WO2015174653A1 - Method for dividing virtual space by using partitioning walls - Google Patents

Abstract

The present invention provides a technique which is useful when a constantly fixed space is divided into several small spaces to be used for the same use or different uses and when various kinds of fixtures, equipment and the like are arranged in the small spaces. According to the present invention, when a virtual space having the same shape, area and the like as those of an actual space is generated on the Internet, the virtual space can be applied to the actual space, as it is, by dividing the virtual space into a plurality of small spaces by means of partitioning walls so as to satisfy several conditions such as a movement line and lighting such that the small spaces are three-dimensionalized.

Description

Virtual Space Partitioning Method using Partition Wall

The present invention relates to a method of dividing a virtual space provided on-line in correspondence with a real space into a plurality of small spaces using partition walls.

In more detail, the present invention is to divide the fixed space into a number of small spaces for use for the same or different purposes, and to be useful for arranging various appliances and fixtures in these small spaces. When a virtual space having the same conditions (shape, area, etc.) as a real space is created, the virtual space is divided into three small spaces by a partition wall and three-dimensionally so as to satisfy various conditions such as a moving passage and lighting. It is intended to be applied as is.

The present invention relates to a space partitioning method using partition walls in a narrow sense, and to a space interior in a broad sense.

In recent years, with the rapid spread of the Internet communication network and computers, the field using computers is rapidly expanding to all industrial fields without staying in computerization work.

This trend has been developed to create a virtual space corresponding to the real space online, and to decorate (design) various appliances and fixtures within a limited space. A representative example of this technique is the so-called e-model house.

However, the e-model house uniformly divides spaces with predetermined areas such as rooms, living rooms, kitchens, bathrooms, entrances, etc., and arranges furniture necessary for the real life of residents in these divided spaces. It is only to show, the technology that the spatial division is variable according to the given conditions have not yet been implemented.

For example, when it is necessary to divide a fixed space such as an office, a school, or a corporate counseling office into several small spaces by using partition walls, the moving lines, lighting, etc. of users who use these spaces may be divided. It is important to design to satisfy various conditions such as illuminance. If this technique is developed, it can be very effectively used for variable space division.

[Prior literature]

Patent Publication 10-2011-0105532 (2011. 09. 27. published)

Patent Publication 10-2003-0070524 (published Aug. 30, 2003)

The present invention was devised to solve the above-mentioned problems of the prior art, and an object of the present invention is to divide a virtual space given as a large space into a plurality of small spaces by using a partition wall to satisfy various conditions, and actually The present invention provides a method of partitioning a virtual space using partition walls, which allows a series of flows to be applied to the space to be performed online.

The virtual space partitioning method using the partition wall of the present invention for achieving the above object, the building name, address, area, horizontal and vertical length, the current number of illumination, illuminance, the installation position of the actual space information from the user terminal to the interior server The first step to do; A second step of checking whether the actual space is a place where a business can be desired based on a building name and address among the received information; A third step of creating a virtual space corresponding thereto based on the received actual space information when it is determined that the business of the desired business is possible in the second step; A fourth step of receiving partition wall shape, size, door access, the number of people to be accommodated in the virtual space, the number of rooms and necessary illuminance, which are information for dividing the virtual space generated in the third step into a plurality of small spaces; Generating a plan view for dividing the virtual space into a plurality of small spaces by linking the information transmitted in the first step and the information received in the fourth step; Selecting a partition wall for dividing the virtual space into a plurality of small spaces according to the plan view generated in the fifth step; A seventh step of dividing the virtual space into a plurality of small spaces by applying the partition wall selected in the sixth step to three-dimensionally showing the three-dimensional space; Determining whether the virtual space design completed in the seventh step is satisfied; And a ninth step of ordering the partition wall to be arranged in the real space according to the satisfaction in the eighth step and determining the manufacturing period, the cost, and the construction period accordingly.

In the plurality of small spaces to be divided, necessary illuminance is calculated in connection with the presence of a window, and the position and number of lighting lamps are determined according to the calculated illuminance, and the moving line and the moving line between the small spaces are considered. It is characterized in that it is generated.

