CN113431392A - Indoor decoration is with experiencing cabin - Google Patents

Abstract

The invention relates to the field of planar design, in particular to an experience cabin for indoor design. The method comprises the following steps: cabin body, temperature regulation device, air flow simulation device, VR equipment, processing module. According to the experience cabin for indoor design, parameters such as illumination, temperature, humidity, wind speed and wind direction of each indoor place based on different time are provided for an indoor designer by simulating an indoor real environment, so that indoor design is carried out in a matching manner. Meanwhile, the customer can experience the matching of various designs and natural parameters of the room in the experience cabin, and the customer can understand the design concept and the design result of a designer.

Description

Indoor decoration is with experiencing cabin

Technical Field

The invention relates to the field of plane design tools, in particular to an experience cabin for indoor design.

Background

The indoor design is to create an indoor environment which has reasonable functions and meets the requirements of people on material and mental life by applying material technical means and building design principles according to the use properties, the environment and corresponding standards of buildings. The space environment has use value and meets corresponding functional requirements

Current indoor design software mainly draws all kinds of furniture through plane or three-dimensional mode, not only takes trouble and labouriousness, and the display effect is real enough, is difficult to reach user's requirement.

Disclosure of Invention

The invention aims to solve the problem that the display effect of indoor design software in the prior art is not realistic. The invention provides an experience cabin for indoor design, which enables designers and clients to carry out indoor design and scheme experience in an on-the-spot environment.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention provides an experience cabin for indoor design, which comprises:

the cabin body is provided with installation positions of all devices, an experience space for at least one person to move is arranged in the cabin body, and at least one access is arranged on the cabin body.

And the temperature adjusting device is arranged on the cabin body and is used for adjusting the temperature in the experience space. The indoor temperature feedback device comprises a refrigerator, a heater and a temperature detector, and the refrigerator or the heater is started to regulate the temperature of the space in the experience cabin through the indoor temperature fed back by the temperature detector.

And the humidity adjusting device is arranged on the cabin body and is used for adjusting the humidity in the experience space. Generally, air with atomized distilled water is discharged into the experience cabin to improve the humidity.

And the air flow simulation device is arranged on the cabin body and used for simulating natural wind in the experience space.

And the VR equipment is used for providing the simulated indoor design image information to the user and giving feedback according to the operation of the user.

And the processing module is used for controlling the temperature adjusting device, the humidity adjusting device and the air flow simulating device and providing image information for the VR equipment.

The experience cabin for indoor design provides a VR-based simulation space for an indoor designer or experience clients, and various parameters in the experience cabin are adjusted through the temperature adjusting device, the humidity adjusting device and the air flow simulating device, so that the various parameters in the experience cabin are in line with various parameters in an original room. When a designer or an experience client operates the VR equipment to move to another position in the simulation room, the processing module sends the temperature parameter of the position to the temperature adjusting device, the humidity parameter to the humidity adjusting device, and the wind direction and wind power parameter to the air flow simulation device.

Optionally, the VR device includes a VR display device and an operating device, the VR display device is wirelessly connected to the processing module, and the operating device is wirelessly connected to the processing module. VR display device adopts wear-type VR glasses, can observe for the user with indoor show according to user's visual angle, obtains the visual effect on the spot. The operating device is typically a handle with operating buttons or a rocker that can be operated to perform a room design or moved to another location within the simulated room.

Optionally, the air flow simulation device includes a plurality of air outlets arranged in an array on the wall of the cabin, an air duct and a fan, the air outlets are connected with the fan through the air duct, the air outlets are provided with switch boards, and the switch boards are connected with the processing module. The air outlet array is on the cabin body wall, and the scope of air-out is injectd through the switch board, controls the intensity of air-out through the slew velocity of fan.

Optionally, the cabin body is a cube, the inlet and outlet are arranged on the front side, and the fan is arranged on the back side. The square cabin body is beneficial to the installation of various devices and the placement of the cabin body.

Optionally, the fan is further provided with an airflow temperature control device for adjusting the temperature of the airflow blown out by the fan. The air flow temperature control device can heat or refrigerate air to simulate natural wind with different temperatures. The air flow temperature control device can also utilize the waste heat of the processing module to heat the air, so that the energy is saved.

Optionally, the temperature adjusting device further comprises a floor heating device, and the floor heating device is arranged on the bottom surface of the cabin body. The floor heating device can simulate indoor floor heating so as to obtain more comprehensive simulation effect.

Optionally, six sides of the cabin are detachable. The six surfaces of the cabin body are divided into a front plate, a rear plate, a left plate, a right plate, an upper plate and a lower plate, and the entrance is arranged at the front plate. The detachable cabin body can be disassembled and stored when not needed, and the occupied space is small. When the cabin body needs to be moved to other places, the detachable cabin body is convenient to pack and move.

