CN210804046U - Functional module system applied to room - Google Patents

Abstract

The utility model provides a functional module system applied to rooms, which comprises a functional module, a module platform and a control system; the module platform is fixedly arranged in a room and is a carrier platform for the functional module in the room; the functional modules are carriers of various functional facilities, and the functional modules are detachably arranged in the module platform and are electrically connected with signal interfaces embedded in the module platform; the control system receives the state information of the functional module through a signal interface pre-embedded in the module platform and sends a control signal to the functional module. The utility model discloses a with the function facility modularization in the room, utilize the installation, the combination of different modules, realize free change, the unified management of function facility in the room to and through the functional and interesting in module interconnection reinforcing room.

Description

Functional module system applied to room

Technical Field

The utility model relates to a room design field specifically is a be applied to functional module system in room.

Background

In the field of traditional architectural house design, particularly hotel guest room design, the situation of single function generally exists, and various room functional designs are uniform and lack of attraction for customers, particularly young customers. In order to meet the requirements of different functions of entertainment and relaxation of customers, the requirements of customers are often met by adding special entertainment facilities in the current hotel design, and the problems of limited entertainment facilities, low degree of individuation and intellectualization and the like exist.

Therefore, the guest room is required to be designed to meet the personalized requirements of customers. However, if various facilities meeting different requirements of customers are simply arranged in a room, it is obviously difficult to put down various facilities in a common room at present, and if the facilities are replaced according to the requirements of users, the design in the hotel room at present cannot meet the requirement of replacing the facilities quickly.

Disclosure of Invention

For solving the problem that prior art exists, the utility model provides a be applied to functional module system in room utilizes the installation, the combination of different modules through the functional facility modularization with in the room, realizes freely changing, the unified management of functional facility in the room to and strengthen the functional and interesting in room through the module interconnection.

The technical scheme of the utility model is that:

the functional module system applied to the room is characterized in that: the system comprises a functional module, a module platform and a control system; the module platform is fixedly arranged in a room and is a carrier platform for the functional module in the room; the functional modules are carriers of various functional facilities, and a plurality of the functional modules are detachably arranged in the module platform and are electrically connected with signal interfaces pre-embedded in the module platform; the control system receives the state information of the functional module through a signal interface pre-buried in the module platform and sends a control signal to the functional module.

In a further preferred embodiment, the functional module system applied to a room is characterized in that: the module platform comprises a sound insulation layer, a fireproof layer, a steel frame layer and a signal interface; the sound insulation layer is laid on the wall of a room, the fire-proof layer is laid on the sound insulation layer, and the steel frame layer penetrates through the sound insulation layer and the fire-proof layer and then is fixedly connected with the wall of the room; a plurality of installation spaces matched with the sizes of the functional modules are formed in the steel frame layer, and a signal interface is arranged on the surface of the fireproof layer of each installation space.

In a further preferred embodiment, the functional module system applied to a room is characterized in that: and signal wires of the signal interface are laid between the fireproof layer and the sound insulation layer and collected to the control system.

In a further preferred embodiment, the functional module system applied to a room is characterized in that: the functional module comprises a shell, a back cover plate, a front cover plate, a circuit bin and a signal connector; the size of the shell is matched with the size of an installation space in the steel frame layer; the front cover plate and the back cover plate are arranged at two ends of the shell; the signal connector is arranged on the back cover plate; the circuit bin is arranged on the rear side inside the shell, a circuit board corresponding to the function realized by the functional module is installed in the circuit bin, and the circuit board is in signal connection with the signal connector.

In a further preferred embodiment, the functional module system applied to a room is characterized in that: the module platform comprises a wall surface module platform and a ground module platform, and the function modules are also divided into wall surface function modules and ground function modules; the wall function module is detachably mounted in the wall module platform, and the ground function module is detachably mounted in the ground module platform.

In a further preferred embodiment, the functional module system applied to a room is characterized in that: in the wall surface functional module, strip-shaped grooves are formed in the upper parts of the left side surface and the right side surface in the shell; the left side and the right side of the front cover plate are provided with cylindrical rotating shafts; the cylindrical rotating shaft is arranged in the strip-shaped groove; after the front cover plate rotates around the cylindrical rotating shaft and is turned up, the front cover plate can be pushed into the upper side inside the shell along the strip-shaped groove.

In a further preferred embodiment, the functional module system applied to a room is characterized in that: in the wall surface functional module, magnets are arranged on the upper side and the lower side of the front cover plate; the edge of the lower part of one end of the shell, which is provided with the front cover plate, is also provided with a magnet which can be attracted with the magnet on the lower side of the front cover plate; the surface of the back cover plate facing the inside of the shell is also provided with a magnet, and the back cover plate can be attracted with the magnet on the upper side of the front cover plate after being pushed into the inside of the shell.

