阅读说明：本技术 模块化家具布置 (Modular furniture arrangement ) 是由 T·莫里摩托 于 2015-08-28 设计创作，主要内容包括：一种模块化家具布置,该模块化家具布置包括能机械和电气附装的模块化家具元件(102)以及能附装至所述模块化家具元件的应用功能模块(118),在所述模块化家具元件内布置有彼此电隔离开的至少两个导电结构(108),所述结构(108)既作为机械固定装置又作为电导体在模块化家具元件之间以及在模块化家具元件与至少一个应用功能模块之间操作。所述模块化家具布置包括通过机械固定方法和电气固定方法中的至少一种方法附装模块化家具元件(102)的至少一个附装部件(103)。该模块化家具布置进一步包括位于所述模块化家具元件(102)和所述应用功能模块(118)之间的电连接(112)以在所述模块化家具元件(102)和所述应用功能模块(118)之间传导电力。(A modular furniture arrangement comprising mechanically and electrically attachable modular furniture elements (102) and an application function module (118) attachable to the modular furniture elements, within which modular furniture elements at least two electrically conductive structures (108) are arranged electrically isolated from each other, the structures (108) operating both as mechanical fixation means and as electrical conductors between modular furniture elements and at least one application function module. The modular furniture arrangement comprises at least one attachment part (103) for attaching a modular furniture element (102) by at least one of a mechanical fixation method and an electrical fixation method. The modular furniture arrangement further comprises an electrical connection (112) between the modular furniture element (102) and the application function module (118) to conduct electrical power between the modular furniture element (102) and the application function module (118).)

1. A modular furniture arrangement, characterized in that it comprises:

modular furniture elements (102) mechanically and electrically connectable to each other; and

at least one application function module (118) attachable to the modular furniture element and selectable according to an application,

wherein the modular furniture element and the at least one application function module are arranged to comprise means (111) for transferring information between the modular furniture elements (102), between the modular furniture elements (102) and the at least one application function module (118), and between the at least one application function module (118) and a smart device.

2. Modular furniture arrangement according to claim 1, characterized in that the modular furniture arrangement comprises sensors and measuring systems for identifying the gender of a person and the size of a person in the vicinity and for storing data resulting from the interaction between a person and the furniture structure constituted by the modular furniture arrangement.

3. A modular furniture arrangement according to claim 1, characterised in that the modular furniture arrangement comprises one or more sensors for detecting the presence of a person.

4. A modular furniture arrangement according to claim 3, wherein the one or more sensors comprise at least one of: motion sensors, thermal sensors, and sound sensors.

5. A modular furniture arrangement according to claim 3, comprising a processor configured to implement at least one of the following based on data generated by the one or more sensors: access control, burglar alarm and presence control.

6. Modular furniture arrangement according to claim 1, characterized in that the modular furniture arrangement comprises one or more changeable surface elements (137) on a surface of a furniture structure constituted by the modular furniture element and the at least one application function module.

7. Modular furniture arrangement according to claim 6, characterized in that the one or more changeable surface elements (137) are mechanically positioned and magnetically fixed on the surface of the furniture structure.

8. A modular furniture arrangement according to claim 6, characterised in that the modular furniture arrangement comprises conductor lines between the surface of the furniture structure and the one or more changeable surface elements.

9. Modular furniture arrangement according to claim 1, characterized in that the modular furniture element (102) and/or the at least one application function module (118) comprises conductor means (134) for transferring data.

10. Modular furniture arrangement according to claim 9, characterized in that the sliding conductor part (135) for attaching the modular furniture element (102) and the at least one application function module (118) to each other comprises a further conductor device (136) for transferring data between the modular furniture element and the application function module.

11. Modular furniture arrangement according to claim 1, characterized in that for the case where the modular furniture arrangement is used to constitute a table, the modular furniture arrangement comprises means for wireless table height adjustment.

12. A method of forming a modular furniture arrangement, the method comprising:

mechanically and electrically connecting modular furniture elements (102) to each other; and

connecting at least one application function module (118) to the modular furniture element, the at least one application function module being selected according to an application,

wherein the modular furniture element and the at least one application function module are arranged to comprise means (111) for transferring information between the modular furniture elements (102), between the modular furniture elements (102) and the at least one application function module (118), and between the at least one application function module (118) and a smart device.

