KR102597548B1 - Block assembly method providing system - Google Patents

Abstract

The present invention provides a block assembly method that allows the user to create a shape of a shape selected by the user on the screen of a smartphone or PC or a shape automatically generated according to input conditions by assembling a number of blocks provided in real life. It is about the system, and an app for the user is installed, allowing the user to select one or more of the various block shapes provided on the screen, select one or more of several types of shapes, and select the selected shape. A user terminal that allows selection of the size and provides visualization data based on the user's selection of the final shape assembled in a form where multiple block shapes are fitted together and a method for assembling the final shape, and a straight end at the end. It is characterized in that it is composed of a plurality of blocks that are formed in various shapes that can be assembled into a shape in which grooves are formed and fit together, and are physically provided to the user.

Description

Block assembly method providing system {Block assembly method providing system}

The present invention relates to a system that provides a method of assembling blocks using an app. More specifically, the present invention relates to a system that provides a method of assembling blocks using an app. More specifically, a shape automatically generated according to a shape selected by the user or input conditions is displayed to the user on the screen of a smartphone or PC. It relates to a system for providing a block assembly method that allows users to assemble and create a number of blocks provided in real life.

In general, prefabricated blocks, which can create various shapes using various types of blocks, are known to be significantly effective in improving children's creativity and concentration.

Therefore, block assembly using prefabricated blocks is not only used as a simple play, but also as an educational method, and has recently been linked to coding, which has been adopted as an official subject in schools.

In this way, the field in which prefabricated blocks are used continues to expand, and in relation to this situation, “prefabricated block toy set” in Korean Patent Publication No. 10-1927033 and “3-stage” in Korean Patent Publication No. 10-2022-0084566 Inventions such as “separate six-sided assembly block teaching aid” have been proposed and made public.

In other words, the “assembled block toy set” of the Republic of Korea Patent Publication No. 10-1927033 is configured to enable horizontal, vertical, and vertical combination with other blocks of the same or different shapes, allowing users to create various models. An invention regarding a prefabricated block has been proposed, and in the Korean Patent Publication No. 10-2022-0084566, “3-stage separable 6-sided assembly block tool”, a block body can be separated into 3 stages. An invention has been proposed regarding a prefabricated block that is composed of a shape and allows the user to create various types of three-dimensional shapes using the original block body and the separated block body.

However, prior inventions related to prefabricated blocks, including the above-described prior inventions, only suggest new shapes of prefabricated blocks and do not present any progressive measures in the block field, such as user convenience during the assembly process or expansion of use areas, and thus solve problems. there is.

Therefore, it can be said that there is a need for a new invention that can solve the above problems and suggest progressive measures in the block field, such as user convenience and expansion of the use area.

Republic of Korea Patent Publication No. 10-1927033 (2018. 12. 03) Republic of Korea Patent Publication No. 10-2022-0084566 (2022. 06. 21)

The system for providing a block assembly method according to the present invention,

By solving the problems of the above-mentioned prior inventions, which only present new shapes of prefabricated blocks, they do not provide any progressive measures in the block field, such as user convenience during the assembly process or expansion of the use area, etc.

The purpose is to provide user convenience and at the same time expand the scope of use to provide a system that can be used not only for simple play or education, but also for the production of architectural models or prototypes.

The present invention aims to achieve the above object,

A user app is installed, allowing the user to select one or more of the various block shapes provided on the screen, select one or more of several types of shapes, and select the size of the selected shape. A user terminal that provides visualization data based on user selection and a final shape assembled in a form where multiple block shapes are fitted together and a method for assembling the final shape; And, a plurality of prefabricated blocks composed of various shapes that have straight grooves formed at the ends and can be assembled to fit together, and are physically provided to the user; We present a system for providing a block assembly method, characterized in that it includes a block assembly method.

At this time, the block is characterized in that it is composed of one or more of a cross shape, triangle, ㄴ shape, ㅗ shape, straight shape, or radial shape with one straight groove formed at each end.

In addition, the user terminal selects the size of the virtual space in which the final shape of the multiple block shapes assembled will be placed by allowing the user who selects one or more of the various block shapes provided on the screen to input the horizontal length, vertical length, and height. allows selection of the number of block shapes to be assembled, and randomly configures shapes of a size that can be included inside the virtual space based on the user's selection, assembling multiple block shapes into a form that fits together. It is provided in a final shape, and is configured to reconfigure and provide the final shape according to the user's selection, or to provide visualization data on a method for assembling the final shape.