In a further preferred embodiment, the functional module system applied to a room is characterized in that: in the ground functional module, reinforcing ribs are fixed on four side surfaces in the shell and the back surface of the front cover plate; a circle of bracket is fixed on the inner side of one end of the shell, which is provided with the front cover plate, and the back of the bracket is also supported by a reinforcing rib; the bracket is used for supporting the front cover plate.

In a further preferred embodiment, the functional module system applied to a room is characterized in that: the steel frame layer consists of a keel, an extending beam and a fixing sheet; the keel is made of square steel, the extending beam is made of T-shaped steel, and the fixing piece is made of angle steel; the fixing piece is fixed on the wall surface through screws, the keel is connected with the fixing piece through bolts, and the extending beam is connected with the keel through bolts.

In a further preferred embodiment, the functional module system applied to a room is characterized in that: the control system comprises a master control module and a USB-TTL switching chip; the USB-TTL switching chip accesses a circuit board in the functional module to the master control module to carry out serial port communication; and the master control module receives the state information of the functional module and sends a control signal to the functional module.

Advantageous effects

The utility model provides a be applied to functional module system in room will have the facility modularization of specific function, make full use of module production convenient, convenient assembling's characteristics still extend the function. In the design process of the functional module system, the utility model ensures that the room has a structure and a circuit which can conveniently provide support and energy supply for various functional modules through the design of the module platform, and simultaneously meets the safety requirement; and the communication and the replaceability among the functional modules are emphasized, the functionality and the interest of facilities are enhanced, and the functional module system has great development space and potential.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural diagram of a functional module system applied to a room in the present invention.

Fig. 2 is the structural schematic diagram of the middle wall functional module platform of the present invention.

Fig. 3 is the schematic diagram of the basic structure of the middle wall surface functional module of the present invention.

Fig. 4 is a schematic diagram of the infrastructure of the middle ground functional module of the present invention.

Fig. 5 is a flowchart of the operation of the control system of the present invention.

Fig. 6 is a schematic structural view of the middle steel frame of the present invention.

Wherein the various numbers in the figures represent:

10 is a room body, 11 is a wall surface module platform, 12 is a ground surface module platform, 13 is a bed, 14 is a projector, 15 is a projection curtain, 20 is a sound insulation layer, 21 is a fireproof layer, 22 is a signal interface, 23 is a steel frame layer, 24 is a wall surface function module, 30 is a keel, 31 is an extension beam, 32 is a fixing sheet, 40 is a shell (wall surface function module), 41 is a first groove, 42 is a second groove, 43 is a third groove, 44 is a fourth groove, 45 is a fifth groove, 46 is a rear cover plate (wall surface function module), 47 is a reversible cover plate, 48 is a circuit cabin (wall surface function module), 49 is a signal connector (wall surface function module), 410 is a convex boss (wall surface function module), 50 is a shell (ground surface function module), 51 is an X-shaped reinforcing rib, 52 is a bracket, 53 is a reinforcing rib, 54 is an upper cover plate, 55 is a circuit cabin, 56 is a lower cover plate, a lower, Signal connector 57 (ground function module) and convex boss 58 (ground function module).

Detailed Description

The following detailed description of embodiments of the invention is intended to be illustrative, and not to be construed as limiting the invention.

As shown in fig. 1, the room in this embodiment has a functional module system, which includes a functional module, a module platform and a control system, in addition to the basic components of the bed (13), the projector (14) and the projection curtain (15).

The module platform is divided into a wall surface module platform and a ground surface module platform, and the function modules are also divided into wall surface function modules and ground surface function modules. The module platform is fixedly arranged in a room and is a carrier platform for the functional modules in the room, so that the functional modules can be uniformly managed and used, and meanwhile, the room is more attractive. The functional modules are carriers of various functional facilities, and a plurality of the functional modules are detachably installed in the module platform and are electrically connected with signal interfaces pre-embedded in the module platform. The control system receives the state information of the functional module through a signal interface pre-buried in the module platform and sends a control signal to the functional module. The signal interface in the module platform is in the convex boss.

