KR20100089711A - Air conditioning system installed in the floor - Google Patents

Abstract

The present invention relates to a floor air conditioning system for heating and cooling a floor air conditioning system capable of cooling and heating a room temperature more quickly.

Air conditioning system of the floor air conditioning system according to the present invention is a heating and cooling air conditioner (1) installed on the outside of the building, a control unit (2) for controlling the air conditioning and air conditioning, connection duct (4) connecting the air conditioner and the floor duct (3), building interior In addition to being coupled to the bottom duct (3) is provided with a control unit 12 therein, a fan 11 is provided on the lower side, the indoor air inlet (10a) is formed on the upper side and the outlet (10b) is formed on one side thereof An inlet 10c is formed at one side and between the indoor air inlet 10a and the inlet 10c for driving the damper 13 and the damper 13 to shield the indoor air inlet 10a and the inlet 10c. It is comprised with the indoor unit provided with the motor 16.

Description

Air conditioning system installed in the floor

The present invention relates to a floor air conditioning system for heating and cooling a floor air conditioning system capable of cooling and heating a room temperature more quickly.

In general, a ceiling air conditioning system is used to heat and cool a large building. Such an air conditioning system basically consists of a large air conditioner having an air conditioning function installed outside the building, a control unit for controlling the air conditioner, and an indoor unit installed in a duct provided in the ceiling of each interior of the building.

By the way, in cooling and cooling the room using the air conditioning system of the ceiling air conditioning system configured as described above, air cooled by the air conditioner is introduced into the room through the indoor unit installed on the ceiling.

The air-cooled air introduced as described above is first mixed with the air of the upper side of the room to cool and heat the upper side of the room, and the air of the upper side is gradually cooled and heated after the air conditioning is completed.

Accordingly, the air-conditioning state of the indoor air that people living in the room realistically feel with the skin feels slower than the actual indoor air temperature.

Therefore, it is set to set the heating and cooling temperature stronger than the appropriate temperature, which puts a load on the operation of the air conditioner and outdoor unit. In addition, due to excessive operation of the air conditioner and the outdoor unit, there is a problem in that more power is consumed to heat and heat the building.

In order to compensate for the above problems, a new air-conditioning and heating system has been developed and newly constructed to install an outdoor unit in a space such as a duct formed on the floor of a room so that a person in the room can feel the air cooled quickly. This setting is applied to buildings.

The air conditioning system of the floor air conditioning system discharges the air-cooled air flowing into the air conditioner to the upper side through a plurality of indoor units installed on the indoor floor, thereby rapidly heating and cooling the people living in the room by contacting the air cooled with the skin more quickly. You can experience the air.

By the way, the air conditioning system of the air conditioning floor air conditioning system as described above has the following problems.

1. The air conditioning system of floor air conditioning system checks the temperature in the indoor unit installed in the room and then opens and closes the damper to discharge the air-conditioned air from the air conditioner into the room. However, since the indoor unit is basically installed in the duct formed on the floor, the indoor unit is operated by checking the temperature inside the duct instead of reflecting the indoor temperature.

Accordingly, when a temperature difference between the room temperature and the duct is generated according to the operation of the air conditioner, the indoor unit operates by reflecting the temperature of the duct, and thus there is a problem in that the cooled and heated air introduced through the air conditioner is not discharged into the room.

2. Due to the above problems, in order to cool the room, the air conditioner is sufficiently operated first, so there is a big problem of power loss due to the operation of the air conditioner.

The present invention has been made in view of the above-described circumstances, and has a technical object of providing a heating and cooling system of a floor air-conditioning system that can cool and heat a room more quickly.

The air conditioning system of the floor air conditioner according to the present invention is provided with a control unit inside the air conditioning and air conditioning unit installed outside the building, a control unit for controlling the air conditioning and air conditioning unit, a connection duct for connecting the air conditioner and the floor duct, the floor duct inside the building And a fan is provided at a lower side thereof, an indoor air inlet is formed at an upper side thereof, an outlet is formed at one side thereof, and an inlet is formed at one side thereof, and a damper and a damper for shielding the indoor air inlet and the inlet are driven between the indoor air inlet and the inlet. Characterized in that it comprises an indoor unit provided with a motor for.

In addition, the indoor unit is characterized in that the filter is further provided on the upper side of the indoor air inlet.

In addition, the lower end of the discharge port of the indoor unit is characterized in that the curved portion is formed.

In addition, the damper is characterized in that the rotating shaft is formed on the upper end and the blocking plate formed to be bent with the rotating shaft is formed and both ends of the rotating shaft is rotatably fixed to the outside of the indoor unit through the bearing.