The system for providing a block assembly method according to the present invention,

Based on the user's selection made through a smartphone or personal computer with the user app installed, the final shape of multiple block shapes is formed and displayed on the screen, allowing the user to check the final shape in advance and assemble the blocks. We allow you to choose,

By providing detailed methods for assembling the final shape selected by the user as visualization material, we enable users to complete the assembly of the final shape easily and quickly.

As a result, it has the effect of providing user convenience, and at the same time, it has the effect of allowing prefabricated blocks to be used not only for simple play or education, but also for the production of architectural models, prototypes, and even the production of actual products using the above-mentioned configurations. Occurs.

1 is a basic configuration diagram of a system for providing a block assembly method according to the present invention.
Figure 2a is an exemplary diagram showing cross-shaped blocks constituting the prefabricated blocks used in the present invention.
Figure 2b is an exemplary diagram showing a Y-shaped block constituting the prefabricated block used in the present invention.
Figure 2c is an example diagram showing an L-shaped block constituting the prefabricated block used in the present invention.
Figure 2d is an example diagram showing a ㅗ-shaped block constituting the prefabricated block used in the present invention.
Figure 2e is an illustration showing straight blocks constituting the prefabricated blocks used in the present invention.
Figure 2f is an illustration showing radial blocks constituting the prefabricated blocks used in the present invention.
Figure 3a is an example diagram showing a screen configuration for selecting a block shape among the screen configurations of a user terminal used in the present invention.
Figure 3b is an example diagram showing a screen configuration for selecting a shape among the screen configurations of a user terminal used in the present invention.
Figure 3c is an example of a screen configuration of a user terminal used in the present invention in which a final shape generated based on user selection is provided.
Figure 4 is an example of a screen configuration of a user terminal used in the present invention where a user selects the size of a virtual space and the number of blocks.
Figure 5 is an exemplary diagram showing the shape of a model actually assembled using the present invention.

The present invention relates to a system that provides a block assembly method using an app,

A user app is installed, allowing the user to select one or more of the various block shapes provided on the screen, select one or more of several types of shapes, and select the size of the selected shape. A user terminal 100 that provides visualization data based on user selection and a final shape assembled in a form in which a plurality of block shapes are fitted together and a method for assembling the final shape; And, a plurality of prefabricated blocks 110 that are physically provided to the user and are composed of various shapes that have straight grooves formed at the ends and can be assembled to fit together. It is characterized by being composed of a.

Hereinafter, embodiments of the present invention will be described in detail with reference to the attached drawings.

First, the user terminal 100 is an electronic device for a user in which a user app for providing a block assembly method is installed. As shown in FIG. 1, the user's smartphone or personal computer (desktop, It can be configured using a laptop or tablet).

Therefore, users who wish to use the present invention can register as members without restrictions on gender or age by downloading and installing the user app provided through the Internet on their smartphone or personal computer, then running it, and logging in after registering. The block assembly method of the present invention can be provided by sequentially making several selections.

However, the membership registration process as described above is not necessarily necessary, and if necessary, the user can use the present invention simply by installing the user app on his or her smartphone or personal computer.

In addition, the prefabricated block 110 is a block made of paper, wood, or synthetic resin that is physically provided to the user, and is assembled into a shape that fits together using grooves formed at the ends to create a two-dimensional shape such as a circle, square, or triangle. It is possible to implement various three-dimensional shapes such as shapes, cubes, and triangular pyramids.

At this time, as shown in FIGS. 2A to 2F, the prefabricated block 110 includes a cross-shaped block 111, a Y-shaped block 112, an L-shaped block 113, and a cross-shaped block 111 with a straight groove formed at each end. It may be composed of one or more of the ㅗ-shaped block 114, straight block 115, or radial block 116, and multiple of the same type are provided so that the user can freely create two-dimensional or three-dimensional shapes. It must be possible to implement it.

Therefore, the user can receive the prefabricated block 110 by participating in a class conducted using the present invention, or purchase the prefabricated block 110 online using the purchase page or purchase link provided through the user app. During the purchasing process, you can select the type, material, color, and quantity of the prefabricated block (110).

