TR2022002597T2 - An adaptable vent system to provide local and customized thermal comfort. - Google Patents

Abstract

Embodiments of the present invention include an HVAC system (2) to produce intake air; at least one unit (3) to be positioned in an indoor environment and to monitor the environmental temperature of the unit (3); a control and communication center (4) that can communicate with each unit (3); It relates to a vent system (1) intended to provide local and customized thermal comfort, containing at least one inlet diffuser (5) to be positioned in the indoor environment and distribute the inlet air through a plurality of air outlets (6) facing different directions; Here, the inlet diffuser (5) contains at least one independently moving blade (7) for each air outlet (6) to direct the flow of inlet air.

Description

DESCRIPTION TO PROVIDE LOCAL AND CUSTOMIZED THERMAL COMFORT AN ADAPTABLE VENTOR SYSTEM Field of Invention The present invention is aimed at providing local and customized thermal comfort conditions. specifically located in a sub-area within a room, with an adaptable vent system temperature distribution in an indoor environment according to the special demand of a person or a group of people with a vent system that controls airflow direction to manage irregularity Known Status of the Technique It refers to a technology used to air condition indoor environments. However each person demands a different environmental condition (heating, ventilation and cooling) Providing a uniform environmental condition within the building may not please some people. It does not. In addition, having a uniform temperature distribution in large indoor environments in a way that would negatively affect the energy efficiency and environmental impacts of buildings. It requires conditioning a larger air volume.

Therefore, local and customized thermal comfort conditions are provided to the occupants of the building. There is a significant need to improve culvert systems to provide There are.

Brief Description of Figures An exemplary embodiment of the present invention is shown in the attached figures for easier understanding. illustrated by example and their use considering the detailed explanation It will be more obvious where like reference numbers refer to the same or similar elements. and is shown in the following figures: Figure 1 is a schematic view of the vent system according to an exemplary embodiment of the present invention. view.

Figure 2 shows the moving fins open and open according to an exemplary embodiment of the present invention. is a schematic view of an inlet diffuser shown in closed positions.

Figure 3 shows an exemplary embodiment of the present invention mounted on the ceiling of a room. It is a schematic view of two diffusers.

The elements shown in the figures are numbered as follows: vent system HVAC system Control and communication center inlet diffuser air outlet Aileron sensor arrays User interface cloud platform outlet diffuser Axis of rotation of the aileron Detailed Description Embodiments of the present invention provide local and customized thermal comfort. It is related to a culvert system (1) for The term 'customised' refers to a person's particular preference or being compatible with the common preference of at least one person. vent system (1) an HVAC system (2) to be positioned in an indoor environment to produce an intake air and at least one unit (3) to monitor the environmental temperature of the unit (3); with each unit (3) a communicable (i.e. capable of communicating) control and communication center (4); indoor environment to be positioned and direct the inlet air produced by the HVAC system (2) to different directions. At least one inlet diffuser (5) to distribute air through a plurality of air outlets (6) facing contains, where the inlet diffuser (5) is used to direct the flow of inlet air. It contains at least one independently moving fin (7) for an air outlet (6).

The control and communication center (4) is adapted to do the following; - the temperature of the inlet air to be distributed according to the environmental temperature received from the unit (3) to determine, - a user-defined temperature around the unit (3) (other In other words, the inlet diffuser (5) of the unit (3) is used to reach a specific inlet temperature of the unit (3). flow rate and direction of flow of the inlet air according to its relative direction and/or position to determine. Designations are preferably placed around the unit (3) with user-defined energy efficiency and/or optimum temperature, flow to reach the temperature as quickly as possible It is done by taking into account the speed and flow direction conditions.

The control and communication center (4) is also adapted to do the following; - monitoring the temperature and flow rate of the inlet air, preferably through the HVAC system (2) specified temperature and specified flow rate and determine the specified flow direction. adjusting the direction angle of the moving blades (7) to achieve

Embodiments of the present invention provide the temperature flow rate of inlet air distributed to the indoor environment. and aims to control the flow direction. Each movable part of the inlet diffusers (5) By adjusting the angle of the fin (7), an air flow pattern is provided to the interior environment.