The plurality of small spaces to be divided are calculated in consideration of required illumination in connection with a window, and is determined in consideration of the installed positions of the calculated illumination and illumination.

The movement line between the small spaces is characterized in that it is determined in consideration of whether the door is installed on the partition wall forming the small space.

The virtual space divided into a plurality of small spaces by using the partition wall is provided as a three-dimensional image.

According to the virtual space partitioning method using the partition wall of the present invention, the virtual space is divided into a plurality of small spaces by various partition walls in consideration of given conditions, and can be applied to the actual space in the offline construction. This allows a spatial partitioning configuration that is most appropriate and satisfactory to the customer's requirements.

In addition, according to the present invention, it is possible to meet the customer's visual needs as much as possible, saving time and money.

1 is a system configuration diagram for performing a virtual space partitioning method using partition walls according to the present invention.

2 is a configuration diagram of the interior server of FIG.

3 is a flow diagram of virtual space partitioning and partition wall ordering using partition walls according to the present invention.

4 is an exemplary view of a virtual space in which a virtual space is partitioned using partition walls according to the present invention.

5 is a plan view of a virtual space in which the virtual space is partitioned using the partition wall according to the present invention.

6 is a diagram illustrating various examples of partition walls for virtual space division according to the present invention;

7 is an exemplary diagram of virtual space partitioning using partition walls according to the present invention.

FIG. 8 illustrates an example of dividing a virtual space using the partition wall of FIG. 6. FIG.

9 to 11 are exemplary views of a three-dimensional image of a virtual space for partitioning a virtual space using partition walls according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

As shown in FIG. 1, the present invention provides information for creating a virtual space corresponding to a real space (building name, address, area, length and length, current number of illumination, illuminance, location, etc.), and the virtual space. Based on the information necessary for partitioning into small spaces (partition wall shape, size, door access, number of people to be accommodated in the virtual space, number of rooms, illumination, moving lines, etc.) and the information, the virtual space divided into a plurality of small spaces The virtual terminal is divided into a plurality of small spaces based on the user terminal 10 generating a purchase request for a partition wall for constructing a corresponding real space and the information received from the user terminal 10, and the divided small spaces The interior server 20 is made to order partition walls so that the space is realized in the actual space.

The user terminal 10 is a terminal that communicates with the interior server 20 through a network, and may be a personal computer (PC) that is generally used. In addition to the personal computer, various devices capable of communicating with the interior server 20 through a wired network or a wireless network, such as a smartphone, a tablet PC, a laptop, and the like, may be used as the user terminal 10.

When the interior server 20 receives information about the real space from the user terminal 10, the interior server 20 provides the corresponding virtual space to the user terminal 10, and when receiving various types of information from the user terminal 10, these information. By designing them, the most efficient layout structure of virtual space can be derived. In addition, when the interior server 20 receives the order for the partition wall from the user terminal 10, the interior server 20 outputs the order so that the administrator can monitor.

In order to perform these functions, the interior server 20 is an interface 21 for communication with the user terminal 10 through a network as shown in FIG. 2, and an input unit 23 for inputting various control signals through a user. The storage unit 24 stores and manages a program for dividing a virtual space into a plurality of small spaces by linking various types of information received from the user terminal 10, and partition wall order information for forming a divided small space. An output unit 25 for outputting monitoring information, and a control unit 22 for controlling the overall operation of dividing the virtual space into a plurality of small spaces by reflecting the various information in the program stored in the storage unit 24.

The controller 22 may include a number of small spaces having the same or different areas, each of which may be divided into a space having a predetermined area, the number of students accommodated in these small spaces, the number of desks that can be placed in relation thereto, and a small space having an arbitrary area. Illuminance to be irradiated to, illumination position to be installed to achieve such illuminance, illuminance achieved from natural light incident from a window facing the outside, student's moving line around small space, and small spaces The program is driven so that the virtual space is divided into a plurality of small spaces which are most desirable by linking moving lines, main entrance door positions, information desk positions, etc. with information transmitted from the user terminal 10 to the interior server 20. .