More specifically, a user wishing to use the present invention runs the user app installed on the user terminal 100 and logs in according to the configuration, or immediately assembles blocks using the selection menu displayed on the screen of the user terminal 100. Selection of methods can be initiated.

That is, as shown in FIG. 3A, when the user app is running, several block shapes are displayed on the screen of the user terminal 100 for the user to select, and the user selects one or more of them. By selecting the shape, you can move on to the next step.

At this time, the block shape displayed on the screen of the user terminal 100 may be composed of a cross, triangle, ㄴ-shape, ㅗ-shape, straight, and radial, and only one or more block shapes selected by the user can be used to configure the final shape and block. It can be used to provide an assembly method.

Subsequently, as shown in FIG. 3B, the user selects various types of shapes displayed on the screen of the user terminal 100 in the next step, that is, two-dimensional shapes such as circles, triangles, and squares, or 3-dimensional shapes such as cubes and triangular pyramids. You can select one or more of the dimensional shapes in the same way as the block shape, and you can select, enter, or change the size of the shape you selected.

And after both selection and input are completed, the final shape can be provided by touching or clicking the input button on the screen that creates the final shape.

That is, based on the above user selection, as shown in FIG. 3C, the final shape of the assembled figure is generated in the user terminal 100 in a way that the block shapes selected by the user are fitted together, and displayed to the user through the screen. It is provided to the user, and the type and number of prefabricated blocks 110 for constructing the final shape are displayed on the same screen for the user to refer to.

At this time, the final shape provided to the user may only be provided as a 2D picture or drawing in the case of a two-dimensional figure, but in the case of a three-dimensional figure, it may be provided as a 3D picture or drawing to enable confirmation from various directions.

Then, the user checks the final shape and the type and number of blocks provided through the screen of the user terminal 100, returns to the previous step, and reselects all or part of the final shape and the type and number of blocks. By rechecking or confirming as is, the block assembly method to complete the final shape can be provided as visualization data on the screen.

At this time, the visualization data provided through the user terminal 100 is based on the first prefabricated block 110, the other prefabricated blocks 110 are assembled one by one, and the shape until the last prefabricated block 110 is assembled is in order. It may consist of a number of pictorial materials shown as shown.

In addition, the user can assemble the prefabricated block 110 by referring to the block assembly method by loading the following picture data one by one by touching the screen or entering a button, or by automatically switching picture data at preset times. It can be implemented.

In addition, the visualization data provided through the user terminal 100 shows the shape until the last prefabricated block 110 is assembled by assembling several other prefabricated blocks 110 based on the first prefabricated block 110. It may consist of a number of pictorial materials presented in sequence.

Likewise, the user assembles the prefabricated block 110 by referring to the block assembly method by loading the following picture data one by one by touching the screen or inputting a button, or by automatically switching picture data at preset times. can be carried out.

At this time, in the above-described embodiments, if the user terminal 100 is configured as a smartphone or a tablet PC equipped with a voice recognition function, the user can use the voice recognition function provided through the user app to obtain picture data. You can have them switch automatically one by one.

In other words, the user speaks out loud a preset word such as 'next', 'pass', 'next', or a sentence such as 'Turn the page' to switch the picture material to the next page. Alternatively, you can switch to the previous page, and you can also use it by directly setting a specific word or sentence.

In addition, the visualization data provided through the user terminal 100 is an animation showing the shapes in order from when the other prefabricated blocks 110 are assembled to the first prefabricated block 110 one by one until the last prefabricated block 110 is assembled. It may be composed of materials, and the user can assemble the prefabricated blocks 110 by following the animation played on the screen of the user terminal 100.

In addition, the numbers from the first prefabricated block 110 to the last prefabricated block 110 are displayed in order in the above-mentioned picture data or animation, allowing the user to follow the assembly order in order without being confused.

Additionally, the user selects one or more of several block shapes provided on the screen of the user terminal 100 (FIG. 3A), selects one or more shapes (FIG. 3B), and then arbitrarily configures the final shape. You can touch or click the input button on the screen.

In other words, the user can construct the desired shape using one or more shapes selected by the user on a newly provided screen by selecting an arbitrary configuration of the final shape, and the block shapes selected by the user can be modified or confirmed as is. The final shape of the assembled figures can be created by fitting them together.