Technical Field

In social infrastructures, different kinds of furniture are used in many different places, for example in offices, living facilities, hospitals, schools, production lines, assembly lines and restaurants, and for example as short-time furniture units in exhibitions.

Background

For example, furniture structures used in offices and residential settings are typically self-contained furniture units that are not functionally connected to computers, telephones, and other devices, but the furniture is used merely as a passive storage location for the individual devices. Advanced integration of furniture has not been successfully formed according to modern general technology. This is why wiring must be established and routed separately in the room and to each device separately. The prior art furniture as a whole also has the disadvantage that they are not adaptable to changes in the use of the room and that the furniture must often be changed completely, which is impractical and not environmentally friendly. Many times, wiring presents more difficulties to furniture display when it is desired to locate electrical devices in the furniture. The limiting factors are cleanliness, decorative appearance, practicality, and a desired free and hygienic surface for work.

Disclosure of Invention

The object of the present invention is an integrated modular furniture construction technique that enables the furniture construction to be adapted to different kinds of applications. This is achieved by a modular furniture arrangement comprising at least on three sides mechanically and electrically attachable modular furniture elements and an application function module attachable to the modular furniture elements, which application function module is selected on the basis of the application, within which modular furniture elements and application function modules at least two electrically conductive structures are arranged, which structures are electrically isolated from each other, which structures operate both as mechanical fixing means and as electrical conductors between modular furniture elements and at least one application function module, and which modular furniture arrangement comprises at least one attachment part for attaching modular furniture elements to form a furniture whole of a desired size, which attachment part comprises at least one feature of a material or a combination of materials, which feature can be processed such that a modular furniture element can be made available by at least one of a mechanical fixing method and an electrical fixing method Attached to each other, the modular furniture arrangement comprising electrical connections between the modular furniture element and the application function module to conduct electrical power between the modular furniture element and the application function module.

The object of the invention is a method of forming a modular furniture unit in which mechanically and electrically attachable modular furniture elements and an application function module, selected on the basis of the application, are connected at least on three sides, inside which at least two electrically conductive structures electrically isolated from each other are arranged, said structures operating both as mechanical fixing means and as electrical conductors between the modular furniture elements and at least one application function module, and in which method modular furniture elements are attached to form a furniture unit of desired dimensions and the modular furniture elements are attached to each other by at least one of a mechanical fixing method and an electrical fixing method by changing at least one characteristic of the material or the material combination of the attachment parts, forming an electrical connection between the modular furniture element and the application function module to conduct electrical power between the modular furniture element and the application function module.

The invention is based on modular furniture elements which are mechanically and electrically attachable by making use of a structure in the attachment of the modular furniture elements, which structure conducts electricity between the modular furniture elements. An application function module may be attached to the modular furniture element, the application function module being selected based on an application, and there being at least one electrical connection between the modular furniture element and the application function module to conduct electrical power between the modular furniture element and the application function module.

The invention is advantageous in that the active structural entity modified according to the invention can be formed from the furniture structure and the device technology according to each application can be integrated into this active structural entity. By using the invention, the need for changing physical furniture parts can be minimized and also the control devices and cables needed for feeding the service voltage can be minimized, when the use of the room and the furniture construction changes.

Drawings

Fig. 1 presents an overview of modular furniture parts geometrically attached to each other according to the invention.

Fig. 2 presents a six-sided modular furniture element.

Fig. 3A presents the structural components and fastening means of the modular furniture component according to the invention.

Fig. 3B presents the structural components and fastening means of the modular furniture according to the invention connected to each other.

Fig. 4 presents an embodiment according to the invention, in which the coupling part is locked or released by means of a tool.

Fig. 5 presents an embodiment according to the invention, in which modular furniture elements or utility function modules can be attached to each other by a rotational movement.

Fig. 6 presents electrically conductive structures formed in a casting of a six-sided modular furniture structure, isolated from one another.

Fig. 7 presents rod-shaped modular furniture elements which are joined to each other by a rotary motion.

Figure 8A presents a wireless desktop according to the present invention with the device assembly rotated into the level of the desktop surface.

Fig. 8B presents a wireless desktop with device components turned up and ready for operation in accordance with the present invention.

Fig. 9A presents the internal structure of a panel-like modular furniture component.

