as a result of which the connection between the various components is ensured on the basis of a structure made of simple plastic material. In addition, the nature of the fixation of the assembly blocks is usually determined at an early stage of development, and this nature cannot be freely changed.

[0003] On the other hand, electronic units are usually combined and connected to each other by connecting a snap-in circuit, whereby the electronic units can be conveniently and quickly connected or removed. After the installation of an electrical combination or connection between the electronic units, the electronic units can be mechanically and electrically fixed without causing disconnection. Thus, the snap-on design can be designed to provide communication between a traditional non-electronic unit and an electronic unit (due to the fact that these two units are different types of units).

[0004] In view of the aforementioned drawbacks of the prior art and based on many years of experience in a related field of industry, the applicant of the present utility model conducted extensive theoretical and practical research, designed a snap-in design, and developed a device for interfacing blocks configured to combine a non-electronic unit with an electronic unit with the goal of increasing the diversity of possible compounds and combinations of blocks.

2. The essence of the utility model

[0005] Accordingly, the main objective of this utility model is to provide a device for interfacing blocks configured to combine an electronic unit (or a snap-in circuit unit) with a conventional non-electronic unit.

[0006] The above and other problems are solved in the present utility model by providing a device for interfacing blocks made in the form of a device for interfacing between an electronic unit and a non-electronic unit, the electronic unit comprising at least one electrically conductive terminal representing a button structure with an end, made in the form of a snap button, the other end being in the form of a snap hole, and the snap hole and snap button are in electrical communication ug with a friend; the non-electronic block contains at least one protrusion made on the end surface of the non-electronic block, and the device for pairing the blocks is characterized in that the device for pairing blocks contains a base, at least one retaining rib located on the end surface of the base, and a holding wall formed on the other end surface of the base, and the retaining wall covers and forms an enclosing space, and the retaining rib is made with the possibility of matching latches a removable hole of the electronic unit in order to ensure mutual fixation, and the retaining wall has an inner wall surface adjacent to the specified protrusion of the non-electronic unit in order to ensure mutual fixation.

[0007] In one example implementation, the device for interfacing the blocks also comprises at least one cylindrical clamping rib configured to attach to the protrusion of a non-electronic block, the cylindrical clamping rib being located in the enclosing space to further divide the enclosing space into a plurality of fixing sections, made in the form of a matrix, and the mounting sections are made with the possibility of matching the corresponding protrusions.

[0008] In another example implementation, the protrusion is a cylinder with a diameter of 5 mm; and the holding rib is a cylinder with a diameter of 4 mm.

[0009] In another example implementation, the retaining wall comprises edges covered to form a square shape.

[0010] In another example implementation, the mounting sections are made in the form of a 2x2 matrix.

[0011] In another embodiment, the retaining wall comprises edges covered to form a rectangular shape.

[0012] In another example implementation, the mounting sections are made in the form of a 1x2 matrix.

[0013] Thus, the device for pairing the blocks according to the present utility model is configured to assemble and fix unconnected electronic blocks and non-electronic blocks of various designs in order to increase the diversity and versatility of the process of combining the blocks to provide a more fun and diverse connection and use of blocks by users.

BRIEF DESCRIPTION OF THE DRAWINGS

[0014] FIG. 1 shows a first schematic view of a device for interfacing blocks according to the present utility model;

[0015] FIG. 2A shows a second schematic view of a device for interfacing blocks according to the present utility model;

[0016] FIG. 2B shows a third schematic view of a device for interfacing blocks according to the present utility model;

[0017] FIG. 3A shows a fourth schematic view of a device for interfacing blocks according to the present utility model;

[0018] FIG. 3B shows a fifth schematic view of a device for interfacing blocks according to the present utility model; and

[0019] FIG. 4 is a schematic view illustrating the use of the device for pairing blocks of the present utility model.

DESCRIPTION OF PREFERRED EMBODIMENTS

[0020] In order to facilitate understanding of the task, technical characteristics, design, innovative features, and utility model operation by Expertise, preferred embodiments are described with reference to the accompanying drawings in order to provide a detailed description of the utility model.

[0021] Referring to FIG. 1, 2A, 2B, 3A, 3B and 4, which are schematic views (first to fifth) illustrating the construction, and a schematic view illustrating the use of the device for interfacing blocks according to a preferred embodiment of the present utility model, respectively, device 1 for the pairing of blocks is made in the form of a device for pairing between the electronic block 2 and the non-electronic block 3, and the electronic block 2 contains at least one electrically conductive terminal 20, which is a button design, and contains a snap button 201 made at the end of the electronic unit 2, and a snap hole 202 made at the other end of the electronic unit 2, the snap hole 202 and the snap button 201 are electrically connected to each other. In addition, at least one protrusion 30 is made on the end surface of the non-electronic block 3. The block mating device 1 is characterized in that the block mating device 1 comprises a base 10, at least one holding rib 11 located on the end surface of the base 10, a retaining wall 12 formed on the other end surface of the base 10 and containing a space 13 formed and covered by the retaining wall 12. The retaining rib 11 is adapted to snap into place at the hole 20 of the electronic unit 2 in order to ensure mutual fixation, and the holding wall 12 contains an inner wall surface adjacent to the protrusion 30 of the non-electronic unit 3 in order to ensure mutual fixation. Thus, two completely dissimilar structures (electronic unit 2 and non-electronic unit 3) can be combined by means of a device 1 for pairing blocks in order to ensure sufficient compatibility when assembling or combining blocks of various types and achieving a technical result consisting in increasing the diversity of the process of combining blocks and providing a more fun connection or combination of blocks by users.