As shown in fig. 2, the wall surface module platform comprises a sound insulation layer (20), a fire-proof layer (21), a steel frame layer (23) and a signal interface (22); the sound insulation layer is laid on the wall of a room, so that the room achieves a sound insulation effect, the fireproof layer is laid on the sound insulation layer, so that the part, in the room, of the module platform is laid to achieve a fireproof effect, and the steel frame layer penetrates through the sound insulation layer and the fireproof layer and is fixedly connected with the wall of the room; a plurality of installation spaces matched with the sizes of the functional modules are formed in the steel frame layer, a signal interface is installed on the surface of the fireproof layer of each installation space, and the steel frame layer achieves the effect of effectively supporting the functional modules; signal interface plays the effect for functional module energy supply and information exchange, signal interface's signal line is laid between flame retardant coating and puigging to control system gathers.

The composition and structure of the ground module platform are basically the same as those of the wall module platform, but the strength of the steel frame layer is strengthened. In addition, the wall surface module platform only provides weak current, and the ground module platform provides strong current and weak current simultaneously.

For the steel frame layer, as shown in fig. 6, the steel frame layer is composed of a keel (30), an overhanging beam (31) and a fixing sheet (32); wherein the keel is made of square steel, the overhanging beam is made of T-shaped steel, and the fixing piece is made of angle steel; the fixing piece is fixed on the wall surface through screws, the keel is connected with the fixing piece through bolts, and the extending beam is connected with the keel through bolts. The installation mode can reduce the site construction time and noise and dust pollution.

The functional module comprises a shell, a back cover plate, a front cover plate, a circuit bin and a signal connector; the size of the shell is matched with the size of an installation space in the steel frame layer; the front cover plate and the back cover plate are arranged at two ends of the shell; the signal connector is arranged on the back cover plate; the circuit bin is arranged on the rear side inside the shell, a circuit board corresponding to the function realized by the functional module is installed in the circuit bin, and the circuit board is in signal connection with the signal connector. The signal connector is also arranged in the convex boss, the external contour dimension of the signal connector is the same as that of the convex interface of the module platform, and the signal connector and the convex interface can be mutually connected in a matching way.

As shown in fig. 3, the wall surface functional module is composed of a shell (40), a back cover plate (46), a reversible cover plate (47), a circuit bin (48) and a signal connector (49).

A first groove (41) is formed in the upper surface of the inner part of the shell of the wall surface functional module, strip-shaped second grooves (42) are formed in the surfaces of the left side and the right side of the inner part of the shell, and a third groove (43) is formed in the outer end of the lower surface of the inner side of the shell; a fourth groove (44) and a convex boss (410) are formed in the rear cover plate; the two sides of the reversible cover plate (47) are provided with cylindrical rotating shafts, and the upper surface and the lower surface of the reversible cover plate are provided with fifth grooves (45). The cylinder rotating shaft is arranged in the second groove (42), and when the turnable cover plate rotates around the cylinder rotating shaft to be turned to be horizontal, the turnable cover plate (47) can be pushed into the upper side of the inside of the shell along the second groove (42). The circuit bin (48) is connected with the rear cover plate (46) through screws; the rear cover plate (46) is connected to the housing (40) by screws. The convex boss (410) is provided with a signal connector (49) which has the same size as the external contour of the USB-C female port, so that the signal connector can be connected with a wall surface module platform to realize energy and signal transmission.

Magnets are arranged in the third groove (43), the fourth groove (44) and the fifth groove (45); when the magnet in the third groove is attracted with the magnet in the fifth groove, the reversible cover plate can be positioned at the end part of the shell; when the reversible cover plate (47) is pushed into the upper side of the inner part of the shell, the magnet in the fourth groove (44) is attracted with the magnet in the fifth groove (45) to position the reversible cover plate.

As shown in fig. 4, in particular to the ground function module, it comprises a housing (50), an upper cover plate (54), a circuit chamber (55), a lower cover plate (56) and a signal connector (57); different from the wall surface functional module, in order to enhance the pressure resistance, X-shaped reinforcing ribs (51) are arranged on four side surfaces in the shell (50), and reinforcing ribs are also arranged in the upper cover plate (54); a circle of bracket (52) is fixed at the inner side of one end of the shell (50) provided with an upper cover plate (54), and the back of the bracket (52) is also supported by a reinforcing rib (53); the bracket (52) is used for supporting an upper cover plate (54).

And the lower cover plate is provided with a convex boss (58); two groups of through holes are formed in the convex boss (58), and the sizes of the through holes are the same as the external contour size of the USB-C female port and the external contour size of the national standard two-item plug respectively, so that the through holes can be connected with a ground module platform, communication is realized through the USB-C interface, and strong electricity supply is realized through the national standard two-item plug.

The control system comprises a master control module and a USB-TTL switching chip; the master control module manages and controls the functional modules based on a Python script, the USB-TTL switching chip is used for connecting the circuit boards of the functional modules into the master control module to carry out serial port communication, and the working flow of the control system is as follows:

(1) and after the functional module is connected to the functional module platform, the identity identification code is sent to the master control module in a serial port communication mode.