In the virtual space dividing method using the partition wall according to the present invention, as shown in FIG. 3, real space information (building name, address, area, length and width, current number of illumination, illuminance, position, etc.) from the user terminal 10 is provided. Transmitting to the interior server 20 (S101); Checking whether a real space is a place where a business can be opened based on a building name and address among the received information (S102); If it is confirmed in the step (S102) that the user can do business of the desired business type, the step of generating a virtual space corresponding thereto based on the received actual space information (S103); Receiving information (partition wall type, size, door presence, number of people to be accommodated in the virtual space, number of rooms, illumination, moving lines, etc.) necessary for dividing the virtual space generated in the step (S103) into a plurality of small spaces (S104); Generating a plan view for dividing the virtual space into a plurality of small spaces by linking the information transmitted in the step S101 and the information transmitted in the step S104 (S105); Selecting partition walls for dividing the virtual space into a plurality of small spaces according to the plan view generated in the step S105 (S106); A design completion step (S107) of dividing the virtual space into a plurality of small spaces by applying the partition wall selected in the step (S106) so that the virtual space can be seen in three dimensions; Determining whether the virtual space design completed in the step S104 is satisfied (S108); And ordering the partition wall to be arranged in the actual space according to the satisfaction in the step S108, and determining the manufacturing period, the required cost, and the construction period accordingly (S109).

Steps S101, S103 to 108 are steps performed by network communication between the user terminal 10 and the interior server 20, and step S102 is an interior server 20 and a business type. If the site is available for business confirmation, for example, if you want to run the school industry, the step is performed by the network communication between the school board and the ward office site, step (S109) is a network communication between the user terminal 10 and the partition wall sales site Step by step.

Hereinafter, the overall operation of the present invention will be described in more detail by dividing or integrating step by step.

1. Create virtual space

When the user terminal 10 and the interior server 20 are network-connected and the information about the actual space is transmitted from the user terminal 10 to the interior server 20, the interior server 20 receives the received information. As shown in FIG. 4, the virtual space 102 corresponding to the real space is created.

The actual space is the interior space for the user to decorate. The virtual space is a space created online by the interior server 20 and is a space in which the size, area, and shape corresponding to the real space are reduced by a predetermined ratio. Accordingly, the size of the partition wall and other components to be disposed in the virtual space is also reduced and displayed on-line at the same rate as the reduction ratio of the virtual space.

The actual space information for creating the virtual space 102 may include horizontal and vertical lengths, ceiling heights, interior construction budgets, and the like.

That is, the user may consider what type of interior is required for the real space, and store and manage the list for the desired interior construction and the budget for the interior construction in the interior server 20. At this time, if you want to decorate the learning room of the school, it is necessary to check whether the building is authorized or approved as the school, such information is to be provided through the school board server and the like linked to the interior server (20).

The interior server 20 generates a virtual space 102 as shown in FIG. 4 and transmits it to the user terminal 10 for storage management.

On the other hand, if the real space is not a quadrangle, the interior server 20 allows to select a virtual space of the form corresponding to the real space.

2. Create Floor Plan

The real space may be a space for performing various kinds of ups. That is, it may be a general office, a shop displaying products, a coffee shop for drinking beverages such as coffee, and a school providing a learning space. The present invention will be described with reference to the case applied to the school.

When the person who wants to operate the academy finds a suitable building for the academy and actually measures the dimensions of the actual space (horizontal, vertical length, ceiling height, etc.), and transmits it to the interior server 20 from the user terminal 10, The interior server 20 checks through the linked site whether the building is open as a school, based on the information (building address, building name, etc.) already received from the user terminal 10.

When it is confirmed that the building can be opened as a school, the interior server 20 is the information received from the user terminal 10 (lights, windows, doors, information desks, partition walls, the number of people to be accommodated in the virtual space, the number of rooms, etc. A plan view 104 is generated as shown in FIG. 5 to achieve a suitable spatial arrangement.

