KR20210040538A - Air Conditioner System Include Filter Of Fine Dust - Google Patents

Abstract

The present invention relates to an air conditioning system including a fine dust filter module. The air conditioning system including the fine dust filter module comprises: an air conditioning module wherein a first suction tube, a first discharge tube, a second suction tube, and a second discharge tube are formed on one side surface thereof; a suction fan module installed in a position overlapping the first suction tube inside the air conditioning module; an air supply fan module installed in a position overlapping the second discharge tube inside the air conditioning module; and a filter module having a first filter unit in which a filter accommodation space is installed and which is installed between the suction fan module and the air supply fan module and a second filter unit inserted into the filter accommodation space and fixed to the first filter unit.

Description

Air Conditioner System Include Filter Of Fine Dust {Air Conditioner System Include Filter Of Fine Dust}

The present invention belongs to the technical field of an air conditioner.

In recent years, as many people have increased interest in health, it is important to create a comfortable environment for spending a long time.

An air conditioner is a device that creates indoor air in a pleasant state, and has become an important device capable of creating a pleasant environment that many people consider important. Interest in air conditioners is also increasing day by day.

Moreover, recently, as the number of days with high concentration of fine dust increases, situations in which the fine dust enters the room according to the operation of the air conditioner and is opposite to the effect that occurs when the air conditioner is driven are frequently occurring.

Accordingly, development of an air conditioner capable of removing fine dust is currently underway.

However, most of the developed air conditioners have a structure in which fine dust in the air is removed simply by installing a plurality of filter modules inside the air conditioner. An air conditioner having such a structure is causing a problem of increasing the overall volume, and even causing a problem that it is not easy to install in a narrow space.

Korean Patent Registration No. 10-0767734 (Announcement date: 2007.10.17)

An object to be solved by the present invention is to provide an air conditioning system capable of maximizing the removal effect of fine dust as well as dust such as animal hair and lint without increasing the size. In addition, it is intended to provide an air conditioning system capable of confirming whether a damper is operating normally and whether a filter module is in a state through a pressure difference between the filter module.

In this way, the problem to be solved of the present invention is not limited to the problems mentioned above, and other problems to be solved that are not mentioned will be clearly understood by those skilled in the art from the following description.

An air conditioning system including a fine dust filter module of the present invention for achieving the above technical problem comprises: an air conditioning module having a first suction container, a first discharge container, a second suction container and a second discharge container formed on one side thereof;

A suction fan module installed in the air conditioning module at a position overlapping with the first suction tube;

An air supply fan module installed in the air conditioning module at a position overlapping with the second discharge tube; And

And a filter module having a filter receiving space formed therein, a first filter unit installed between the suction fan module and the air supply fan module, and a second filter unit inserted into the filter receiving space and fixed to the first filter unit do.

The second filter unit includes a receiving filter inserted into the filter receiving space and a protruding filter module installed on the other side of the receiving filter and protruding from the filter receiving space,

The first filter unit may include a body filter having the filter receiving space formed therein, and a connector connected to the other end of the body filter and having a groove corresponding to the thickness of the protruding filter therein.

The air conditioning module,

A damper part installed in at least one of the first suction container, the first discharge container, the second suction container, and the second discharge container,

When the first sensor is located on one side of the first filter unit and the second sensor is located on the other side, and the suction fan module and the air supply fan module are driven, a first pressure difference signal is generated and the suction fan module and the A differential pressure sensor unit that generates a second pressure difference signal when the air supply fan module is not driven,

When the suction fan module, the air supply fan module and the differential pressure sensor unit are connected to control the operation of the suction fan module and the air supply fan module, and when the first signal is received from the differential pressure sensor unit, a first alarm A control unit that generates a signal and generates a second alarm signal when the second signal is received, and

An alarm unit connected to the control unit and outputting status information of the filter module when receiving the first alarm signal and outputting status information of the damper unit when receiving the second alarm signal may be included.

The damper part,

When the intake fan module and the air supply fan module operate, they operate in a first state so that air can be introduced into the air conditioner module,

When the intake fan module and the air supply fan module are not operated, it may be operated in a second state so that air does not flow into the air conditioner module.

According to the present invention, the filter module is formed in a structure in which the other fine dust filter is inserted inside one of the fine dust filters, so that the overall size of the air conditioner module in which the filter module is installed may not be increased. In addition, since the filter module is installed in a dual structure, fine dust can be effectively removed, and maximum dust removal efficiency can be achieved.