(2) The master control module analyzes the received identity identification code, and sends a signal of completing loading to the functional module after identifying the identity of the functional module.

(3) And after receiving the signal of finishing loading, the functional module stops sending the identification code and starts sending self state information to the master control module.

(4) And after receiving the state information of the functional modules, the master control module carries out addressing according to the specific functions of the functional modules and selects the corresponding functional modules to send control signals to the functional modules.

(5) And the corresponding functional module completes specific response after receiving the control signal, thereby realizing the control and interconnection among a plurality of modules.

The control system can also be connected with the existing systems in the room, such as a sound box, a spotlight and the like. Through the control system, communication is realized among different functional modules, so that the functions of the functional modules are not mechanically added, but are combined in a matched and organized manner, and the experience of a user is enhanced.

In order to better understand the operation and efficacy of the modular room, specific functional modules and scenes are selected for example:

the functional module can design into table trip functional module according to user's demand kind, science popularization education functional module, celebration functional module, music functional module, traditional culture module, body-building functional module, photographic functional module etc..

Here we show the example of "bucket floor main module system" and "birthday module system":

(1) bucket ground main module system

The fighting main module system mainly comprises a table card module and a table card module, and a main control module fixed in a room and an original acousto-optic system of the room are called.

The core circuit structure of the card table module is placed in a circuit bin (55) as shown in the floor function module of fig. 4, and the bottom function module of the card table is placed in the floor module platform along an extending beam (31) as shown in the steel frame layer of fig. 6 until the inward concave convex interface as shown in the floor function module of fig. 4 on the bottom function module of the card table is completely connected with the outward convex interface as shown in the steel frame layer of fig. 6 on the floor module platform. The table of the table module can be stored in one or more functional modules in a folding mode when not unfolded, and can be unfolded when needed.

In the following, some designs of functional devices are involved, in order to achieve more interest of a landlord, the table and the poker chair are customized, but common functional devices can be put into the functional modules in an exemplified mode and freely placed in the module platform, but the effect is relatively common.

Three ground-robbing main buttons, a final-game button and three ground-main indicators are arranged on the table. A ground-fighting main microprocessor is arranged in a circuit bin of the card table module, and the microprocessor is connected with the buttons on the table on one hand and is connected with a master control module through an interface of the module platform on the other hand.

Tapping the 'ground-robbing main button', sending a signal to the microprocessor, sending an electronic signal to a corresponding ground main indicator by the microprocessor according to the signal sequence to activate the ground main indicator, recording 'game start', turning off the ground main indicator by pressing the final round button, and informing the microprocessor of 'game end'.

The card chair module forms a functional module and is fixed on the ground module platform in the same way as the card table module.

The designed card chair is provided with a specially-made hip sensor, the hip sensor is connected with the card chair module circuit bin and is connected with the room master control module through a data interface; the main control module receives the signal of the card chair module about the hip sensor, and identifies the associated system, namely the acousto-optic system and sends an instruction through the mode of identifying the identity code and the module state, so that the acousto-optic content is finally consistent with the sensing signal of the hip sensor. When a person sits on the chair, the sensor in the middle of the chair senses pressure, and the seat microprocessor forms a game preparation starting signal; when the left sensor of the seat is stressed, the seat microprocessor forms an airplane signal; when the seat right sensor is pressurized, the seat microprocessor develops a "bomb" signal. The microprocessor can control sound effect and light effect through the room master controller, and when the microprocessor receives a game preparation start signal, the microprocessor starts to play music; when the game is started, the sound effect and the light effect of the game are changed; when receiving an 'airplane' or 'bomb' signal, superposing and playing a corresponding sound effect and a corresponding light effect; when receiving 'the game is finished' the game is changed back to the game preparation music; sound and light effects are stopped when "end of game" is received.

(2) Birthday module system

The designed birthday celebration module system mainly comprises an infrared induction function module, a firework function module, a gift function module and a sentiment function module. The specific function realization equipment of each functional module is positioned in the corresponding module shell.

The infrared sensing function module is a main switch of the birthday module system and comprises an infrared sensor, when a client enters a room, the infrared sensor receives infrared signals of a person and feeds the signals back to the main control module, and the main control module activates other function modules in the birthday module system and enables the other function modules to be in a standby mode.

The following demonstrates the modular interconnection mainly through the episodic function module.