In this case, the plan view 104 is generated based on various types of partition walls as shown in FIG. 6, and these partitions may or may not include doors. Partition wall selection, with or without an entrance door, is determined by referring to the area (size) of the virtual space, the number of people and rooms to be accommodated therein, a desk arrangement, a moving line, and the like.

In addition, depending on the number and location of the lamps mounted on the ceiling or wall, the dark area does not occur out of the irradiation range of the lamps. For example, when a floor plan is generated such that any lamps are located between partition walls forming different spaces, the illumination of the lamps directed to the partitions divided into small spaces by the partition walls is lowered, causing inconvenience to learning. In other words, the illuminance is unnecessarily increased only between partition walls so that such a problem does not occur. However, in the small space formed by opening the window, the natural light reflected through the window can act as a lighting of a predetermined illuminance. Therefore, in view of this point, the illumination of the rough space is generally equal for each small space divided by the partition wall. It is desirable to design it to be investigated. At this time, since the illuminance of natural light will vary according to the weather such as sunny day, cloudy day, rainy day, it is preferable to design in consideration of all these points, but it may be designed simply considering the position and size of the window.

In addition, the present invention does not refer to the position and the number of the lighting lamps of the actual space transmitted from the user terminal 10 to the interior server 20, so that the partition wall is divided into a plurality of small spaces so as to meet the same. The location and number of the lights may be transmitted to the user terminal 10 as separate information so that the number and location of the lights may be changed and installed based on these information in the actual space interior.

In addition, the plan view generation of the present invention is made in consideration of the number of desks (corresponding to the number of people) to be arranged in each divided small space, the teacher's teacher's position to be taught in the divided space, moving lines of students, and the like. For example, suppose that 12 desks are arranged in two rows with the partition wall installed. Do you want to move the student's movement on the desks arranged in the left column to the desks arranged in the right column? In consideration of whether it is between the placed desk and the partition wall arranged on the left side, it is created to secure the most suitable moving line.The further consideration is the opening / closing structure of the window (sliding or opening type) and the distance (width) of the moving passage. How much should be done, and where the doors of the small space divided by the partition wall are installed. For example, if the distance between the small spaces is designed to be 1 meter, but the small spaces are formed in such a way that the small space doors face each other, the width of the door and the doors may be bumped if the doors are opened at the same time. It is desirable to design a variable width in consideration of the problem, and to stagger the door positions of the small spaces so that the possible doors are not opened at the same position.

In addition, the moving line between the small spaces divided by the partition wall, that is, the moving line distance when going out of the small space and going out of the real space through the main entrance door is designed to secure the most effective moving line.

As such, the interior server 20 reflects all of the above considerations, and generates the floor plan 104 as shown in FIG. 5 by dividing it into a lecture room, a corridor, a information desk, and the like.

After checking the floor plan 104 provided by the interior server 20, the user may change various locations, sizes, and shapes of lecture rooms, hallways, and information desks.

Such a virtual space design may indicate the dimensions of the point where the partition wall is installed so as to be applied to the real space, and the positions of the desks and the desks disposed in the small space divided into the partition walls may also be indicated by the dimensions. have.

3. Partition wall selection

When information about the partition wall to be arranged according to the plan view is transmitted from the user terminal 10 to the interior server 20, the interior server 20 arranges the received partition wall in the virtual space.

That is, when the floor plan is generated as shown in FIG. 5, the interior server 20 selects a suitable partition wall from among various types of partition walls 106a to 106d as shown in FIG. 6.

As shown in FIG. 6, the partition wall includes a '-shaped' 106a consisting only of a front surface on which an entrance door is formed, a 'shaped' 106b consisting of the front side and a first side connected thereto, the front surface and its A 'form' 106c having a first side and a second side connected to both sides, and a 'form' 106d having a front side and a first side and a second side connected to both sides and a rear surface opposite to the front side It can be formed as one, in addition to this can be applied in various forms depending on the shape of the classroom and hallway.

4. Design finished

The interior server 20 uses the generated floor plan and the partition wall information transmitted from the user terminal 10 to store the partition walls 106a to 106d in the virtual space 102 as shown in FIG. 7. Provide design 108. FIG. 7 shows one '-shaped' partition wall 106b, two 'shaped' partition walls 106b, one 'shaped' partition wall 106c, one 'shaped' partition wall 106d and a reception desk. An interior design 108 consisting of 107 is illustrated.