Fig. 9B presents a panel-like modular furniture element which is fixed to a furniture structure and which is capable of attaching, for example, a modular furniture element, an application function module or an actuator to a surface of the modular furniture element by a rotational movement.

Fig. 10 presents the electrical and mechanical fixation of a panel-like modular furniture element.

Fig. 11A presents the entirety of two modular furniture elements fixed with a spacer by a rotary motion in a so-called exploded view.

FIG. 11B presents the assembly of FIG. 11A in the form of a complete assembly.

Fig. 12 presents the internal structure of the spacer presented in fig. 11A to 11B.

Fig. 13A presents at least one pressure channel integrated within the structure of a modular furniture component.

Fig. 13B presents a conductor assembly and an attachment component formed within a modular furniture component or structure employing furniture modules and spacers within which the conductor assembly is formed.

Fig. 14 presents a flexible, wrappable, magnetically pulling surface material.

Fig. 15 presents magnetic fixation by a surface material placing a magnetic sliding member within a fixation groove of a modular furniture element.

Detailed Description

Intelligent, modular furniture in accordance with the present invention can be used in homes, offices, exhibitions, and restaurants, for example. Modular furniture applications can be formed to desired sizes and appearances without the use of tools, screws, or glue. The modular furniture element can be constituted by six-sided elements with different kinds of sizes and shapes, and if necessary by furniture of at least five-sided corner pieces. A modular furniture element is a whole of different sizes and shapes that can be replicated, for example, into six different orientations. In addition, rods and different types of panels can be attached to the furniture structure. They can be disassembled and assembled into the desired entirety. A useful solution according to the invention also consists in the fact that: each modular element of the furniture structure can be electrically connected to each other and the electrical network can be formed within the structure of the furniture as a whole. The electrical network and the securing mechanism are arranged as a single assembly entity. Various application function modules, i.e. device components, which are supplied with power from the electrical network of the furniture, can be placed in different parts of the furniture structure. Data transmission can take place wirelessly, so that, for example, smart phones and laptops can control furniture structures without difficulty. In demanding containment conditions, such as hospitals, control or data transmission is not allowed to be wrong (wireless connections may cause such errors), and thus data can be transmitted in a wired manner that can be arranged between the module and the surface structure because of its flat shape characteristics. Possible application function modules, i.e. device components, are, for example, computers, tablets, wireless chargers, sound devices, lighting devices and burglar alarms.

Fig. 1 shows that modular furniture element 102 can be of different sizes or shapes having the features described in the figures and description. The modular furniture elements 102 can be connected to each other and assembled into furniture units of different sizes and shapes, so that by means of supporting and fastening means integrated into their structure, it is possible to conduct an operating voltage to each modular furniture element 102 of the furniture structure.

Like the modular furniture element 102, the application function module may be any shape. The application function module feature differs from the modular furniture element in that the application function module has at least one operating function feature in addition to the voltage transmission, and the application function module itself may contain any device such as a speaker, a lamp, a transformer, an inverter, a monitor, and it may be connected to an external control device such as a computer, a telephone, a floodlight. The application function module may replace one or more modular elements.

Fig. 2 presents a six-sided modular furniture element 102, which modular furniture element 102, regardless of its size, is reproducible to six directions to form a furniture entirety of desired size. One or more modular furniture elements 102 or application function modules 118 may be connected to the modular furniture elements 102, or actuators such as, for example, lights, displays, or speakers may be attached directly to the modular furniture elements. The mounting ends 109 of the symmetrical electrically conductive support and fixing elements are realized on at least six sides of the modular furniture element, thereby enabling the modular furniture element to be duplicated in any direction to form the desired furniture entirety.

Fig. 3A presents a securing mechanism between modular furniture elements 102 or between an application function module and a modular furniture element. At least five-sided modular furniture elements are fitted to each other by means of conical pivots 104 used as attachment parts, so that the sides of the modular furniture elements are positioned against each other by means of a sliding part as attachment part by pushing this sliding part 103 into the mounting groove 124 of the modular furniture element. The sliding components may feature a conical shape and the modular furniture elements 102 are fixed to each other against each other by pushing them through the conical shape and, if appropriate, the sliding components may be used to conduct electricity between the modular furniture components or to conduct electricity to the application function module.

