KR20240037729A - Individual air conditioning system automatically controlled by smart watch - Google Patents

Abstract

The present invention relates to an air conditioning system, and more specifically, to a personal air conditioning system that is automatically controlled by measuring the body temperature of the wearer on a smart watch.
For this purpose, the present invention is an air conditioning system that forms a floor discharge space formed in the space between the floor slab and the floor finish, draws air from the floor discharge space through an air conditioner, blows it out into the room, and discharges it to the ceiling to circulate the air. In
An air blowing part is formed in the bottom finishing part, and an air blowing block is installed in the air blowing part. The air blowing block is linked to open and close when the temperature is higher or lower than the set temperature by a smart watch that detects the wearer's body temperature. It is characterized by

Description

Individual air conditioning system automatically controlled by smart watch{.}

The present invention relates to an air conditioning system, and more specifically, to a personal air conditioning system that is automatically controlled by measuring the body temperature of the wearer on a smart watch.

Air conditioning is the process of controlling indoor temperature, humidity, ventilation, cleanliness, and airflow to maintain conditions suitable for indoor use.

The floor air conditioning system is a method of controlling the air flow within a building through the floor. The air conditioned air blown from the air conditioner is delivered to the floor air conditioning space below the double floor, such as the access floor, and is blown into the room through the floor supply vent. achieve

As shown in Figure 1, the conditioned air supply method of the floor air supply system is a pressurized type that maintains the floor air conditioning space at a constant pressure and supplies air to the room through a pressurized air supply port. As there is no separate duct, floor height can be reduced. Advantages arise.

This typical floor air conditioning system uses an agitation method in which the supply air and indoor contaminated air are mixed and spread by the high wind speed and turbulent air flow at the outlet, causing the problem of harmful viruses spreading indoors, especially in floor air conditioning. Differences in indoor temperature occurred depending on the location of the air outlet, discomfort (cold draft) occurred due to the rapid airflow during cooling, individual air conditioning was not possible, and noise between rooms was transmitted through the floor air conditioning outlet (cross talking), which was a security issue for IT companies. occurred, and when changing the layout, a problem occurred that required relocation of the air conditioning outlet.

Republic of Korea Patent Publication No. 10-1996-0014807

The present invention to solve the above-described problem is to blow the air conditioning airflow evenly at a low speed from the entire floor, so that it rises in one direction and exhausts to the ceiling without mixing with indoor polluted air, and the blowing airflow is a vertical laminar flow in the form of a semiconductor clean room airflow. (Vertical Laminar Flow) The purpose is to provide front floor exhaust air conditioning in which the airflow rises vertically without mixing with indoor polluted air, thereby quickly removing micro aerosols, which are the route of virus infection, from the human breathing area, thereby preventing the spread of the virus.

Another object of the present invention is to provide a personal air conditioning system automatically controlled by a smart watch that automatically checks individual preferences and conditions due to different cold and warm sensations for each individual and performs individual air conditioning.

The purposes of the embodiments of the present invention are not limited to the purposes mentioned above, and other purposes not mentioned will be clearly understood by those skilled in the art from the description below.

The present invention to achieve the above-described object is to form a floor blowout space formed in the space between the floor slab and the floor finish, and to introduce air from the floor blowout space through an air conditioner, blow it out into the room, and discharge it to the ceiling to blow out the air. In an air conditioning system that circulates,

An air blowing part is formed in the bottom finishing part, and an air blowing block is installed in the air blowing part. The air blowing block is linked to open and close when the temperature is higher or lower than the set temperature by a smart watch that detects the body temperature of the wearer. It is characterized by

In addition, the floor finishing part is installed to be spaced upward from the floor slab by a plurality of supports, is fixed to the upper end of the support body, includes a floor panel having a plurality of air outlets, and is installed on the upper surface of the floor panel, and the air It is characterized by including a floor finishing material formed with an air supply port of a relatively smaller size than the outlet.

According to the present invention, the air conditioning airflow is blown out evenly at a low speed from the entire floor, rises in one direction and is exhausted to the ceiling without mixing with indoor polluted air, and the blowing airflow is a vertical laminar flow in the form of a semiconductor clean room airflow. As the airflow rises vertically without mixing with indoor polluted air, micro-aerosols, which are the route of viral infection, are quickly removed from the human breathing area, resulting in the effect of preventing the spread of the virus.