The partition wall may be variously classified according to its shape as described above, but may be variously classified according to the position of the door. That is, in the case of the 'shaped' partition wall 106c, the door is formed on the wall corresponding to the front in Figure 6, the door is formed on the wall corresponding to the side in FIG. Therefore, the user must transmit the information on the door as well as the partition wall to the interior server 20. However, as shown in FIGS. 4 to 7, since the interior server 20 provides various images, the user can correct errors while visually confirming these images, and finally, as shown in FIG. 7. The virtual space design 108 may be created.

On the other hand, in addition to the type of partition wall shown in Figure 6, Figure 7, the partition wall 106e of the form consisting of the front and back should be additionally used. That is, as described above, the partition wall may be manufactured in various shapes in addition to the shape shown in FIG. 6, and the '11' formed on the front and rear of the partition wall 106d illustrated in FIG. A mold partition wall 106e must be disposed.

The final virtual space design 110 in which the '11 type 'partition wall 106e is disposed is shown in FIG.

The interior server 20 may provide a design of the virtual space in which the partition wall is disposed as a 3D image as illustrated in FIGS. 9 to 11.

When the virtual space design is generated, the interior server 20 may provide a three-dimensional view of a corridor formed by partition walls as shown in FIG. 9. Such a three-dimensional image can be provided by the user selecting a view from various locations.

For example, when requesting a view at the X position of the virtual space design 108 as shown in FIG. 7, the interior server 20 views the view at the X position as shown in FIG. 9. ) Can be provided in three dimensions.

In addition, if a view from the Y position of the virtual space design 108 as shown in FIG. 7 is requested, the interior server 20 displays the view from the Y position as shown in FIG. 10. It can be provided in three dimensions.

In addition, the image as shown in FIGS. 9 and 10 may be provided even before the virtual space design 108 as shown in FIG. 7 is completed. That is, the three-dimensional image shown in FIG. 10 is a three-dimensional image before the 'type' partition wall 106d and the '11' partition wall 106e are formed.

Therefore, the user can directly design what he / she wants while being provided with the same images that are directly visible in the real space.

Meanwhile, the partition walls 106a to 106e may be provided in the form as shown in FIG. 8. Although the door is mounted on the virtual partition wall illustrated in FIG. 8, a partition wall without the door may be provided. In addition, the partition wall may be provided in the same form as the partition wall installed in the actual space.

That is, the interior server 20 provides a virtual space design using a virtual partition wall of the same type as the partition wall applied to the actual interior construction, so that the virtual server design is finally completed by the actual interior construction. The interior space is the same form.

5. Partition wall order

When the virtual space design as shown in FIGS. 7 and 9 to 11 is completed, the partition wall is ordered through the user terminal 10.

In this case, the interior server 10 may transmit the cost of the partition wall, the cost for installing the partition wall, and the construction period for installing the partition wall to the user terminal 10. Therefore, the user checks this information and orders the partition wall.

On the other hand, interior construction for installing the partition wall in the interior space, in addition to the partition wall installation, a variety of decorations, for example, additional interior parts such as the finishing material of the partition wall, the lamp as shown in Figs. Can be. Therefore, the user can select components other than the partition wall according to the menu provided by the interior server 20.

When a partition wall order is received from the user terminal 10 requesting to install a partition wall corresponding to the virtual partition wall in a real space using the virtual space design, the interior server 20 receives the partition wall order. Print out for administrator confirmation.

6. Conduct construction

According to the partition wall order, information on the production period, cost, construction start and end date, etc. of the partition wall is transmitted to the user terminal 10 through a communication method such as telephone or e-mail.

Therefore, the contractor performs the interior construction that is placed in the real space after the partition wall is manufactured.

As described above, the present invention is a method of allowing the interior construction to be carried out at a low price by stocking the size of the actual space to be directly decorated by the user and assigning a manual design to the actual space.