Thus, the indoor environment is uniform in accordance with the temperature defined by the user. An unprecedented temperature distribution is achieved.

In the structures of the vent system (1), a small number of units (3) are used in the indoor environment. is positioned. Unit (3) continuously or intermittently monitors the environmental temperature monitors/measures. Therefore, unit (3) is preferably used for environmental temperature monitoring. It contains at least one temperature sensor. Unit (3), wired or wireless connection It can communicate with the control and communication center (4) via or vice versa.

The wireless communication device used herein includes but is not limited to laser and IR. Radio optics including but not limited to ZigBee and EnOcean its waves; Personal area networks, Bluetooth, TransferJet, Ultra broadband, Wi-Fi and It refers to any wireless communication device that uses others.

In one embodiment of the present invention, the relative distance of the units (3) to the inlet diffusers (5). their direction and/or location, once the units (3) and inlet diffusers (5) are placed in the indoor environment. is defined later.

In one embodiment of the present invention, the unit (3) is portable so that the user can move free to use and still enjoy local and customized thermal comfort. can benefit from it. In this configuration, unit (3) controls its position and communicates It includes an indoor positioning system to provide the center (4). Like this The control and communication center (4) is the new relative position of the moved unit (3). flow rate and flow direction of the inlet air according to its direction and/or position determines.

In one embodiment of the present invention, the unit (3) is a device capable of monitoring environmental temperature. It is a mobile phone that contains a temperature sensor.

Control and communication center (4), preferably inlet diffuser via a connection cable It can communicate with (5). In an alternative to this configuration, control and communication center (4), preferably a wireless device to communicate with the control and communication center (4). Includes communication tool. The wireless communication device used here is limited to: optics including, but not limited to, laser and IR, and ZigBee and radio waves including EnOcean; Personal area networks, Bluetooth, TransferJet, Ultra any wireless communication device using broadband, WI-Fi and others states.

In an embodiment of the present invention, the control and communication center (4) consists of a plurality of units. It communicates with (3). In this configuration, the control and communication center (4) is the unit's (3) to reach a user-defined temperature in its surroundings (other in other words, to make the environmental temperature equal to a specific inlet temperature into the unit (3)) The inlet air to be distributed according to the environmental temperature information received from a number of units (3) It is adapted to determine the temperature. Additionally, the control and communication center (4), relative directions of the units (3) to the inlet diffuser(s) and/or to determine the flow rate and flow direction of the inlet air according to their location. is being adapted. Thus, an air flow pattern is created by the control and communication center (4). (temperature, flow rate and flow direction) are determined and controlled by the inlet diffusers (5). is provided.

In one embodiment of the present invention, the units (3) also control the humidity in the surroundings of the unit (3). and monitors air quality. In this configuration, the control and communication center (4) It is also adapted to do the following; - will be distributed according to the environmental temperature/humidity/air quality information received from the unit (3) determine the temperature/humidity/air quality of the inlet air, and - Temperature/humidity/air quality of the air conditioned by the HVAC system (2) set to the specified temperature/humidity/air quality.

Determining the temperature, flow rate and flow direction of the inlet air to be distributed and inlet Adjusting the air temperature and flow rate is preferably done via a direct digital control device. It is done with the algorithm. Neural network-based control for determinations and adjustments algorithms, predictive control algorithms or other advanced control approaches can also be used. Units (3), sensor arrays (8) (in more detail will be explained), the communication between the control and communication center (4) and the inlet diffusers (5), Building Automation Control Network (BACnet), LonWOrks (Echelon), Modbus TCP, KNX and Like others, it can be implemented in 'private' or 'open protocol' languages.

In an embodiment of the present invention, the control and communication center (4) The determinations that it is adapted to make are preferably made by users around the unit (3). Energy efficiency and/or to reach the temperature defined by It is done by taking into account the temperature, flow rate and flow direction conditions.