In addition, according to the present invention, the pressure difference between both ends of the filter module is determined, and based on the determined information, whether or not the damper is normally operated and the state of the filter can be accurately identified. Through this, the present invention allows the damper to be repaired at an appropriate time and the filter to be replaced at an appropriate time.

1 is a view showing an air conditioning system including a fine dust filter module according to an embodiment of the present invention.
2 is a schematic structural diagram of an air conditioning system including the fine dust filter module of FIG. 1.
3 is a diagram showing the structure of the filter module of FIG. 1.
4 is a view showing an operating state of the filter module of FIG. 3.
5 and 6 are operational diagrams of an air conditioning system including a fine dust filter module.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The embodiments of the present invention are provided to more completely describe the present invention to those of ordinary skill in the art, and the following embodiments may be modified in various other forms. The present invention is not limited to the following examples, but is merely provided to completely convey the description and features of the present invention. The claims of the present invention are limited only by the content set forth in the claims.

In the present specification, an air conditioning system including a fine dust filter module according to an embodiment of the present invention will be generally described with reference to FIG. 1 so that the description of the present invention may be concise and clear. Hereinafter, components constituting an air conditioning system including a fine dust filter module according to an embodiment of the present invention and a relationship between the components will be described with reference to the description and FIG. 2.

1 is a view showing an air conditioning system including a fine dust filter module according to an embodiment of the present invention. And FIG. 2 is a schematic structural diagram of an air conditioning system including the fine dust filter module of FIG. 1.

The air conditioning system 1 including the fine dust filter module includes a filter module 102 having a structure in which the second filter unit 1022 is inserted into the first filter unit 1021 inside the air conditioner module. , It is possible to install a plurality of filter modules 102 without increasing the volume of the air conditioner module. Moreover, in the air conditioning system 1 including such a fine dust filter module, the filter module 102 is formed in a double filter structure to sequentially remove dust introduced from the outside, thereby maximizing dust efficiency. For example, the filter module 102 filters out large dust such as animal hair, lint, hair, etc. together with air from the outside through the first filter unit 1021, and removes fine dust from the second filter unit 1022 It removes dust from the air in a way that does.

The air conditioning system 1 including the fine dust filter module removes dust in a multi-stage manner and can increase dust removal efficiency. In addition, the air conditioning system 1 including the fine dust filter module uses the differential pressure sensor unit 104 to determine the pressure difference at both ends of the filter module, and clarifies whether the damper is operating normally and the filter condition based on the determined information. I can grasp it. In addition, the air conditioning system 1 including the fine dust filter module enables the damper to be maintained at an accurate time using the determined status information of the damper and the filter, and the filter can be replaced at an appropriate time. Furthermore, the air conditioning system 1 including the fine dust filter module can accurately grasp the state of the heat exchanger based on the state information of the damper and the filter, so that the heat exchanger does not freeze. The air conditioning system 1 including a fine dust filter module having such a feature largely includes an air conditioner module 10, a control unit 20, and an alarm unit 30.

Hereinafter, components constituting the air conditioning system 1 including the fine dust filter module will be described in detail.

After the air in the room R is introduced, the air conditioner module 10 exhausts some of the air to the outside, and removes the rest of the fine dust and supplies it to the interior. The air conditioner module 10 is formed in a rectangular parallelepiped shape and has a housing 11 having a plurality of areas formed therein, and an intake fan module 101, a filter module 102, and an air supply fan module installed inside the housing 11 (103), the differential pressure sensor unit 104, the heater 105, and may be formed in a structure including a freeze prevention device (106). Here, the filter module 102 is formed in a structure in which the other filter is fitted inside any one filter. That is, the filter module 102 is formed in a double structure. The filter module 102 will be described later.

On the outer surface of the air conditioner module 10, a first suction tube 110 having a first suction port 111 formed on the outside of the housing 11, a first discharge container 120 having a first discharge port 121, A second suction tube 130 having a second suction port 132 and a second discharge tube 140 having the second discharge port 142 may be further formed. In addition, a damper part 131 may be formed in at least one of the first suction container, the second suction container, the first discharge container, and the second discharge container of the air conditioner module 10. Here, the freezing prevention device 106 becomes a heat exchanger composed of a coil (C). The freeze prevention device includes a main body that becomes a heat exchanger, a first heater part installed on one side of the main body, a second heater part installed on the other side of the main body, a third heater part installed on the lower end of the main body, and a filter module and a main body in the front of the main body. It includes an air riser plate installed in the transverse direction between them.