Furthermore, the present invention has the effect of performing individual air conditioning by automatically checking individual preferences and conditions due to different cold and warm sensations for each individual.

Figure 1 is a diagram schematically showing a conventional general floor air conditioning system.
Figure 2 is a diagram showing the difference between a conventional general floor air conditioning system and a front floor outlet air conditioning system according to the present invention.
Figure 3 is a diagram showing a state in which heat generated from a heating element rises due to an upward air current.
Figure 4 is a diagram showing the structure of a building in which the present invention is installed.
Figure 5 is a diagram showing the operating state of the present invention in the structure of Figure 4.
Figure 6 is a partially enlarged view of Figure 4.
Figure 7 is a view showing members applied to the floor finish applied to the present invention.
Figure 8 is a diagram showing a structure in which a floor panel applied to the present invention is installed to form an air outlet.
Figure 9 is a diagram showing the air blowing block applied to the present invention.
Figure 10 is a diagram showing the state of operating the air outlet using a smart watch applied to the present invention.

Hereinafter, preferred embodiments according to the present invention will be described in detail.

First, the front floor air-conditioning system (low-speed displacement air-conditioning system), which is an air-conditioning system according to the present invention, will be briefly described.

Figure 2 is a diagram showing the difference between a conventional general floor air conditioning system and a front floor air conditioning system according to the present invention, and Figure 3 is a diagram showing a state in which heat generated from a heating element rises due to an upward airflow. Referring to the drawings, In the present invention, clean air-conditioning air pressurized from the floor discharge space is blown out evenly at low speed from the entire floor surface, rides the rising air current generated by the heat generated by people and office equipment, rises in one direction without mixing with indoor polluted air, and is exhausted to the top. It's a method.

This invention is an air conditioning method that prevents the spread of viruses, uniform temperature distribution anywhere indoors, clean air quality, and does not cause unpleasant airflow (cold draft) at low speeds. Clean air conditioned air is blown out at low speeds from the entire floor through low-speed displacement, so it is used in residential areas. is always filled with fresh air, and due to the heat load of people and PCs generated in the residential area, pollutants or odors generated indoors are exhausted through the upper ceiling through the rising air current as shown in Figure 3 without mixing and dispersing to the surrounding area. am.

As can be seen from the above figure, the pressurized air in the floor outlet space is always filled with fresh air, and in particular, it can be seen that the stratified distribution of temperature is formed uniformly as shown in FIG. 2.

Figure 4 is a diagram showing the structure of a building in which the present invention is installed, and Figure 5 is a diagram showing the operating state of the present invention in the structure of Figure 4.

As shown, the present invention forms a floor extraction space 30 in the space between the floor slab 10 and the floor finishing part 20.

The floor blowing space 30 is structured to draw air from the floor blowing space 30 through the air conditioner 40 and blow it out into the room. The blown air is discharged to the ceiling and then sucked back into the air conditioner 40. The air is then discharged to the floor discharge space 40 to circulate.

As shown in FIG. 5, due to this bottom blowing space 30, air is blown out evenly at a low speed from the front, in the direction viewed from the floor, through the floor finishing part 20 from the bottom blowing space 30. It's showing.

As shown in Figure 5, in open spaces, general office rooms, and concentrated work spaces, the air blowing out without mixing with indoor polluted air rises in one direction at a wind speed of 0.3 to 0.4 m/s, and the average wind speed for the year of residence is 0.01 to 0.04 m/s, and is exhausted to the ceiling. I'm doing it.

In particular, the air blown out from the floor is a vertical laminar airflow in the form of semiconductor clean room airflow and rises vertically without mixing with indoor polluted air, preventing the spread of viruses and preventing airflow discomfort.

Figure 6 is a partially enlarged view of Figure 4, and Figure 7 is a view showing members applied to the floor finish applied to the present invention.

Referring again to FIG. 4 and FIGS. 6 and 7, the floor finishing portion 20 applied to the present invention is supported by a plurality of supports 40 and is installed to be spaced upward from the floor slab 10.

The floor finishing portion 20 is installed and fixed to the upper end of the support 40, and is installed on a floor panel 22 having a plurality of air outlets 22a and an upper surface of the floor panel 22, and the air outlets (22a). It includes a floor finishing material 24 in which an air supply port 24a of a relatively smaller size than 22a is formed.