In addition, the control unit is characterized in that the control panel is provided with a display window on the front and to control the control unit on one side thereof.

In addition, the indoor unit is operated at the maximum load during the initial operation, it characterized in that the damper blocks the indoor air inlet.

According to the present invention described above it is possible to provide a floor air-conditioning heating and cooling system to be able to cool and heat the room faster.

Hereinafter, embodiments according to the present invention will be described with reference to the drawings. The embodiments described below are illustrative of one preferred configuration of the present invention, and examples of such embodiments are not intended to limit the scope of the present invention. The present invention can be variously modified without departing from the technical idea thereof.

1 is a schematic diagram of a heating and cooling system of a floor air conditioning method according to an embodiment of the present invention.

The air conditioning and heating system of the floor air conditioning system of the present invention is an air conditioner (1) installed outside the building and the control unit (2) for controlling the air conditioner (1) and the indoor unit 10 installed in the floor duct (3) of the building interior It is configured to include. The air conditioner 1 and the floor duct inside the building communicate with each other through the connection duct 3.

Since the air conditioner 1 and the control unit 2 for controlling the same are the same as the air conditioner 1 and the control unit 2 generally used, a detailed description thereof will be omitted.

Figure 2 is a cross-sectional view of the indoor unit of the floor air conditioning air-conditioning system shown in Figure 1, Figures 3a-3b is a cross-sectional view showing a fastening state of the damper.

The indoor unit 10 has a square shape and has an indoor air inlet 10a for introducing indoor air on the upper side thereof, and an outlet 10b for discharging air introduced into the indoor unit 10 on the opposite side thereof, and at the side thereof. An inlet 10c for introducing air cooled and heated through the air conditioner 1 to the indoor unit 1 is formed.

A fan 11 is provided between the indoor air inlet 10a and the outlet 10c for inlet and outlet of air. As the fan 11 used, an AC cenfrifugal blowers fan 11 is used. In addition, a control unit 12 for controlling the indoor unit 10 is provided above the fan 11.

One side of the indoor air inlet 10a and the inlet 10c is provided with a damper 13 for shielding the indoor air inlet 10a and the inlet 10c.

A curved portion 10d is formed at the lower end of the outlet 10b. The curved portion 10d is provided to allow the air discharged to the outlet 10b through the fan 11 to be discharged more quickly.

The heater 14 is provided above the curved portion 10d. The heater 14 is used to individually heat the indoor air in winter. The heater 14 is a PTC heater.

The filter coupling portion 10e is formed above the indoor air inlet 10a. The filter 15, which is replaceably formed, is coupled to the filter coupling portion 10e. As the material of the filter 15, a nonwoven fabric or a DHC filter is used.

The damper 13 is formed in an inverted " L " shape having a rotary shaft 13a formed thereon and a blocking plate 13b vertically coupled with the rotary shaft.

The rotating shaft 13a and the blocking plate 13b are bent to have a constant angle. The reason why the rotating shaft 13a and the blocking plate 13b are formed as described above is to block the indoor air inlet 10a and the inlet 10c by moving the blocking plate 13b up and down with less power.

 The rotary shaft 13a is coupled to protrude to both sides of the indoor unit 10 and then rotatably fastened through a bearing.

And, the gear is coupled to one side of the rotary shaft (13a). The gear is gear-coupled with the motor 16 provided outside the indoor unit 10. Therefore, the damper 13 is vertically conveyed by the rotation of the motor 16.

The blocking plate 13b formed in the damper 13 has its entire surface closely contacted with the indoor air inlet 10a and the inlet 10c so that the air is introduced into the air inlet 10a and the inlet 10c. More effectively block the outside air.

Although not shown in the drawing, the control unit 12 is provided with a display window for displaying the setting state of the current indoor unit 10 on the front thereof, and a control panel for controlling the operation of the indoor unit 10 is provided at one side of the display window. It is provided. The control unit 12 checks the temperature by two sensors. One of the two sensors is installed indoors and the other sensor is installed on the floor to check the temperature of the floor.

4 is a state diagram in which the indoor unit is installed on the floor, and FIG. 5 is a plan view illustrating an arrangement of the indoor unit installed in the floor of FIG. 4.

The indoor unit 10 is installed in the frame 5 of the floor of the building interior. At this time, the size of the indoor unit 10 is set to the same diameter as the size of the bottom panel 6 installed on the upper side of the frame (5).

The indoor unit 10 first removes the bottom panel 6 installed on the floor, and then installs the indoor unit 10 in the removed position. After the indoor unit 10 is installed, the grille 6a is installed on the upper side of the indoor air inlet 10a and the outlet 10b formed on the upper side of the indoor unit 10 and then manufactured to fit the size of the indoor unit 10. Install the bottom panel (6b).