The freeze prevention device 106 of this structure is connected to the control unit 20. The freeze prevention device 106 operates the first heater, the second heater, and the third heater according to the operation of the control unit 20, and the air-rising plate slightly reduces the warm air generated from the third heater to the lower side of the main body. Make it possible to stay longer. In particular, the air rising membrane includes a plurality of through holes penetrating the upper and lower sides, reducing the area in which the warm air generated from the third heater can move to the upper side due to the difference in density, so that the warm air does not rise at once. , Let it rise little by little and allow warm air to come into contact with the main body. In addition, it is assumed that the damper unit 131 described in the present specification is installed in the second suction tube 130 so that the description of the present invention may be concise and clear. In this way, the damper part 131 is installed in the second suction tube 130 as an example only, and the installation position of the damper part 131 is not limited thereto.

The damper unit 131 includes a plurality of air control plates and a plurality of joints installed outside the barrel and an adjustment unit. The damper part 131 may close or open the second suction port 132 according to the operation of the air control plate. In addition, air may or may not be introduced according to the opening and closing of the second suction port 132.

The air conditioner module 10 uses the differential pressure sensor unit 104 to determine the pressure difference between both ends of the filter module when the intake fan module 101 and the air supply fan module 103 are driven and not driven. In addition, a signal for repairing the damper of the air conditioner module 10 and a signal for replacing the filter may be generated based on the determined pressure difference.

More specifically, the air conditioner module 10 generates a first signal when the suction fan module and the air supply fan module are driven through the differential pressure sensor unit 104, and the suction fan module and the air supply fan module are not driven. , When not driven, a second signal may be generated. The air conditioner module 10 transmits the generated signal to the control unit 20.

The controller 20 is connected to devices installed in the air conditioner module 10 to transmit and receive control signals. As an example, the control unit 20 is connected to the intake fan module 101 and the air supply fan module 103 to transmit and receive a control signal, the motor control center 210 and the differential pressure sensor unit 104 is connected to the differential pressure sensor unit 104 And a differential pressure sensor control center that transmits and receives a control signal and a control signal. This control unit 20 may be formed as a computer that transmits and receives signals and processes the received signals. A filter exchange period value may be set in the control unit 20.

The control unit 20 is connected to the air conditioner module 10 and controls the operation of the intake fan module 101 and the air supply fan module. When receiving the first signal from the differential pressure sensor unit 104, the control unit 20 may generate a first alarm signal and, when receiving the second signal, generate a second alarm signal. The control unit 20 transmits the generated first and second alarm signals to the alarm unit 30.

The alarm unit 30 allows the replacement period of the filter and the relative of the damper unit to be displayed. The alarm unit 30 generates an alarm by receiving the first alarm signal and the second alarm signal. The alarm unit 30 may be formed of a speaker that outputs sound, and a display device that outputs a filter replacement cycle and a defective position of the damper unit on a screen.

The alarm unit 30 may output the first alarm signal and the second alarm signal as a sound or a screen, and provide information on whether the damper needs maintenance and information on whether the filter needs to be replaced.

Hereinafter, the structure and operating state of the filter module will be described in detail with reference to FIGS. 3 and 4.

3 is a view showing the structure of the filter module of FIG. 1, and FIG. 4 is a view showing an operating state of the filter module of FIG. 3.

The filter module 102 is formed in a structure in which the second filter unit 1022 is inserted into the first filter unit 1021. The first filter unit 1021 includes a body filter 10211 having a rectangular parallelepiped shape with an accommodation space 10210 formed therein, and at least one groove 10213 formed therein, as shown in (a) of FIG. It is formed with a connector 10212 connected to the other end of the body filter 10211. In addition, the second filter portion 1022 is formed of a receiving filter 10221 inserted into the receiving space of the body filter 10211 and a protruding filter 1022 inserted into the groove of the connector 10212.