Fig. 3B presents a sliding part 103 locking two modular furniture elements 102 to each other.

Fig. 4 presents an embodiment of a tool 125 for use in locking or releasing the sliding member. A threaded hole 126 is formed in the sliding part 103 in the sliding direction of the sliding part and a tool 125 is screwed into said hole 125 from the opposite side of the sliding direction, wherein the tool 125 is rotated to the thread of the sliding part 103 and by means of a further rotation the planar surface 107 of the tool is attached to the surface 168 of the modular furniture element, whereby the tool starts pulling the sliding part inwards, which causes the modular furniture elements to press against each other or the modular furniture elements to press against the application function module, the sliding block being releasable from the fixed state from the opposite direction by means of the tool.

In a preferred embodiment of the invention, the modular furniture elements 102 are identical on all sides and their attachment to each other is made by means of a conical seat (mount) of the sliding part 103, wherein it is possible to fasten to possible additional fixing spaces between the modular furniture elements. The electrical connection according to the invention between the modular furniture elements is also formed by the conical sliding part 103. In one embodiment, this can also be utilized in that: in a certain direction, the material of the attachment part 103 is chosen to be not an electrically conductive material, so that the current flow in the furniture construction according to the invention can be limited.

Fig. 5 presents an embodiment in which modular furniture element 102 components or application function modules 118 may be attached to each other by rotation. The conical pivot 104 positions and stabilizes the module and the two female heads 122 can be combined with each other by means of the stud 121. The internal structures 123a and 123b of the casting in the figures are electrically conductive and isolated from each other, and they are arranged in such a way that they form an electrically conductive integrated mechanical structure at least on two sides. The furniture modules 102 may be replicated in one or more directions to form a modular furniture unit, and the application function modules may be attached to the modular furniture element at least at one side.

Fig. 6 presents isolated from each other electrically conductive structures formed within the casting of a six-sided modular furniture element, leading to at least two isolated from each other electrical conductors on at least two sides, which operate both as electrically conductive mechanical fastening structures and as support structures between the modular furniture elements 102 in the furniture structure.

Fig. 7 presents circular rod-shaped modular furniture elements according to an exemplary embodiment of the present invention, which are joined to each other by a conical pivot 104 and are fixed to each other by combining and rotating a male end 113 and a female end 114. Within the casting, the electrically conductive structures 115, which are isolated from each other, operate as both fixtures and electrical conductors. By varying the material of the conical pivot 104, a flexible feature can be provided for attachment of furniture.

Fig. 8A presents a desktop formed by the modular furniture element 102 and the application function module 118, wherein the device components of the application function module are turned into the level of the desktop surface.

Fig. 8B presents a desktop formed by modular furniture elements 102, wherein one modular furniture element 102 is changed to an application function module 118, which application function module 118 is a transformer and is supplied with, for example, an AC voltage, which is converted into a DC voltage to be supplied to the desired modular furniture element 102 and the other application function modules 118. This figure presents an example of an application function module or a device attached to a furniture module. The application function module 118 is powered from the modular furniture element 102 and controlled, for example, by means of a wireless connection. In fig. 8B, a rotating display and keyboard at the level of the desktop is presented, which are integrated into the furniture as an application function module and whose frame part is attached to the electrical and mechanical attachment means of the furniture module, in which frame part an electrically conductive structure is formed, which guides electricity from the modular furniture element to the application function module. The cargo storage compartment is formed in the application function module. The lamp 120 is shown directly connected to the modular furniture element from which the lamp 120 derives its operating voltage.

Fig. 9A presents a situation in which the internal structures 108a and 108b of the panel-like modular structural element 102 casting are structural components that are electrically conductive and isolated from each other, and they are arranged such that they form an electrically conductive integrated mechanical structure at least on two sides. The furniture modules 102 may be replicated to one or more orientations to form a modular furniture unit, and the application function modules may be attached to the modular furniture element at least on one side.

Fig. 9B presents a modular furniture construction in which a panel-like modular construction element 102 is fixed in the centre of the cover, and support structures 108 which are electrically conductive and spaced from each other in the modular furniture element 102 are spaced from each other within the casting.