[0022] FIG. 1, the protrusion 30 is preferably a cylinder with a diameter of 5 mm, and the holding rib 11 is preferably a cylinder with a diameter of 4 mm. Further, the retaining wall 12 comprises edges spanning the square shape, and the device 1 for interlocking the blocks as a whole is essentially a square shape construction. In the example application of FIG. 4, the holding rib 11 of the unit 1 for interfacing the blocks and the snap hole 202 of the electronic unit 2 are adapted to correspond to each other in order to ensure mutual fixation, and the retaining wall 12 contains an inner wall surface adjacent to the protrusion 30 of the non-electronic unit 3 in order to ensure mutual fixation. Thus, the device 1 for pairing the blocks can be used to provide connection or combination of the electronic unit 2 with the non-electronic unit 3.

[0023] FIG. 2A, 2B, and 4, the block mating device 1 also comprises at least one cylindrical clamping rib 14 for providing a stop relative to the protrusion 30 of the non-electronic block 3, and the cylindrical clamping rib 14 is located in the enclosing space 13 and also forms a plurality of fixing sections 15 made in the form of a matrix in the enclosing space 13, and the mounting sections 15 are configured to correspond to the protrusion 30, and in FIG. 2A and 2B show the construction of a device 1 for interlocking blocks from different points of view, respectively, and a cylindrical clamping rib 14 adjoins a plurality of projections 30 in order to increase reliability during assembly by the device 1 for interlocking blocks. The cylindrical clamping rib 14 is a hollow cylinder or a solid cylinder. In the embodiment of FIG. 2B, the cylindrical clamping rib 14 is a hollow cylinder. Similarly, the protrusion 30 and the retaining rib 11 may be cylinders, the protrusion 30 having a diameter of 5 mm and the retaining rib 11 having a diameter of 4 mm in order to ensure the best possible bond strength. In addition, the retaining wall 12 contains the edges covered with the formation of a square shape, and the design as a whole essentially has a square shape. In addition, the mounting sections 15 are made in the form of a 2x2 matrix. In the device 1 for interfacing the blocks of this embodiment, the cylindrical pressing rib 14 divides the containing space 13 into a plurality of fastening sections 15 made in the form of a 2x2 matrix, as a result of which, when attaching the device 1 for interfacing the blocks to the non-electronic block 3, four protrusions 30 are attached to mounting sections 15, respectively, in order to increase the stability of the connection. A device 1 for interconnecting blocks of this design can be installed between the electronic unit 2 and the non-electronic unit 20 according to FIG. four.

[0024] FIG. 3A, 3B and 4, the device 1 for interlocking the blocks also comprises a cylindrical clamping rib 14, which in this embodiment is a continuous cylinder, and in FIG. 3A and 3B, the structure of the device 1 for interfacing the blocks is shown from different points of view, respectively. The retaining wall 12 of the unit 1 for interfacing the blocks comprises edges spanning and forming a square shape. In FIG. 3B, the edges of the retaining wall 12 can also be enclosed to form a rectangular shape, as a result of which the unit 1 for coupling the blocks is essentially rectangular in shape. In addition, the mounting sections 15 are made in the form of a 1x2 matrix and are attached to two of the protrusions 30 in order to ensure reliable bond strength. The device 1 for interfacing the blocks of this embodiment is installed between the electronic unit 2 and the non-electronic unit 3 according to FIG. four.

[0025] Thus, according to the above description, the device 1 for pairing the blocks according to the present utility model is configured to connect and interlock an unconnected electronic block 2 and a non-electronic block 3 in order to increase the diversity and universality of the process of combining the blocks to provide a more fun connection and combining blocks by users.

Claims (9)

1. A device for interfacing blocks made in the form of a device for interfacing between an electronic block and a non-electronic block, the electronic block comprising at least one electrically conductive terminal, which is a button structure comprising an end made in the form of a snap button and the other end made in the form of a snap hole, with the snap hole and the snap button electrically connected to each other, the non-electronic unit includes at least one protrusion made on to the non-electronic surface of the non-electronic block, and the device for interfacing the blocks is characterized in that it comprises a base, at least one retaining rib located on the end surface of the base, and a retaining wall formed on the other end surface of the base, and the retaining wall covers and forms an enclosing space while the retaining rib is configured to correspond to the snap-in hole of the electronic unit in order to ensure mutual fixation, and the retaining wall has m inner wall surface adjacent to said protrusion non-electronic unit to ensure mutual fixing. 2. A device for pairing blocks according to claim 1, wherein said protrusion is a cylinder with a diameter of 5 mm; and the holding rib is a cylinder with a diameter of 4 mm. 3. The device for pairing the blocks according to claim 2, wherein the retaining wall comprises edges spanning and forming a square shape. 4. The device for pairing the blocks according to claim 1, further comprising at least one cylindrical clamping rib configured to attach to the said protrusion of a non-electronic block, wherein the cylindrical clamping rib is located in the enclosing space to further divide the enclosing space into a plurality of fixing sections, made in the form of a matrix, and the mounting sections are made with the possibility of matching the specified protrusions, respectively. 5. A device for pairing blocks according to claim 4, wherein said protrusion is a cylinder with a diameter of 5 mm; and the holding rib is a cylinder with a diameter of 4 mm. 6. The device for interfacing the blocks according to claim 5, in which the retaining wall comprises edges spanning and forming a square shape. 7. The device for pairing blocks according to claim 6, in which the mounting sections are made in the form of a 2x2 matrix. 8. The device for pairing the blocks according to claim 5, in which the retaining wall comprises edges spanning and forming a rectangular shape. 9. The device for pairing blocks according to claim 8, in which the mounting sections are made in the form of a 1x2 matrix.

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