After the filter module 102 is inserted into the receiving space of the first filter unit 1021, the receiving filter 10221 is inserted into the receiving space of the first filter unit 1021, and then the first filter unit 1021 A portion of the other end of and the protruding filter 10222 of the second filter portion 1022 may be formed in a structure that is fastened to the groove 10213 formed in the connector 10212. The filter module 102 may be formed in a double filter structure, as shown in (c) of Figure 3, the second filter portion 1022 is inserted into the body filter (10211) and fixed to the connector (10212).

The filter module 102 having such a structure filters the air (A) introduced from the top, bottom, and one end of the air conditioning module in two stages, thereby increasing the removal rate of fine dust in the air. For example, the filter module 102 may be formed in a structure in which a second filter unit 1022 installed in a direction opposite to a conventional medium filter and a first filter unit 1021, which is a pre-filter formed of a nonwoven fabric, are combined. The filter module 102 having this structure primarily removes large dust in the air through the first filter unit 1021, and secondarily removes fine dust in the air through the second filter unit 1022, and (D) can be removed effectively.

In addition, the first filter unit 1021 is located outside the second filter unit, covers five surfaces of the second filter unit, and removes large dust flowing into the second filter unit. The first filter unit 1021 may remove large dust and prevent large dust from being trapped in the second filter unit. And through this feature, the second filter unit can be used for a long period of time.

In addition, although the filter module 102 is not shown, a receiving space of the receiving filter of the second filter unit is formed therein, a third filter unit inserted into the receiving space of the receiving filter is inserted, and the protruding filter of the third filter unit is It may also be formed in a structure connected to the connector. In this case, the third filter unit may be a HEPA filter. And through the filter module 102 having this structure, it is possible to more effectively remove the fine dust of the air introduced from the outside.

Hereinafter, an operation of an air conditioning system including a fine dust filter module will be described with reference to FIGS. 5 and 6.

5 is a view showing a state in which the differential pressure sensor unit operates when the intake fan module and the air supply fan module are operated so that the control unit processes signals generated from the differential pressure sensor unit. 6 is a view showing a state in which the differential pressure sensor unit operates when the intake fan module and the air supply fan module are not operated so that the control unit processes signals generated from the differential pressure sensor unit. That is, FIGS. 5 and 6 are operational diagrams of an air conditioning system including a fine dust filter module.

The air conditioning system 1 including the fine dust filter module can determine the pressure difference between both ends of the filter module when the intake fan module 101 and the supply fan module 103 are driven and not driven through the differential pressure sensor unit 104. So it works.

First, when the intake fan module 101 and the air supply fan module 103 are operated, the damper unit 131 may be operated in a first state so that air can be introduced into the housing. In this case, the first state is a state in which the air control plate is positioned in the height direction of the housing so that air can be introduced into the interior, that is, an open state. Further, the damper unit 131 operates in a second state so that air is not introduced into the housing when the intake fan module 101 and the air supply fan module 103 are not operated. In this case, the second state is a state in which the air control plate is positioned in the longitudinal direction of the housing so that air cannot be introduced into the interior, that is, a closed state.

When the damper unit 131 is operated in the first state, the differential pressure sensor unit 104 may generate a first signal in response to a pressure difference between one side and the other side of the filter module. More specifically, when the damper unit 131 is opened, the differential pressure sensor unit 104 measures the pressure of air flowing into one side of the filter module through the first sensor 1041, and the second sensor 1042 Measure the pressure of air that has passed through the filter module. The differential pressure sensor unit 104 may generate a first signal by measuring a difference between the air pressure before passing through the filter module and the air pressure after passing through the filter module. That is, the differential pressure sensor unit 104 may generate the first signal through a pressure difference between before and after passing through the filter module.

The control unit 20 may adjust the differential pressure corresponding to the case of the new filter module by the differential pressure sensor unit 104 and the differential pressure of the filter module according to the usage time. The differential pressure sensor unit 104 may compare the adjusted differential pressure and the measured differential pressure and generate a first signal in response to the contrasted value. The controller 20 may receive the first signal and generate a first alarm signal in comparison with a set filter exchange period value. At this time, the control unit 20 generates a first alarm signal as a filter replacement alarm signal when the value of the first signal is less than the filter replacement cycle value, and when the value of the first signal is greater than the filter replacement cycle value, the first alarm The signal can be generated as a filter holding signal.