Fig. 10 presents in more detail the attachment mechanism of the panel-like modular furniture element presented in fig. 9A and 9B. This figure presents an embodiment in which a panel-like modular construction element 102 is electrically and mechanically connected to a sliding part 103 and positioned by the sliding part 103, the sliding part 103 conducting an operating voltage between the modular furniture elements. This figure shows how the modular furniture element 102 can be attached by rotational movement of, for example, a modular furniture element, an application function module, or some actuator.

In the panel embodiments presented in fig. 9A, 9B and 10, there is also provided within the structure a separate conductive structure that operates, in part, as a securing component and a conductive component. In the centre of the panel is arranged a mechanism allowing to fix the actuator by means of the surface material by positioning and rotation. The conical pin operates to strengthen the fixation in its intended to right-hand position, said pin being removable. Mechanical and electrical structures emerging from the four sides of the panel secure the panel to the furniture, after which the horizontal conductive slider locking member is pushed through the securing groove of the modular furniture element into the same shaped groove of the panel and conducts electricity between the modules. Further, a vertical sliding lock component may be attached to the module to perform the same action, but performed vertically.

Fig. 11A shows the entirety of two modular furniture elements 102a, 102b fixed to each other using an attachment part 128, wherein the modular furniture part 102a is fixed by rotation via the sliding part 103 and the modular furniture part 102. Modular furniture elements of any size and shape may be secured to each other by using the attachment component 128 presented in fig. 11A. The attachment means 128 may be of circular or angular form and it may operate as an attachment means, for example, between circular modular furniture modules 102, or it may be connected to one of its application function modules 118 or some sort of actuator 120.

FIG. 11B presents a casting of the attachment member 129 that covers and is isolated from the internal structure of the attachment member in FIG. 11A.

Fig. 12 presents a second modular furniture element locked to the first modular furniture element by means of an attachment means 128, which may take the form of a rod or an angle, by a rotational movement. The two modular furniture elements are attached and positioned to each other by a conical pivot 104 and the flexibility of the attachment point can be changed by changing the material of the conical pivot. By using the sliding portion 103, the furniture modules 102 can be electrically and mechanically connected to each other by the attachment member 128. The component-attaching structure 130 is comprised of at least two distinct, mutually isolated, electrically conductive elements around which a casting is disposed for positioning the modular furniture elements 102 to be secured to one another and for reinforcing the modular furniture elements 102, the casting also electrically isolating the electrically conductive mechanical structure components 130 within the casting from one another. In its embodiment designed to guarantee or enhance the bonding strength, a clamping screw 131 may be provided, the clamping screw 131 passing through a furniture element of any shape, the base of which is provided with an internal thread 132 to be continuously fixed by screwing in one screw. By means of said plurality of screw fixation, the desired stronger attachment between the modular furniture elements can be obtained, irrespective of their size or shape.

Fig. 13A presents at least one pressure channel 133 integrated into the structure of a modular furniture element 102, along which pressure channel 133 for example liquid, gas or air can be transported between at least two modular furniture elements.

Fig. 13B presents a conductor arrangement 134 located within the casting of the modular furniture, the conductor arrangement 134 comprising at least two wires isolated from each other, and the conductor arrangement 134 conducting electricity between at least two modular furniture elements 102 or modular furniture elements and application function modules by sliding a conductor member 135. Formed within the structure of the sliding conductor part 135 is a conductor arrangement 136, identical in form to the conductor arrangement 134, by means of which conductor arrangement 136 electric power is conducted between the modular furniture elements or to the application function module.

Fig. 14 presents a flexible, rollable, magnetically pulling surface material 137, which material 137 is held stationary by a magnetic sliding member 138, which magnetic sliding member 138 is inserted into a fixing groove 124 of a furniture module 102 or application function module 118, wherein said sliding members 138 are positioned and fixed on the basis of their form.

Fig. 15 presents the surface material 137 being magnetically secured by a magnetic slide member 138 located in the surface 124 of the modular furniture element 102.