In the installation of the indoor unit 10, as shown in FIG. 5, a plurality of indoor units 10 are installed on the floor to be spaced apart at regular intervals.

6 is a state diagram showing the outdoor air suction operation of the indoor unit, Figure 7 is a state diagram showing the internal air circulation operation of the indoor unit.

In the cooling mode of the air conditioning system of the floor air conditioning system of the present invention, when the cooling system is initially operated, the indoor unit 10 is set to operate at the maximum load. At this time, the damper 13 is set in a state in which the indoor air inlet 10a is blocked while being moved upward, so that the inlet 10c is completely open. At the same time, the speed of the fan 11 is operated at the maximum speed. When the damper 13 opens the inlet 10c, the air introduced into the floor duct 3 from the air conditioner 1 through the inlet 10c is sucked into the indoor unit 10, and the sucked air is discharged from the outlet 10b. ) Will be discharged into the room.

The maximum load operation in such a state is changed to the automatic operation mode at the moment when the room temperature changes and the setting value is reached, and the fan 11 is operated in the first stage of constant speed operation.

In the heating mode, when the heating system is initially operated, the indoor unit 10 is set to operate at the maximum load. At this time, the damper 13 is set in a state in which the indoor air inlet 10a is blocked while being moved upward, so that the inlet 10c is completely open. At the same time, the speed of the fan 11 is operated at the maximum speed. When the damper 13 opens the inlet 10c, the air introduced into the floor duct 3 from the air conditioner 1 through the inlet 10c is sucked into the indoor unit 10 and the air sucked into the indoor unit is discharged ( Through 10b).

The maximum load operation in such a state is changed to the automatic operation mode at the moment when the room temperature changes and the setting value is reached, and the speed of the fan 11 is operated in the first stage of constant speed operation.

In the automatic operation mode, when the indoor temperature set in the control unit 12 is lower than the set temperature and the temperature of the floor duct is higher than the indoor temperature, the damper 13 is operated to block the inlet port 10c and the indoor air inlet port 10a. ) Will open. When the indoor air inlet 10a is opened as described above, the indoor air is introduced through the indoor air inlet 10a and the introduced air is discharged through the outlet 10b.

When the indoor temperature is below the setting value in the state of circulating indoor air, the heater 14 is operated by the control unit 12.

Therefore, according to the air conditioning system of the floor air conditioning system it is possible to cool the air in the room more quickly to improve the cooling and heating efficiency, there is no power loss due to excessive operation of the air conditioning system.

In the above, the Example of this invention was described. However, the above embodiment shows one preferred configuration of the present invention, the present invention can be carried out in various modifications within the scope without departing from the spirit.

1 is a schematic diagram of a heating and cooling system of the floor air conditioning method according to an embodiment of the present invention.

Figure 2 is a cross-sectional view of the indoor unit of the air conditioning system of the floor air conditioner shown in FIG.

3A-3B are cross-sectional views illustrating a fastening state of a damper.

4 is a state in which the indoor unit is installed on the floor.

5 is a plan view showing an arrangement of the indoor unit installed on the floor of FIG.

Figure 6 is a use state showing the outdoor air suction operation of the indoor unit.

7 is a use state diagram showing the bet cycle operation of the indoor unit.

Claims (6)

Air conditioning and air conditioning units installed outside the building, Control unit for controlling the air conditioning and heating, Connecting duct for connecting air conditioner and floor duct, It is coupled to the floor duct inside the building, and a control unit is provided therein, a fan is provided at the bottom thereof, an indoor air inlet is formed at an upper side thereof, an outlet is formed at one side thereof, and an inlet is formed at one side thereof. The air conditioning system of the floor air conditioning system comprising a damper for shielding the inlet and the inlet of the indoor air and an indoor unit having a motor for driving the damper. The method of claim 1, The indoor unit is a floor air conditioning air conditioning system, characterized in that the filter is further provided on the upper side of the indoor air inlet. The method of claim 1, The air conditioning system of the floor air conditioning system, characterized in that the lower end of the discharge port of the indoor unit is formed with a curved portion. The method of claim 1, The damper has a rotary shaft is formed on the top of the damper is formed with a blocking plate formed to be bent with the rotary shaft, and both ends of the rotary shaft is fixed to the outside of the indoor unit through a bearing rotatably air-conditioning heating system. The method of claim 1, The control unit is provided with a display window on the front and the air conditioning system of the floor air conditioning system characterized in that the control panel is provided to adjust the control unit on one side. The method of claim 1, The indoor unit is operated at the maximum load during the initial operation and the air conditioning system of the floor air conditioning system characterized in that the damper blocks the indoor air inlet.

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