The casing of the talking function module is internally provided with a vibration sensor and a lamp group, when a user slaps the module, the vibration sensor senses vibration, a signal is processed by the microprocessor and then is sent to the room master control module, and the master control module feeds back the signal to light the lamp group in the talking function module. The front of the emotion function module is provided with a pre-customized character film, and the light reflects characters on the turnable cover plate of the emotion function module. When a plurality of emotion function modules are used in a matched mode, the working mode is as follows:

the client A designs a sentence and designates a lighting sequence, a plurality of emotion modules form an emotion wall, when the client B beats a first emotion module, the emotion module is lighted up, the module is flapped again, the light is turned off, meanwhile, the main control module automatically lights the next emotion module, and the rest is done until all designated emotion modules finish the work.

Although embodiments of the present invention have been shown and described, it is to be understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that changes, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the principles and spirit of the present invention.

Claims (10)

1. A system of functional modules for application in a room, comprising: the system comprises a functional module, a module platform and a control system; the module platform is fixedly arranged in a room and is a carrier platform for the functional module in the room; the functional modules are carriers of various functional facilities, and a plurality of the functional modules are detachably arranged in the module platform and are electrically connected with signal interfaces pre-embedded in the module platform; the control system receives the state information of the functional module through a signal interface pre-buried in the module platform and sends a control signal to the functional module.

2. A functional module system for application in a room as claimed in claim 1, wherein: the module platform comprises a sound insulation layer, a fireproof layer, a steel frame layer and a signal interface; the sound insulation layer is laid on the wall of a room, the fire-proof layer is laid on the sound insulation layer, and the steel frame layer penetrates through the sound insulation layer and the fire-proof layer and then is fixedly connected with the wall of the room; a plurality of installation spaces matched with the sizes of the functional modules are formed in the steel frame layer, and a signal interface is arranged on the surface of the fireproof layer of each installation space.

3. A functional module system for application in a room as claimed in claim 2, wherein: and signal wires of the signal interface are laid between the fireproof layer and the sound insulation layer and collected to the control system.

4. A functional module system for application in a room according to claim 1 or 3, wherein: the functional module comprises a shell, a back cover plate, a front cover plate, a circuit bin and a signal connector; the size of the shell is matched with the size of an installation space in the steel frame layer; the front cover plate and the back cover plate are arranged at two ends of the shell; the signal connector is arranged on the back cover plate; the circuit bin is arranged on the rear side inside the shell, a circuit board corresponding to the function realized by the functional module is installed in the circuit bin, and the circuit board is in signal connection with the signal connector.

5. A functional module system for application in a room according to claim 4, wherein: the module platform comprises a wall surface module platform and a ground module platform, and the function modules are also divided into wall surface function modules and ground function modules; the wall function module is detachably mounted in the wall module platform, and the ground function module is detachably mounted in the ground module platform.

6. A functional module system for application in a room as claimed in claim 5, wherein: in the wall surface functional module, strip-shaped grooves are formed in the upper parts of the left side surface and the right side surface in the shell; the left side and the right side of the front cover plate are provided with cylindrical rotating shafts; the cylindrical rotating shaft is arranged in the strip-shaped groove; after the front cover plate rotates around the cylindrical rotating shaft and is turned up, the front cover plate can be pushed into the upper side inside the shell along the strip-shaped groove.

7. A functional module system for application in a room according to claim 6, wherein: in the wall surface functional module, magnets are arranged on the upper side and the lower side of the front cover plate; the edge of the lower part of one end of the shell, which is provided with the front cover plate, is also provided with a magnet which can be attracted with the magnet on the lower side of the front cover plate; the surface of the back cover plate facing the inside of the shell is also provided with a magnet, and the back cover plate can be attracted with the magnet on the upper side of the front cover plate after being pushed into the inside of the shell.

8. A functional module system for application in a room as claimed in claim 5, wherein: in the ground functional module, reinforcing ribs are fixed on four side surfaces in the shell and the back surface of the front cover plate; a circle of bracket is fixed on the inner side of one end of the shell, which is provided with the front cover plate, and the back of the bracket is also supported by a reinforcing rib; the bracket is used for supporting the front cover plate.

9. A functional module system for application in a room as claimed in claim 2, wherein: the steel frame layer consists of a keel, an extending beam and a fixing sheet; the keel is made of square steel, the extending beam is made of T-shaped steel, and the fixing piece is made of angle steel; the fixing piece is fixed on the wall surface through screws, the keel is connected with the fixing piece through bolts, and the extending beam is connected with the keel through bolts.

10. A functional module system for application in a room as claimed in claim 1, wherein: the control system comprises a master control module and a USB-TTL switching chip; the USB-TTL switching chip accesses a circuit board in the functional module to the master control module to carry out serial port communication; and the master control module receives the state information of the functional module and sends a control signal to the functional module.

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