Next, an embodiment according to the present invention with reference to fig. 1 to 15 is presented. The modular furniture arrangement 100 includes a mechanically and electrically attachable modular furniture element 102 and an application function module 118 attachable to the modular furniture element, the application function module being selected based on the application. At least two electrically conductive structures 108 electrically isolated from each other are arranged within the modular furniture elements and the application function modules, said structures 108 operating as mechanical fixation means and electrical conductors between the modular furniture elements and the at least one application function module. When the application function module 118 is secured to at least one modular furniture element 102, an electrical connection 112 is formed between the modular furniture element 102 and the application function module 118 to conduct electrical power between the modular furniture element 102 and the application function module 118. The electrical connection 112 is formed when the conductive parts (e.g., conductors) of the modular furniture element 102 and the application function module 118 are attached with the fixation. The application function module may be, for example, a device component such as the above-mentioned computer, tablet, wireless charger, sound device, lighting device, and burglar alarm. The modular furniture arrangement comprises at least one attachment part 103 for attaching modular furniture elements 102 to form a furniture entirety of a desired size. The attachment component includes at least one feature of a material or combination of materials that can be manipulated to enable the modular furniture piece 102 to be attached to one another by at least one of a mechanical fastening method and an electrical fastening method. For example, in embodiments using one attachment part 103 for attaching modular furniture elements to each other, the attachment part must be formed with a combination of materials so that the electrically conductive structure between the modular furniture elements is not short circuited, so in this example the entire attachment part cannot be of electrically conductive material. Thus, the material or material properties of the attachment member 103 are formed (i.e., processed) according to different embodiments of the present invention. The attaching member 103 is made of, for example, an electrically conductive material such as a metal or an alloy material (which includes an electrically conductive material). The attachment means for mechanical attachment only may also be a non-conductive material or a mixture of materials.

In an embodiment according to the invention, the modular furniture arrangement may comprise means 111 for transferring information between the modular furniture elements 102 and the at least one application function module 118. At least one panel-like modular furniture element 102, selected according to the application, can be attached to the modular furniture element 102. Such an embodiment is presented in fig. 9A, 9B and 10.

The application function module 118 or the surface element 137 may be attached to the application function module 102 mechanically positioned to the table and magnetically attached using magnetic fixation. The surface elements may be of different sizes and shapes and made of corresponding materials as required by the intended use. The modular furniture arrangement may comprise means 111 for changing the application of at least one application function module 118 by electrical control of the application function module. In which the electrical settings are modified, for example by using the keypad of the application function module 118 by hand (fig. 8A to 8B) or by transmitting information to the means 111 of the application function module via the modular furniture part 102 or by means of a wireless control from a user control device, such as a smartphone, to the application function module 118.

In one embodiment according to the invention, the modular furniture arrangement may comprise electrically conductive structures 108 and attachment means 103 to attach modular furniture elements 102 at their six sides by forming mechanical and electrical attachments, said structures 108 operating between the modular furniture elements both as mechanical fixation means and as electrical conductors. The furniture construction can thus be expanded in, for example, six directions, so that the modular furniture elements retain their electrical network and the possibility of replication. The application function modules 118 may be attached to at least one modular furniture element 102, respectively.

In an embodiment according to the invention, the modular furniture arrangement may comprise means for forming a spring between the attachments between the modular functional elements 102. For example, a stiff and rigid furniture structure can be formed with flexible features by selecting a material for the conical spindle presented in fig. 3A and 5 that is suitable for the desired application or for any other type of attachment component.

The modular furniture arrangement may include a transformer 118 as at least one application furniture module to convert the voltage level to a selected application suitable for the modular furniture arrangement. The following devices may retain the storage cabinet. For example, a transformer module located in a furniture leg may supply, for example, 230V ac voltage, which may be converted to, for example, 19 to 48V dc voltage.

In a preferred embodiment of the invention, an interactive connection is achieved between a person and a furniture structure, wherein the modular furniture arrangement is capable of detecting the presence of a person by means of sensor measurements, such as motion, heat and/or sound measurements. In the furniture construction according to the invention, the measurement results measured by the sensors can be integrated into an intelligent measurement system in which the measurement results of a person can be interpreted in a mutually interactive manner between the modular furniture arrangement and the person. As presence detection features, programmable features such as burglar alarms, presence and/or access controls may be added. This feature may be able to identify the gender of the person and the size of the person in the vicinity, and to store data resulting from the interaction between the person and the furniture structure.

Various application examples according to embodiments of the present invention are presented next.