In an embodiment of the present invention, the vent system (1) is used for outdoor temperature and/or open/closed position of doors/windows indoors and/or inside the residential structure control and communication center (4) to provide information about the number of persons It contains a sensor array that can communicate with the communication center (4). This In the configuration, the control and communication center (4) also provides information from the sensor array. To determine the temperature, flow rate and flow direction of the inlet air according to is being adapted.

In an embodiment of the present invention, the grille system (1) is operated by the user. a user to enter defined temperature and/or other environmental parameters. It contains the interface (9). The user interface (9) is preferably on the unit (3) is provided. Alternatively, the user interface (9) with an interactive GUI can be used as a It can also be provided in an internet browser or a smartphone application. This In an alternative configuration, the user interface (9) is located at each end of the inlet diffuser (5). for the direction angle of the moving fin (7) and/or the temperature and/or flow rate of the inlet air. It provides a manual adjustment.

In an embodiment of the present invention, the vent system (1) is used in the indoor environment. from the interior environment by being positioned and having multiple air inlets facing different directions. It contains an outlet diffuser (11) to receive air. Exit diffuser (11) for each air It contains an independently moving flap (7) for entry. In this configuration, The control and communication center (4) also depends on the relative direction and/or location of the unit (3). to adjust the direction angle of the moving blades (7) of the outlet diffuser (11) according to is being adapted. In this configuration, the relative distance of the units (3) to the exit diffuser (11). their direction and/or location, after the units (3) and outlet diffuser (11) are placed in the indoor environment. is defined later. In an alternative version of this configuration, unit (3), an indoor positioning system to provide its position to the control and communication center (4). includes the system. Thus, the control and communication center (4) is the relative location of the unit (3). direction angle of the moving blades (7) of the outlet diffuser (11) according to its position. is adjusting. The movable blades (7) of the outlet diffuser (11) ensure that the inlet air It can be completely closed to prevent entry. In this way, by the user indoor areas where there is no person/unit/demand for the defined temperature. unnecessary air conditioning (air intake), air flow towards these sections is blocked is prevented by doing so.

In one embodiment of the present invention, the culvert system (1) is connected to a cloud platform (10). is connected. In particular, it contains a large number of units (3) and/or inlet diffusers (5). configurations, determinations that can be provided by the cloud platform (10) and It requires computing power for adjustments. Additionally, the interface provided communication cloud platform between vehicle, units (3) and control and communication center (4) It can be provided via (10).

In an embodiment of the present invention, at least one inlet diffuser (5) is arranged in a regular hexagonal shape. It is box shaped. In this configuration, the moving fins (7) are crooked or in any shape. It is in the form of a different geometry.

In an embodiment of the present invention, at least one inlet diffuser (5) is formed in a regular octagonal shape. It is in the shape of a box, where the movable fins (7) are crooked or in any other shape. It is in the form of geometry.

In an embodiment of the present invention, the movable blades (7) of the inlet diffuser (5), It can be completely closed to prevent intake air from entering. In this way, interior without any person/unit/request for user-defined temperature unnecessary air conditioning for the ambient sections, air outlets facing each other (6) and Therefore, the flow towards the mentioned sections is blocked and prevented.

In an embodiment of the present invention, the movable fins (7) are located on the inlet diffuser (5). It can move in the vertical plane.

The movement of the moving blades (7) is caused by rotary or linear motors or their It can be provided with an actuator in any combination.

In an embodiment of the present invention, the inlet diffuser (5) is located on the ceiling of the indoor environment. for positioning.

In an embodiment of the present invention, the control and communication center (4) is located at the entrance diffuser. (5) is a part.

An exemplary embodiment of the invention is shown in Figure 2. Figure 2, eight fins (7) two open to allow inlet air to flow in a specific direction In a configuration where shows. The remaining six flaps (7) are closed and the air outlets (6) and Therefore, it blocks the inlet air flow. The fins (7) are trapezoidal in shape and each One side of the fin (7) can rotate along the rotation axis (R) of a fin.