The floor panel 22 applied to the present invention is shown in detail in FIG. 7 and has a double structure consisting of an upper and lower part, and air outlets 22a are passed through the upper and lower parts alternately to blow air into the indoor space. do.

This floor panel 22 is supported by a support 40, and the support 40 consists of a support 42 that supports the load and an adjustment table 44 that adjusts the height.

The end of the support 40 is fixed to the floor slab 10, and then the extended tip penetrates the floor panel 22 and is maintained horizontally with the upper surface of the floor panel 22 or is finished in a low state.

The adjuster 44 finely adjusts the height of the floor panel 22 to have the same height while maintaining it horizontally, and has an annular shape and a center of the annulus to support the lower surface of the floor panel 22. It consists of a structure that is screwed together to be operated and fixed at the tip.

Continuing, Figure 8 is a diagram showing a structure in which a floor panel applied to the present invention is installed to form an air outlet, Figure 9 is a diagram showing an air blowing block applied to the present invention, and Figure 10 is a smart panel applied to the present invention. This is a diagram showing the state of operating the air outlet using a watch.

The air outlet 50 applied to the present invention is, for example, formed between the floor panels 22, and an air outlet block 60 is installed as the air outlet 50, and the air outlet block 60 is inside the indoor space. It is opened and closed in conjunction with a smart watch (not shown) that detects the wearer's body temperature when it is higher or lower than the set temperature.

The air blowing block 60 is basically capable of communicating with an external smart watch, and the operation of the air blowing block 60 is controlled by such communication.

For example, when a user approaches the air blowing block 60 while carrying a smart watch, the air blowing block 60 is connected to the user's smart watch through a communication network, and when the connection is confirmed, the air blowing block 60 ) can be opened or closed, or it can be opened or closed by determining whether the distance to the user is within a specified range.

The smart watch applied to the present invention may be applied to a variety of products, and a representative example may be Samsung Electronics' Galaxy series.

In addition, the smart watch may be installed with software that can control the air blowing block 60, that is, an application, and the user can check the current state of the air blowing block 60 through the function of the application or the smart watch itself. It can be implemented to check various information including.

The air outlet block 60 includes a motor, a control unit, and a communication unit, and the air outlet block 60 can be specifically opened and closed through the motor.

Specifically, the present invention includes a function that can measure body temperature among the functions or applications installed on the smart watch, and when the measured body temperature is relatively high, it is within the communication range with the air blowing block 60. If present, they can be operated simultaneously to increase the amount of air blown out.

In this way, the present invention can perform individual temperature control according to the individual's taste or preference by installing the air blowing block 60 at the individual workstation, and the air blowing block 60 can be turned on or off depending on whether the user or worker is seated. It can be opened or closed by performing OFF control.

As described above, the present invention can be implemented in various other forms without departing from its spirit or main features. Therefore, the above-described embodiments are merely examples in all respects and should not be construed as limiting. The scope of the present invention is indicated by the scope of the patent claims, and is not limited in any way by the text of the specification. Again, all modifications and changes falling within the equivalent scope of the claims are within the scope of the present invention.

,10: Floor slab 20: Floor finishing part
30: Floor outlet space 40: Air conditioner
50: air outlet 60: air outlet block

Claims (2)

In the air conditioning system, which forms a floor outlet space formed in the space between the floor slab and the floor finish, draws air from the floor outlet space through an air conditioner, blows it out into the room, and discharges it to the ceiling to circulate the air,
An air blowing part is formed in the bottom finishing part, and an air blowing block is installed in the air blowing part. The air blowing block is linked to open and close when the temperature is higher or lower than the set temperature by a smart watch that detects the wearer's body temperature. A personalized air conditioning system that is automatically controlled by a smart watch.
According to paragraph 1,
The floor finishing part is installed to be spaced upward from the floor slab by a plurality of supports, is fixed to the upper end of the support body, and is installed on a floor panel with a plurality of air outlets formed on the upper surface of the floor panel, and is installed on the upper surface of the floor panel, and is located on A personal air conditioning system automatically controlled by a smart watch, which includes a floor finishing material with a relatively small air supply port.