A) The modular furniture arrangement may be used in a display furniture structure, for example at an exhibition. It can also be achieved by using a stronger material suitable for carrying heavier objects. Its modularity does not limit its use to booths of different sizes. The furniture is easily disassembled to the desired package size for shipping, and in an exemplary embodiment, a demonstration video is played on a screen attached to the display furniture. Furniture is identified when an interested consumer stays nearby. The furniture initiates interaction with the consumer. It is easy for the consumer to give an interest to the content without the need for a minded and time consuming salesman situation. The consumer may call the sales person by means of the furniture or effortlessly dictate his or her contact details to the furniture for future contact.

B) The multi-dimensional building platform enables easy interaction between a person and furniture. The intelligence of the modular furniture construction according to the invention, like in mobile games, is in touch with the interests of people in the vicinity. Sensors attached to the furniture detect the presence of a person and thus wake up the furniture from a sleep mode. The screen integrated into the furniture module makes the problem easy and interesting, and people are not even aware that interactivity has been established and data collection has started. Interaction with machines is easier to achieve than interaction with humans when data is collected. People avoid the investigation of people because they never know how long they will take. With the furniture, it is easy to finish the inquiry without any guilt or cause others to be repugnant.

C) Office furniture arranged according to modular furniture can make great changes to the office through new generation style solutions. The user can modify the furniture in terms of size, shape and associated equipment as he desires. Wireless solutions provide a completely new look to the simplicity and hygiene of an office. The position of the device mounted in the piece of furniture can be changed quite easily. The facing material can be changed to bring a new appearance without the need for a new cabinet of furniture. As an example, an office presenting a CEO: the CEO arrives at his office. He sits down at his desk and the smart phone is set up on the desk to form an integrated platform that starts downloading the phone wirelessly. The master dials the security code of his phone, which wakes up the computer system and the life announcement device of the furniture and starts the person and the connection between them on the smart phone, the computer. The CEO can manage the devices of the entire office building from his desk. Each workstation belonging to the staff is equipped with sensors attached to furniture that makes it easy to track whether the staff is present or not. Access control is facilitated. The system may be placed in an alert mode that detects and alerts of motion during the inhibit period. The display and keyboard can be rotated on the level of the table, where the horizontal surface is integral with the other levels until they are rotated out again and under them, for example, a storage cabinet can be found.

D) In training applications, the integrated devices of the modular furniture structure are fixed to the furniture and they cannot be moved. These devices are electrically safe because no 230 volt AC voltage is supplied to the furniture network. The absence of wires will significantly improve the tidiness and performance of the classroom. The student can ask questions to the teacher in a wireless manner without disturbing others. The system can monitor and save student's sports education in real time. In special educational use, furniture can guide and reward, for example, impatient students, and can form an interesting learning situation similar to a mobile game.

E) The modular furniture arrangement reduces and enhances the work task of restaurant employees, thereby allowing more time to service the consumer. The consumer enters the restaurant and takes his or her order using the display device integrated into the furniture. For orders and payments, furniture may include entertainment items for children to play with and provide easy possibilities for adults to give consumer feedback. Wireless solutions are easier to keep clean.

Modular furniture construction can also function as a replacement for a waiter at a night store. The various LED lighting combinations installed can exist along with the music tempo without any wires.

F) The modular furniture arrangement allows for the formation of a wireless bed for children, for example in the home or hospital, to which application function modules or actuators, which may for example be a display, a loudspeaker, a baby monitor, a heart sensor, a camera, can be wirelessly connected and controlled. For hospital use, parents can easily pay close attention to children in a mobile mode and form a video/audio connection with the help of the furniture.

In an embodiment according to the invention, the control of the modular furniture arrangement may be realized by means of a wired communication connection or by means of a wireless data communication arrangement, for example a mobile device such as a smartphone. In one embodiment of the invention, an unobtrusive conductor line can be incorporated between the surface materials of a material furniture arrangement. Such data transmission along the sides of the modular furniture arrangement may be used, for example, in environments where wireless data communication may have associated uncertainties.

In one embodiment of the invention, the table height adjustment can be made completely wirelessly.

In the embodiment according to the invention, it is possible to use a flat-shaped power supply cable fixed to the floor, which cable is inconspicuous and does not present difficulties for e.g. cleaning work and which cable is not caught. Through which the furniture can be fed with an operating voltage of 110 to 230 ACV.

Although the invention has been described above with reference to the present description and the accompanying drawings, the invention is not limited to the description and the drawings, but can be modified within the scope of the appended claims.