In this exemplary embodiment of the present invention, in the center, the angles of the fin (7) are An actuator is positioned to change it.

Figure 3 shows one use of an exemplary embodiment of the invention. Figure 3, a an inlet diffuser (5) and an outlet diffuser (11) mounted on the ceiling of the room. shows. In both cases, only the unit (3), in other words inside the room Configured to prioritize air flow towards the occupant's surroundings There are open and closed flaps (7). No unit on the opposite side of the room (3) (there is no one here) and therefore the fin (7) configuration is It minimizes the air flow towards the section.

The present invention also provides ventilation for vent systems to be positioned in the interior environment and the unit (3) at least one unit (3) to monitor the environmental temperature; be positioned indoors and to distribute an inlet air through a plurality of air outlets (6) facing different directions It is related to an air distribution system containing at least one inlet diffuser (5), where inlet diffuser (5) for each air outlet (6) to direct the flow of inlet air It contains an independently moving flap (7); where each inlet diffuser (5), configured to receive inlet air from an HVAC system (2); wherein each unit (3) includes a control and communication device adapted to: It is configured to communicate with the center (4); - the temperature of the inlet air to be distributed according to the environmental temperature received from the unit (3) to determine, - to achieve a user-defined temperature around the unit (3) inlet according to the relative direction and/or position of the unit (3) to the inlet diffuser (5). To determine the flow rate and direction of air flow, - adjusting the temperature and flow rate of the inlet air to the specified temperature and specified flow rate. movable vanes to adjust the speed and obtain the specified flow direction. (7) adjusting the direction angle.

The above-mentioned configurations also apply to the air distribution system.

In an embodiment of the present invention, an inlet diffuser (5) for grill systems, a a plurality of air outlets (6) facing different directions to distribute the inlet air into an indoor environment; independently for each air outlet (6) to direct the flow of inlet air. It contains a movable flap (7); wherein each inlet diffuser 5 is configured to: - at least one device located indoors and monitoring the environmental temperature of the unit (3). being able to communicate with a control and communication center (4) that can communicate with the unit (3); - taking inlet air from an HVAC system (2); where the control and communication center (4) is adapted to: - the temperature of the inlet air to be distributed according to the environmental temperature received from the unit (3) to determine, - to achieve a user-defined temperature around the unit (3) inlet according to the relative direction and/or position of the unit (3) to the inlet diffuser (5). To determine the flow rate and direction of air flow, - adjusting the temperature and flow rate of the inlet air to the specified temperature and specified flow rate. speed and moving to obtain the specified flow direction. Adjusting the direction angle of the flaps (7).

The embodiments mentioned above are for this embodiment of the present invention, i.e. Also valid for an inlet diffuser (5) for grille systems.

Claims (13)