At this time, the user can copy the shape in a designated way, such as touching or clicking the shape twice in succession on the screen and use it to construct the desired shape, as well as using another designated method, such as touching or clicking the shape three times in succession. You can change the size of the shape.

In addition, as shown in FIG. 4, the user selects one or more of several block shapes provided on the screen of the user terminal 100 and inputs the horizontal length, vertical length, and height without selecting the shape. You can select the size of the virtual space in which the final shape of multiple block shapes assembled will be placed, and then select the number of block shapes to be assembled.

That is, the user can touch or click an input button on the screen that allows random configuration of the final shape while selecting one or more of several block shapes on the screen of the user terminal 100.

Based on the user's selection as described above, the user terminal 100 can randomly generate a model shape of a size that can be included inside the virtual space, and a figure assembled in a way that the block shapes selected by the user are fitted together. The final shape can be created and provided to the user through a screen, and the type and number of prefabricated blocks 110 for constructing the final shape can be displayed on the same screen for the user to refer to.

Then, the user checks the final shape provided through the screen of the user terminal 100 and the type and number of prefabricated blocks 110, and creates a new final shape under the same conditions or returns to the previous step to change the horizontal length and vertical You can re-create the final shape by re-selecting the length, height, and number of block shapes to be assembled. By confirming the final shape without re-selection, you can see on the screen how to assemble the blocks to complete the final shape. It can be provided as visualization material.

At this time, the visualization data provided to the user by the user terminal 100 may consist of one or more of a plurality of picture data or animation data, and the method of using the provided data and other additional details are the same as the other methods described above. same.

Therefore, the user can implement the actual shape as shown in FIG. 5 using the prefabricated block 110 by referring to the visualization data provided through the screen of the user terminal 100.

Meanwhile, after the final shape as described above is provided, a purchase link that allows the user to purchase online the type and number of prefabricated blocks 110 used to construct the final shape is displayed on the screen of the user terminal 100. may be displayed, and the user can use the purchase link to purchase the exact type and quantity of prefabricated blocks 110 for actual assembly of the final shape, or purchase the quantity freely.

The embodiments introduced above are provided as examples so that the technical idea of the present invention can be sufficiently conveyed to those skilled in the art to which the present invention pertains, and the present invention is limited to the embodiments described above. It is not limited and may be embodied in other forms.

In order to clearly explain the present invention, parts not related to the description are omitted from the drawings, and in the drawings, the width, length, thickness, etc. of components may be exaggerated or reduced for convenience.

Additionally, like reference numerals refer to like elements throughout the specification.

100: user terminal
110: prefabricated block
→ 111: cross-shaped block
→ 112: Y-shaped block
→ 113: L-shaped block
→ 114: ㅗ-shaped block
→ 115: straight block
→ 116: Radial block

Claims (4)

A user app is installed,
Allows the user to select one or more of the various block shapes provided on the screen,
Allows you to select one or more of several types of shapes,
Allows you to select the size of the selected shape,
A user terminal 100 that provides visualization data of a final shape assembled in a form in which a plurality of block shapes are fitted together based on user selection and a method for assembling the final shape; and,
A plurality of prefabricated blocks 110 composed of various shapes that can be assembled into a shape in which a straight groove is formed at the end and fit together, and are physically provided to the user; It is composed including,
The user terminal 100,
Allows the user who selects one or more of the various block shapes provided on the screen to select the size of the virtual space where the final shape assembled from multiple block shapes will be placed by entering the horizontal length, vertical length, and height.
Allows you to select the number of block shapes to be assembled,
Based on the user's selection, a shape of a size that can be included inside the virtual space is randomly configured and provided as a final shape assembled in a form where multiple block shapes are fitted together.
A system for providing a block assembly method, characterized in that the final shape can be reconfigured and provided according to the user's selection, or the method for assembling the final shape can be provided as visualization material.
According to paragraph 1,
The prefabricated block 110 is,
Any of the cross-shaped block 111, Y-shaped block 112, L-shaped block 113, ㅗ-shaped block 114, straight block 115, or radial block 116, in which one straight groove is formed at each end. A system for providing a block assembly method, characterized in that it consists of one or more blocks.
delete According to paragraph 1,
After the final shape is provided, a purchase link that allows the user to purchase online the type and number of prefabricated blocks 110 used to construct the final shape is configured to be displayed on the screen of the user terminal 100. A system that provides a block assembly method characterized by: