KR100550541B1 - An air-conditioner - Google Patents

Abstract

The present invention relates to an air conditioner that generates oxygen with indoor air to improve comfort and minimizes noise that may occur when oxygen is supplied. The air inlet and the air may be discharged after inhaling heat exchanged with indoor air. An indoor unit having a discharge port and equipped with a blower and a heat exchanger; An oxygen generating unit mounted inside the indoor unit; An oxygen guide hose for guiding the oxygen generated by the oxygen generating unit to the air discharge port; It characterized in that it comprises a silencer mounted on one side of the oxygen guide hose.

Air conditioner, Indoor unit, Oxygen generating unit, Oxygen guide hose, Silencer, Helmholtz resonator

Description

Air Conditioner {An air-conditioner}             

1 is a perspective view of an embodiment of an air conditioner according to the present invention;

2 is an exploded perspective view of an embodiment of an air conditioner according to the present invention;

3 is a cross-sectional view showing the inside of the oxygen guide hose and silencer of the air conditioner according to the embodiment of the present invention;

4 is a schematic configuration diagram showing an oxygen and nitrogen discharge process through the first nitrogen adsorption unit of the oxygen generating unit of an embodiment of the air conditioner according to the present invention;

5 is a schematic configuration diagram illustrating an oxygen and nitrogen discharge process through a second nitrogen adsorption unit of an oxygen generating unit according to an embodiment of the present invention;

6 is a plan view showing the internal structure of the oxygen generating unit of an embodiment of an air conditioner according to the present invention;

7 is a schematic perspective view showing an air conditioner according to the prior art.

<Explanation of symbols on main parts of the drawings>

50: indoor unit 51: base

60: cabinet 62: air intake

64: air discharge port 64a: front discharge port

64b: side discharge port 65: discharge panel

70: front panel 80: blower

81: air filter 82: electric dust collector

90: heat exchanger 100: oxygen generating unit

101: air intake 101a: first intake opening and closing valve

101b; 2nd suction opening and closing valve 102a, 102b: 1st and 2nd nitrogen adsorption | suction part

103: oxygen discharge unit 104: oxygen discharge pump

105: nitrogen discharge part 105a: first exhaust opening and closing valve

105b: second exhaust opening and closing valve 106: vacuum pump

107 filter 108a: first check valve

108b: second check valve 111: oxygen guiding hose

112: first hose 114: second hose

116: silencer 117a: first hose connection

117b: 1st expansion part 118a: 2nd hose connection part

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118b: second expansion pipe 120: oxygen injection port

121: nozzle unit 130: holder

170: nitrogen guide hose 180: air intake hose

The present invention relates to an air conditioner, and more particularly, to an air conditioner capable of minimizing noise generated when oxygen is supplied and improving indoor comfort.

In general, an air conditioner is used to cool or heat a room or purify the air by using a refrigeration cycle of a refrigerant consisting of a compressor, a condenser, an expansion mechanism, and an evaporator to create a more comfortable indoor environment for a user. .

The separate type and the integrated type are functionally the same, but the separate type is a cooling / heating device installed in the indoor side and a heat dissipation / cooling and compression device installed in the outdoor side to connect the two separated devices with refrigerant piping. It integrates the function of cooling heat dissipation and installs it by drilling a hole in the wall of the house or hanging the device on the window.

Recently, an air conditioner that adds an air cleaning function to remove dust and foreign matter from indoor air or an oxygen generating function to generate indoor air by generating oxygen is used, and generates only oxygen separately from a cooler or a heater. And an oxygen generating unit equipped with an oxygen generating air conditioner and a cooler or heater.

7 is a schematic perspective view showing an air conditioner according to the prior art.

In the conventional air conditioner, as shown in FIG. 7, the indoor unit 2 and the outdoor unit 10 are connected to the refrigerant pipe 12 to cool the indoor air while the refrigerant circulates inside the indoor unit 2 and the outdoor unit 10. Or heating.

The oxygen generator unit 20 is mounted to the outdoor unit 10, and an oxygen supply hose 30 is connected to the oxygen generator unit 20 to guide the generated oxygen into the indoor unit 10.

Referring to the operation of the conventional air conditioner configured as described above are as follows.

First, when the oxygen generating unit 20 is operated, outdoor air is sucked into the oxygen generating unit 20 to generate oxygen, and the generated oxygen is inside the indoor unit 2 through the oxygen supply hose 30. Is supplied.

Then, when the indoor unit 20 is driven, the indoor air is sucked into the indoor unit 20 through the air inlet 3 to be heat-exchanged, and then discharged back into the room through the air outlet 4, and the oxygen supply hose ( Oxygen supplied into the indoor unit 20 through 30 is discharged into the room through the air discharge port 4.

However, in the conventional air conditioner, since the oxygen generating unit 20 is mounted on the outdoor unit 10 to generate oxygen to the outdoor air, outdoor odor may be introduced into the room together with oxygen to create an unpleasant feeling, and the oxygen When oxygen is supplied through the supply hose 30, noise generated when the oxygen generating unit 20 is driven is propagated to the inside and the inside of the indoor unit 20 through the oxygen supply hose 30.

The present invention has been made in order to solve the above problems of the prior art, it is possible to improve the comfort by generating oxygen to the indoor air, and to provide an air conditioner that minimizes the noise that can be generated when supplying oxygen have.

An air conditioner according to the present invention for solving the above problems is an indoor unit having an air inlet and an air discharge port formed to suck the indoor air and then discharge it after heat exchange; An oxygen generating unit mounted inside the indoor unit; An oxygen guide hose for guiding the oxygen generated by the oxygen generating unit to the air discharge port; It characterized in that it comprises a silencer consisting of a hose connecting portion communicating with the oxygen guide hose, and the expansion portion formed to be wider than the oxygen guide hose and hose connection.

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

1 is a perspective view of an embodiment of an air conditioner according to the present invention, Figure 2 is an exploded perspective view of an embodiment of an air conditioner according to the present invention.

As shown in FIG. 1 and FIG. 2, an air conditioner according to an embodiment of the present invention includes an indoor unit 50 having a base 51, a cabinet 60 disposed above the base 51, and having an open front surface. ), A front panel 70 mounted at the front of the cabinet 60 and having an air inlet 62 and an air outlet 64, and a blower disposed between the cabinet 60 and the front panel 70. 80 and a heat exchanger 90 disposed between the blower 80 and the air discharge port 64.

The front panel 70 has both sides protruded obliquely to form a front discharge port 64a which is an air discharge port 64 on the front upper side, and a front upper panel where both discharge ports 64b which are air discharge ports 64 are formed on both inclined upper portions. A lower panel 74 disposed between the front surface of the front upper panel 72 and the front surface of the base 50 and having an air inlet 62 formed between the front lower portion of the cabinet 50. And a suction grill 76 disposed between the side of the front lower panel 74 and the lower portion of the cabinet 50 to protect the inside of the air inlet 62.

The front upper panel 72 includes an up and down drive panel 72a mounted in a liftable manner to open and close the front discharge port 64a, and a front and rear drive panel mounted in a movable manner when the up and down drive panel 72a moves up and down ( 72b), a lift drive mechanism (not shown) for elevating the vertical drive panel 72a, and a forward and backward drive mechanism (not shown) for advancing the front and rear drive panels 72b.

The blower 80 is mounted on a lower portion of the cabinet 60 close to the suction grill 76 so as to easily blow air into the heat exchanger 90 after suctioning the indoor air, and the upper surface of the base 51 and It is spaced apart from the rear surface of the front lower panel 74.

On the other hand, the indoor unit 50 is provided with an air purifying mechanism between the suction grill 76 and the blower 80, the air filter to filter foreign substances in the air sucked on the back of each of the suction grill 76 81 is mounted, and on both sides of the front surface of the blower 80, an electric dust collector 82 in which air is ionized and collected is mounted.

The heat exchanger 90 is composed of a refrigerant pipe through which the refrigerant passes and a plurality of fins spaced apart from the refrigerant pipe, and connected to an outdoor unit (not shown) and the refrigerant pipe 90a, and the heat exchanger 90 At the lower side of the heat exchanger 90 is formed on the surface of the heat exchanger 90 and receives a condensate that is dropped, the drain pan 91 is mounted to the outside of the indoor unit 50 to drain the condensate outside the indoor unit An extended drain hose 92 is connected.

On the other hand, the indoor unit 50 is equipped with an oxygen generating unit 100 for generating oxygen with air in the room.

The oxygen generating unit 100 is preferably mounted on the upper surface of the base 51, which is a lower position of the blower 80, the base 51 is a projection having a first fastening hole 52 in the upper surface ( 53 is formed, the oxygen generating unit 100 is formed with a fixing portion (100b) formed with a second fastening hole (100a) communicating with the first fastening hole 52, the oxygen generating unit 100 After the fixing part 100b is placed on the protrusion 53 so that the first and second fastening holes 52 and 100a coincide with each other, the fastening member 100c passes through the first and second fastening holes 52 and 100a. Is fastened.

Meanwhile, the oxygen generating unit 100 separates nitrogen and oxygen after inhaling indoor air, and discharges separated oxygen and nitrogen through respective outlets, and oxygen separated from nitrogen is separated from the front panel 70. Oxygen guide hose 110 for guiding to any one of the air discharge port (64a, 64b) of the base 50, the cabinet 60 and the front panel 70 to guide the nitrogen separated from the oxygen to the outside Nitrogen guide hose 170 extending to the outside through any one of the connection is connected, the inlet portion where the air is sucked is disposed inside the indoor unit 50 or the air outside the indoor unit 50 is the oxygen generating unit 100 An air intake hose 180 extending through the indoor unit 50 to the outside of the indoor unit 50 is connected to be sucked into the indoor unit 50.

One end of the oxygen guide hose 110 is connected to the oxygen generating unit 100, and is disposed up and down on the rear surface of the front panel 80, and the other end is disposed near the air outlets 64a and 64b. do.

The other end of the oxygen guide hose 110 is connected to the oxygen injection port 120 is provided with a nozzle unit 121 to inject the guided oxygen to any one of the air discharge port (64a, 64b), the The oxygen injection hole 120 is fixedly mounted to any one of the air discharge ports 64a and 64b by the holder 130.

That is, the oxygen injection hole 120 and the holder 130 has hooks 131 and 132 formed on the holder 130 while the holder 130 surrounds one side of the oxygen injection hole 120 and the front discharge port 64a. When inserted into the hook holes (65a, 65b) formed in, the oxygen guided through the oxygen guide hose 110 is concentrated to be discharged into the room through the front center side of the indoor unit 50, the holder 130 When the hooks 131 and 132 formed in the holder 130 are inserted into the hook holes (not shown) formed in the side discharge port 64b0 while surrounding one side of the oxygen injection hole 120, the oxygen guide hose 110 is provided. The oxygen guided through the air is concentrated and discharged to the room through the side of the indoor unit 50, hereinafter, the holder 130 so that the nozzle portion 121 of the oxygen injection hole 120 faces the front of the front discharge port 64a. ) Will be described as being mounted on the front discharge port 64a side.

The oxygen guide hose 110 is divided into a first hose 112 connected to the oxygen generating unit 100, a second hose 114 connected to the oxygen injection hole 120, and the first hose ( A silencer 116 is disposed between 112 and the second hose 114 to communicate with each of the first hose 112 and the second hose 114.

Reference numeral 140 is an oxygen intake headset that connects to the nozzle unit 121 of the oxygen injection port 120 to directly inhale oxygen into the user's respirator, and reference numeral 150 is to store and carry oxygen. Oxygen storage container configured to be connected to the nozzle portion 121 of the oxygen injection hole 120, reference numeral 160 is a separate external hose 162 is connected to the nozzle portion 121 of the oxygen injection hole 120 is Wall-mounted nozzle mechanism for discharging oxygen from the indoor unit 50 spaced apart from the indoor unit 50.

Figure 3 is a cross-sectional view showing the inside of the oxygen guide hose and silencer of an embodiment of the air conditioner according to the present invention.

The silencer 116 is formed to be expanded than the hose connecting portions 117a and 118a communicating with the oxygen guide hoses 112 and 114, and the oxygen guide hoses 112 and 114 and the hose connecting portions 117a and 118a. It is comprised including expansion part 117b, 118b.

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On the other hand, the silencer 116 is divided up and down, the first hose connecting portion 117a which is connected to the upper end of the first hose 112 protrudes at the bottom and the first hose connecting portion 117a and the first hose A lower silencer 117 having the first expansion pipe 117b extending therefrom and a second hose connection portion 118a connected to the lower end of the second hose 114 protrude from the upper portion of the second expansion pipe 117b. The upper silencer 118 is formed with a hose connecting portion 118a and a second expansion portion 118b which extends more than the second hose 114.

One of the first expansion portion 117b and the second expansion portion 118b has one of the two interpolated to the other, the male thread is formed on the outer periphery of the inserted expansion portion 118b and the extrapolated expansion portion 117b A female thread is formed on the inner circumference of the first expansion pipe 117b and the second expansion pipe 118b by being screwed together.

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5 is a schematic configuration diagram illustrating an oxygen and nitrogen discharge process through a first nitrogen adsorption unit of an oxygen generating unit of an embodiment of the air conditioner according to the present invention, and FIG. 6 is an oxygen of an embodiment of the air conditioner according to the present invention. FIG. 7 is a schematic configuration diagram illustrating an oxygen and nitrogen discharge process through the second nitrogen adsorption unit of the generation unit, and FIG. 7 is a plan view illustrating the internal structure of the oxygen generation unit of the air conditioner according to the embodiment of the present invention.

As shown in FIGS. 5 to 7, the oxygen generating unit 100 communicates with an air intake unit 101 through which air is sucked and branches in two directions, and a branch of the air intake unit 101, respectively. The first and second nitrogen adsorption units 102a and 102b to which nitrogen is adsorbed, and the first and second nitrogen adsorption units are branched into two branches to communicate with each of the first and second nitrogen adsorption units 102a and 102b. Oxygen discharge unit 103 for discharging oxygen separated from nitrogen while passing through 102a and 102b, Oxygen discharge pump 104 for pumping oxygen discharged to the oxygen discharge unit 103, and the first and second Nitrogen outlet portion 105 branched into two branches to communicate with each of the nitrogen adsorption portion (102a, 102b) and extended to the outside through the indoor unit, and adsorbed to the first and second nitrogen adsorption portion (102a, 102b) Including a vacuum pump 106 mounted on the nitrogen discharge portion 105 to discharge the nitrogen by vacuum pumping the outdoor It is composed.

The air suction unit 101 may be disposed in the interior of the indoor unit to suck the air sucked into the indoor unit, the air suction hose may be connected to directly suck the air in the room. Of course.

The first and second nitrogen adsorption units 102a and 102b include a case in which an inlet and an outlet are formed, and a collecting powder which collects nitrogen in air that is received and passed through the case and increases oxygen content of the air.

The capture powder is a zeolite that utilizes the difference in the capturing power of a plurality of molecules constituting the air, and since nitrogen is easily collected compared to oxygen or other molecules, the ratio of nitrogen in the air passing through the capture powder This decreases and the air with increased oxygen content is discharged.

Reference numerals 101a and 101b are first and second suction opening / closing valves mounted to the branch portions of the air intake unit 101, and reference numerals 105a and 105b are attached to the branch portions of the nitrogen outlet portion 105 respectively. And first and second exhaust opening / closing valves, and reference numeral 107 denotes a filter mounted on the air intake unit 101 to purify the air, and reference numerals 108a and 108b denote the first and second exhaust opening / closing valves. The 1st, 2nd nitrogen adsorption part 102a, 102b is a 1st, 2nd check valve which prevents oxygen backflow between each other.

On the other hand, in the oxygen generating unit 100, the first intake opening and closing valve 101a and the second exhaust opening and closing valve 105b are opened, and the second intake opening and closing valve 101b and the first exhaust opening and closing valve 105a are opened. Is sealed, and when the oxygen discharge pump 104 and the vacuum pump 106 are driven, the air in the indoor unit or the air in the room is the air suction hose 180, the air suction unit 101, and the filter 107. In order to pass through in order to be sucked into the first nitrogen adsorption unit (102a) and nitrogen is adsorbed, the oxygen is separated oxygen from the first nitrogen adsorption unit (102a) oxygen generation unit 100 through the oxygen discharge unit 103 ) Is discharged to the outside, the nitrogen adsorbed to the second nitrogen adsorption unit 102b is discharged to the nitrogen outlet unit 105 by the vacuum inside the second nitrogen adsorption unit 102b by driving the vacuum pump 106. Is discharged through.

When the nitrogen adsorption of the first nitrogen adsorption unit 102a as described above is performed for a long time, the second intake opening / closing valve 101b and the first exhaust opening / closing valve 105a are opened, and the first intake opening / closing valve is opened. When the 101a and the second exhaust opening / closing valve 105b are sealed and the oxygen discharge pump 104 and the vacuum pump 106 are driven, the air inside the indoor unit or the indoor air is supplied to the air suction hose 180. And the air intake unit 101 and the filter 107 pass through the second nitrogen adsorption unit 102b and are adsorbed to nitrogen, and the oxygen is separated and oxygen is oxygen generated through the oxygen discharge unit 101 through the oxygen discharge unit 101. The nitrogen is discharged to the outside, and the nitrogen adsorbed to the first nitrogen adsorption unit 102a is discharged by the vacuum inside the first nitrogen adsorption unit 102a by the driving of the vacuum pump 106. Through 105).

Referring to the operation of the present invention configured as described above are as follows.

First, when the compressor mounted in the outdoor unit is driven, the refrigerant is circulated between the indoor unit 50 and the outdoor unit, and the air around the heat exchanger 90 inside the indoor unit 50 is connected to the heat exchanger 90. Heat or cool with heat exchange with the refrigerant passing through).

When the blower 80 is driven while the refrigerant is circulated and the air is cooled or heated, indoor air is sucked into the indoor unit through the suction grill 76 to be electrically connected to the air filter 81. It is purified while passing through the dust collector 82, and is heat-exchanged while passing through the blower 80 and the heat exchanger 90 is discharged into the room through the air discharge port (64).

Meanwhile, when the oxygen generating unit 100 is driven, indoor air or air inside the indoor unit 50 is sucked into the oxygen generating unit 100 to separate nitrogen and oxygen.

The nitrogen separated from the oxygen is discharged to the outside through the nitrogen guide hose 170, the oxygen separated from the nitrogen is the first hose 112, the silencer 116, the second hose 114 and the oxygen injection port 120 After passing through the injection through the nozzle portion 121 of the oxygen injection port 120 is discharged to be concentrated to the front of the front discharge port 64a, the discharged oxygen improves the comfort of the room.

On the other hand, the noise generated inside the oxygen generating unit 100 (for example, the oxygen discharge pump 104 and the vacuum pump) while driving the oxygen generating unit 100 and the discharge of oxygen as described above. Drive noise of the 106 is always introduced into the silencer 116 through the first hose (112).

The noise introduced into the muffler 116 is introduced into the resonance space of the first expansion part 117b and the second expansion part 118b through the first hose connection part 117a as shown in FIG. 3. Noise is reduced while being expanded, and noise propagated to the room through the second hose 114 and the oxygen injection hole 120 is minimized.

On the other hand, the present invention is not limited to the above embodiment, when the dehydration filter is mounted inside the muffler 116, the moisture in the oxygen passing through the muffler 116 is removed by the dewatering filter, to the user It becomes possible to provide more comfort.

Since the air conditioner according to the present invention configured as described above is equipped with an oxygen generating unit to suck indoor air to generate oxygen, the outdoor odor is not introduced into the room, thereby improving the comfort of the room, and oxygen There is an advantage that the silencer is mounted on one side of the oxygen guide hose is guided to minimize the noise propagated to the outside.

Claims (4)

An indoor unit having an air intake port and an air discharge port, and equipped with a blower and a heat exchanger, to suck and discharge the indoor air and to discharge the air; An oxygen generating unit mounted inside the indoor unit; An oxygen guide hose for guiding the oxygen generated by the oxygen generating unit to the air discharge port; And a silencer comprising a hose connection part communicating with the oxygen guide hose and an expansion part formed to be wider than the oxygen guide hose and the hose connection part. The method of claim 1, The oxygen guide hose is divided into a plurality of hoses, and the silencer is in communication with each of the plurality of hoses between the plurality of hoses. The method of claim 2, The muffler is a lower muffler which protrudes a first hose connection part connected to any one of the plurality of hoses and has a first expansion pipe part; And an upper silencer configured to protrude a second hose connecting portion connected to the other one of the plurality of hoses and having a second expanding portion. delete

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