Optionally, the top of the inner side of the cabin body is further provided with a sunlight simulation device, and the sunlight simulation device is controlled by the processing module.

Optionally, the sunlight simulation device comprises a rotating platform arranged at the top of the experience space and a hard quartz explosion-proof lamp arranged on the rotating platform.

Optionally, a light screen is further arranged on the rotating platform and used for limiting the illumination range of the hard quartz explosion-proof lamp. The illumination of the hard quartz explosion-proof lamp simulates sunlight irradiation, and the range of the simulated sunlight irradiation is limited by the rotating platform and the shading plate. When the experience cabin is used, the user can experience partial or whole-body sunlight simulating effect.

According to the experience cabin for indoor design, parameters such as illumination, temperature, humidity, wind speed and wind direction of each indoor place based on different time are provided for an indoor designer by simulating an indoor real environment, so that indoor design is carried out in a matching manner. Meanwhile, the customer can experience the matching of various designs and natural parameters of the room in the experience cabin, and the customer can understand the design concept and the design result of a designer.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional view of an air flow simulator according to the present invention;

fig. 3 is a schematic structural diagram of the sunlight simulating apparatus according to the present invention.

In the figure: 10-head-wearing VR glasses, 11-cabin, 12-temperature regulating device, 13-humidity regulating device, 14-air flow simulating device, 15-air outlet, 16-air duct, 17-fan, 18-air flow temperature control device, 19-inlet and outlet, 20-sunlight simulating device, 21-hard quartz explosion-proof lamp and 22-shading plate.

Detailed Description

The invention will be further described with reference to the accompanying drawings, which will serve to assist the public in understanding the invention, and the following description of the embodiments is not intended to limit the invention to the specific embodiments given by the applicant, and any changes in the definition of parts or features, or in the form of an overall structure, rather than essential changes, may be made to the invention as defined in the claims.

Examples

As shown in fig. 1, 2 and 3, a preferred embodiment of the present invention provides an experience cabin for indoor design, comprising:

the cabin 11 is a hexahedral cube as a whole. On which the mounting positions of the devices are arranged. Its internal space is an experience space of 5 m. The cabin 11 has six surfaces including front, rear, left, right, upper and lower plates, and the entrance 19 is provided at the front plate. The detachable cabin 11 can be stored after being detached when not needed, and the occupied space is small. The detachable cabin 11 is also convenient for packing and moving when it needs to be moved to other places.

And the temperature adjusting device 12 is installed on the cabin 11 and is used for adjusting the temperature in the experience space. The indoor temperature feedback device comprises a refrigerator, a heater and a temperature detector, and the refrigerator or the heater is started to regulate the temperature of the space in the experience cabin through the indoor temperature fed back by the temperature detector. The temperature adjusting device 12 further comprises a floor heating device which is arranged on the bottom surface of the cabin body 11. The floor heating device can simulate indoor floor heating so as to obtain more comprehensive simulation effect.

And the humidity adjusting device 13 is installed on the left plate and used for adjusting the humidity in the experience space. Generally, air with atomized distilled water is discharged into an experience cabin to improve the humidity; and discharging the dry air into the experience cabin to reduce the humidity.

The air flow simulation device 14 comprises a plurality of air outlets 15, air ducts 16 and fans 17 which are arranged on the rear plate of the wall of the cabin 11 in an array mode, the air outlets 15 are connected with the fans 17 through the air ducts 16, switch plates are arranged on the air outlets 15, and the switch plates are connected with the processing module. The air outlets 15 are arrayed on the wall of the cabin 11, the range of air outlet is limited by the switch board, and the intensity of air outlet is controlled by the rotation speed of the fan 17. The fan 17 is further provided with an airflow temperature control device 18 for adjusting the temperature of the airflow blown out by the fan 17. The airflow temperature control device 18 may heat or cool air to simulate natural wind at different temperatures. The air temperature control device 18 may also utilize the waste heat of the process module to warm the air, making it more energy efficient.

And the VR equipment is used for providing the simulated indoor design image information to the user and giving feedback according to the operation of the user. Including VR display device and operating means, VR display device and processing module wireless connection, operating means and processing module wireless connection. VR display device adopts wear-type VR glasses 10, can observe for the user with indoor show according to user's visual angle, obtains the visual effect on the spot. The operating device is typically a handle with operating buttons or a rocker that can be operated to perform a room design or moved to another location within the simulated room.

The processing module generally adopts a computer with a high-performance display card and indoor modeling software matched with VR equipment. When in use, the temperature adjusting device 12, the humidity adjusting device 13, the air flow simulating device 14 and the VR equipment are controlled to cooperatively operate to simulate a simulated environment close to an indoor environment. The complete sense organ experience of the user is guaranteed, and indoor design or experience can be carried out on the user according to the simulated indoor environment.