The present invention allows the user to directly select the number and type of partition wall required to newly divide the real space online, thereby reducing the construction period, reducing labor costs and minimizing the burden on the user, and improving the operating profit by advancing the business day. It can be maximized.

In addition, according to the present invention, since the actual space design using the partition wall is selected according to the manual, the contractor and the user can share the design cost, thereby reducing the burden on the user for high-quality interior design.

The present invention actively uses partition walls used for interiors having the following characteristics.

First, the partition wall applied to the present invention can be manufactured by covering the finishing material on the standardized gypsum partition and can be prefabricated.

Second, the gypsum partition used for the manufacture of the partition wall can be produced by putting a filler (honeycomb) in the gypsum board made of gypsum as the main raw material, the gypsum partition can be manufactured in a lightweight.

Third, because the partition wall made of gypsum partition can be constructed by a construction method such as night light partition, construction time can be shortened, and interior cost can be reduced by shortening the air.

Fourth, the partition wall made of gypsum partition is excellent in incombustibility and sound insulation, and easy to assemble, dismantle and cut. That is, since the main material of the partition wall is gypsum, it is excellent in nonflammability, reverse resistance and heat insulation. In addition, the partition wall applied to the present invention, using a lightweight steel, can be constructed in the same way as the beamlight partition construction, it is easy to construct because it can be cut according to the required specifications in the field.

Fifth, the surface of the partition wall made of gypsum partition can be variously finished with paint, wallpaper, and the like.

On the other hand, when the partition wall is installed in the actual space according to the design of the virtual space, the outer surface of the partition wall may be paved by a paper or a separate finishing material.

Those skilled in the art to which the present invention pertains will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. Therefore, the embodiments described above are illustrative in all respects. It is to be understood that the present invention is not restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts should be construed as being included in the scope of the present invention. do.

Claims (5)

1. A first step (S101) of transmitting, from the user terminal 10, the building name, address, area, width and length, current lighting number, illuminance, and installation location, which are actual space information, to the interior server 20;

   A second step (S102) of checking whether a real space is a place where a business can be desired by a user based on a building name and address among the information received in the first step;

   A third step (S103) of generating a virtual space corresponding thereto based on the received real space information when it is determined that the business of the desired business type is possible in the second step (S102);

   Receiving the partition wall shape, size, door access, the number of people to be accommodated in the virtual space, the number of rooms required, illuminance and moving lines, which are information for dividing the virtual space generated in the third step (S103) into a plurality of small spaces A fourth step (S104);

   A fifth step (S105) of generating a plan view for dividing the virtual space into a plurality of small spaces by linking the information transmitted in the first step (S101) and the information transmitted in the fourth step (S104);

   A sixth step (S106) of selecting partition walls for dividing the virtual space into a plurality of small spaces according to the plan view generated in the fifth step (S105);

   A seventh step (S107) of dividing the virtual space into a plurality of small spaces by applying the partition wall selected in the sixth step (S106) to three-dimensionally;

   An eighth step (S108) of determining whether the virtual space design completed in the seventh step (S107) is satisfied; And

   According to the eighth step (S108) according to the satisfaction of the partition wall to be arranged in the actual space and according to the ninth step (S109) to determine the manufacturing period, cost and construction period according to the virtual using the partition wall Space division method.
2. According to claim 1, The plurality of small spaces are divided, the required illumination is calculated in conjunction with the window, the location and the number of installation of the lamp according to the calculated illumination is determined, the moving line and the small space in the small space Virtual space partitioning method using the partition wall, characterized in that generated in consideration of the moving path between the two.
3. The virtual space using the partition wall according to claim 1, wherein the plurality of divided small spaces are calculated in consideration of required illumination in connection with a window, and are determined in consideration of calculated positions of installed illumination and lighting. Division method.
4. The method of claim 1, wherein the moving line between the small spaces is determined in consideration of whether a door is installed in the partition wall forming the small space.
5. The method of claim 1, wherein the virtual space divided into a plurality of small spaces by using the partition wall is provided as a three-dimensional image.

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