1. A vent system (1) for providing local and customized thermal comfort, including an HVAC system (2) for producing an intake air; at least one unit (3) to be positioned in an indoor environment and to monitor the environmental temperature of the unit (3); a control and communication center (4) that can communicate with each unit (3); It contains at least one inlet diffuser (5) to be positioned in the indoor environment and to distribute the inlet air through a plurality of air outlets (6) facing different directions; wherein the inlet diffuser (5) includes at least one independently moving fin (7) for each air outlet (6) to direct the flow of inlet air; wherein the control and communication center (4) is adapted to: - determine the temperature of the inlet air to be distributed according to the environmental temperature received from the unit (3), - connect the inlet diffuser (5) of the unit (3) to achieve a user-defined temperature in the periphery of the unit (3). determining the flow rate and flow direction of the inlet air according to its relative direction and/or position, - adjusting the temperature and flow rate of the inlet air as the determined temperature and the determined flow rate, and adjusting the direction angle of the movable fins (7) to obtain the determined flow direction. 2. It is a vent system (1) according to claim 1, and the control and communication center is used to provide information to the control and communication center (4) about the outdoor temperature and/or the open/closed position of the doors/windows in the indoor environment and/or the number of people. It includes a sensor array (8) that can communicate with (4), where the control and communication center (4) is also adapted to determine the temperature, flow rate and flow direction of the inlet air according to the information received from the sensor array (8). 3. It is a grill system (1) according to any of the previous claims and includes a user interface (9) for entering the temperature defined by the user. 4. A grill system (1) according to claim 3, where the user interface (9) is provided on the unit (3). 5. A grille system (1) according to claim 3 or claim 4, where the user interface (9) determines the direction angle of each movable blade (7) of the inlet diffuser (5) and/or the temperature and/or flow rate of the inlet air. It provides a manual adjustment for . 6. It is a vent system (1) according to any of the previous claims and includes an outlet diffuser (11) to be positioned in the interior environment and to receive air from the interior environment through a plurality of air inlets facing different directions; where the outlet diffuser (11) includes an independently moving fin (7) for each air inlet; Here, the control and communication center (4) is also adapted to adjust the direction angle of the movable blades (7) of the outlet diffuser (11) according to the relative direction and/or position of the unit (3). 7. A grille system (1) according to any of the previous claims, wherein the inlet diffuser (5) includes a fan for each air outlet (6) to ensure the flow of inlet air at adjustable speeds in each air outlet (6), and here the control and the communications center 4 is further adapted to: - determining the flow rate of the inlet air at each air outlet (6), - adjusting the speed of the fan to obtain the determined flow rate of the inlet air at each air outlet (6). 8. A grille system (1) according to any of the previous claims, where at least one inlet diffuser (5) is in the shape of a regular octagonal or hexagonal box, where the movable fins (7) are trapezoidal. 9. A vent system (1) according to any of the previous claims, wherein the movable fins (7) can move to a position where the air outlets (6) are completely closed to prevent the entry of inlet air. 10. A grille system (1) according to any of the previous claims, where the movable blades (7) can move in the vertical plane of the inlet diffuser (5). 11. A vent system (1) according to any of the previous claims, wherein the inlet diffuser (5) is to be positioned on the ceiling of the interior environment. 12. It is an air distribution system for vent systems, with at least one unit (3) to be positioned in an indoor environment and to monitor the environmental temperature of the unit (3); It contains at least one inlet diffuser (5) to be positioned in the indoor environment and to distribute the inlet air through a plurality of air outlets (6) facing different directions; wherein the inlet diffuser (5) includes at least one independently moving fin (7) for each air outlet (6) to direct the flow of inlet air; wherein each inlet diffuser (5) is configured to receive inlet air from an HVAC system (2); wherein each unit (3) is configured to communicate with a control and communication center (4) adapted to do the following; To determine the temperature of the inlet air to be distributed according to the environmental temperature received from the unit (3), the flow rate and flow direction of the inlet air according to the relative direction and/or position of the unit (3) to the inlet diffuser (5) in order to reach a user-defined temperature around the unit (3). determining, adjusting the temperature and flow rate of the inlet air as the determined temperature and the determined flow rate, and adjusting the direction angle of the moving fins (7) to obtain the determined flow direction. 13. It is an inlet diffuser (5) for vent systems, with a plurality of air outlets (6) facing different directions to distribute the inlet air to an indoor environment; It contains an independently moving flap (7) for each air outlet (6) to direct the flow of inlet air; wherein each inlet diffuser (5) is configured to: communicate with a control and Communication center (4) located in an indoor environment and capable of communicating with at least one unit (3) that monitors the environmental temperature of the unit (3); receiving inlet air from an HVAC system (2); where the control and communication center (4) is adapted to do the following: determine the temperature of the inlet air to be distributed according to the environmental temperature received from the unit (3), relative to the inlet diffuser (5) of the unit (3) to achieve a user-defined temperature in the periphery of the unit (3). Determining the flow rate and flow direction of the inlet air according to its direction and/or position, adjusting the temperature and flow rate of the inlet air as the determined temperature and determined flow rate, and adjusting the direction angle of the moving blades (7) to obtain the determined flow direction.