And the sunlight simulating device 20, wherein the sunlight simulating device 20 is controlled by the processing module. Comprises a rotating platform arranged at the top of the experience space and a hard quartz explosion-proof lamp 21 arranged on the rotating platform. The rotary platform is also provided with a light shielding plate 22, and the light shielding plate 22 is used for limiting the illumination range of the hard quartz explosion-proof lamp 21. The irradiation of sunlight is simulated by the illumination of the hard quartz explosion-proof lamp 21, and the range of the simulated irradiation of the sunlight is limited by the rotating platform and the shading plate 22. When the experience cabin is used, the user can experience partial or whole-body sunlight simulating effect.

When the indoor simulation information processing system is used, indoor simulation information is firstly led into the processing module. The processing module carries out modeling and partition according to the indoor simulation information and respectively stores the temperature information, the wind direction and speed information, the humidity information and the illumination information into the partition. The designer or experiencer enters the interior of the cabin 11 through the entrance 19, wears the head-mounted VR glasses 10, holds the handle, and operates the same. The processing module transmits the image information to the head-mounted VR glasses 10 and displays the image information on a display screen of the head-mounted VR glasses, so that a designer or an experiencer can obtain indoor simulated image information; the processing module transmits the temperature information to the temperature adjusting device 12, and the temperature adjusting device 12 adjusts the air temperature to a specified temperature, so that a designer or an experiencer can experience the indoor simulated air temperature; the processing module transmits the humidity information to the humidity adjusting device 13, and the humidity adjusting device 13 adjusts the humidity to a specified temperature, so that a designer or an experiencer can experience the indoor simulated humidity; the processing module transmits the wind direction and wind speed information to the air circulation simulation device, adjusts the temperature and the strength of the blown air according to the transmitted information, and blows the range of the air through the opening and closing switch board controller; the processing module transmits illumination information to the sunlight simulation device 20, the hard quartz explosion-proof lamp 21 is started, the strong light of similar sunlight irradiates to a designated area through the rotating platform and the light shading plate 22, and a designer or an experiencer can experience the illumination effect of similar sunlight in the simulation bin through the temperature rise of the skin. After all the parameters are completely simulated, a designer can design the indoor space in the indoor simulation space through the handle. The designer can move the position of the designer in the simulated indoor space through the operation of the handle, and at the moment, the processing module needs to transmit the parameters of the moved position to each device so as to simulate the indoor space of the moved position.

The present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and it is therefore intended that all such changes and modifications as fall within the true spirit and scope of the invention be considered as within the following claims.

Claims (10)

1. An indoor design is with experiencing cabin which characterized in that includes:

the cabin body is provided with installation positions of all devices, an experience space for at least one person to move is arranged in the cabin body, and at least one access is arranged on the cabin body;

the temperature adjusting device is arranged on the cabin body and used for adjusting the temperature in the experience space;

the humidity adjusting device is arranged on the cabin body and used for adjusting the humidity in the experience space;

the air flow simulation device is arranged on the cabin body and used for simulating natural wind in the experience space;

the VR equipment is used for providing simulated indoor design image information to a user and giving feedback according to the operation of the user;

and the processing module is used for controlling the temperature adjusting device, the humidity adjusting device and the air flow simulating device and providing image information for the VR equipment.

2. The experiential cabin for indoor design of claim 1, wherein said VR device comprises a VR display device and an operating device, said VR display device is wirelessly connected to said processing module, and said operating device is wirelessly connected to said processing module.

3. The experience cabin for indoor design according to claim 1, wherein the air flow simulation device comprises a plurality of air outlets, an air duct and a fan, the air outlets, the air duct and the fan are arranged on the wall of the cabin body in an array mode, the air outlets are connected with the fan through the air duct, a switch board is arranged on the air outlets, and the switch board is connected with the processing module.

4. The experience cabin for indoor design according to claim 3, wherein the cabin body is a cube, the inlet and the outlet are arranged on the front side, and the fan is arranged on the back side.

5. The experiential cabin for indoor design according to claim 4, wherein said fan is further provided with an airflow temperature control device for adjusting the temperature of the airflow blown by the fan.

6. The experience cabin for indoor design of claim 4, wherein the temperature adjusting device further comprises a floor heating device, and the floor heating device is arranged on the bottom surface of the cabin body.

7. The experience cabin for indoor design according to claim 4, characterized in that six sides of the cabin body are detachable.

8. An experience cabin for indoor design according to any one of claims 1 to 6, wherein the top of the inner side of the cabin body is further provided with a sunlight simulating device, and the sunlight simulating device is controlled by the processing module.

9. The experience cabin for indoor design according to claim 8, wherein the sunlight simulating device comprises a rotating platform arranged at the top of the experience space and a hard quartz explosion-proof lamp arranged on the rotating platform.

10. The experience cabin for indoor design as claimed in claim 9, wherein the rotating platform is further provided with a light shielding plate, and the light shielding plate is used for limiting the illumination range of the hard quartz explosion-proof lamp.

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