On the other hand, when the damper unit 131 is operated in the second state, the differential pressure sensor unit 104 generates a second signal corresponding to the pressure of the air introduced through the damper unit 131 I can make it. More specifically, the differential pressure sensor unit 104 generates a second signal from the first sensor when the damper unit 131 operates normally and the second suction port 132 is completely closed, indicating that the damper unit 131 is operating normally. It can generate a signal. However, when the damper part 131 operates abnormally and the second inlet 132 is not completely closed and partially opened, the first sensor 1041 corresponds to the pressure measured through the second inlet 132, A signal may be generated as a signal indicating that the damper unit 131 has operated abnormally. The control unit 20 may receive the first signal to generate a first alarm signal, receive the second signal to generate a second alarm signal, and transmit it to the alarm unit 30.

The notification unit 30 includes a speaker and a display device, and may output filter usage status information and abnormal status information of a damper unit through a first warning signal and a second warning signal received from the control unit 20. For example, when receiving the first alarm signal, the notification unit 30 prevents a sound from being emitted from the speaker, and the display device may indicate that the damper unit is operating normally. On the other hand, when the notification unit 30 receives the second alarm signal, the notification sound is generated from the speaker, and the display device may indicate that the damper unit is not normally driven.

In addition, although not shown, the control unit 20 may be connected to the first heater unit, the second heater unit, and the third heater unit to operate a plurality of heater units. In this case, the control unit 20 may individually drive the first heater, the second heater, and the third heater, and may be driven to generate different heat.

In addition, the control unit 20 generates a heater driving signal corresponding to the operation of the plurality of heater units and transmits it to the notification unit 30. The notification unit 30 may receive a heater driving signal, output a sound and a screen, and notify an operator of the operation state of the heater unit.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those of ordinary skill in the art to which the present invention pertains can be implemented in other specific forms without changing the technical spirit or essential features. You will be able to understand. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not limiting.

1: Air conditioning system including fine dust filter module
10: air conditioning module 11: housing
101: intake fan module 102: filter module
1021: first filter unit
10210: filter accommodation space 10211: body filter
10212: coupler 10213: groove
1022: second filter unit
10221: receiving filter 10222: protruding filter
103: air supply fan module 104: differential pressure sensor unit
105: heater 106: freeze prevention device
110: first suction vessel 111: first suction port
120: first outlet 121: first outlet
130: second suction vessel 131: damper portion
132: second inlet
140: second outlet 142: second outlet
20: control unit 210: motor control unit
30: notification unit

Claims (4)

An air conditioning module having a first suction container, a first discharge container, a second suction container, and a second discharge container formed on one side thereof;
A suction fan module installed in the air conditioning module at a position overlapping with the first suction tube;
An air supply fan module installed in the air conditioning module at a position overlapping with the second discharge tube; And
And a filter module having a filter receiving space formed therein and having a first filter unit installed between the suction fan module and the air supply fan module, and a second filter unit inserted into the filter receiving space and fixed to the first filter unit Air conditioning system including fine dust filter module. The method of claim 1,
The second filter unit includes a receiving filter inserted into the filter receiving space and a protruding filter module installed on the other side of the receiving filter and protruding from the filter receiving space,
The first filter unit includes a body filter having the filter receiving space formed therein, and a connector connected to the other end of the body filter and having a groove corresponding to the thickness of the protruding filter therein. system. The method of claim 1,
The air conditioning module,
A damper part installed in at least one of the first suction container, the first discharge container, the second suction container, and the second discharge container,
When the first sensor is located on one side of the first filter unit and the second sensor is located on the other side, and the suction fan module and the air supply fan module are driven, a first signal is generated and the suction fan module and the air supply fan A differential pressure sensor unit that generates a second signal when the module is not driven,
When the suction fan module, the air supply fan module and the differential pressure sensor unit are connected to control the operation of the suction fan module and the air supply fan module, and when the first signal is received from the differential pressure sensor unit, a first alarm A control unit that generates a signal and generates a second alarm signal when the second signal is received, and
A fine dust filter module comprising an alarm unit connected to the control unit and outputting status information of the filter module when receiving the first alarm signal and outputting status information of the damper unit when receiving the second alarm signal Air conditioning system including. The method of claim 3,
The damper part,
When the intake fan module and the air supply fan module operate, they operate in a first state so that air can be introduced into the air conditioner module,
When the intake fan module and the air supply fan module are not operated, the air conditioning system including a fine dust filter module operates in a second state so that air does not flow into the air conditioner module.

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