WO2022154340A1 - Air conditioner - Google Patents

Abstract

Disclosed is an invention related to an air purifier. The air conditioner of the present invention comprises: a cabinet including a suction port for introducing the air and a discharge port for exhausting the air; a heat exchanger which is located inside the cabinet and exchanges heat with the air introduced through the suction port; a blower module unit which is located on the front surface of the heat exchanger and blows the air that passed through the heat exchanger in the direction toward the discharge port through a rotating operation; a front discharge unit which is connected to the upper side of the cabinet and receives the air that passed through the heat exchanger and guides the air to be discharged to the front portion; and a forward blower module which is rotatably installed in the front discharge unit and sucks the air into the front discharge unit so as to discharge the air toward the front portion of the front discharge unit.

Description

air conditioner

The present invention relates to an air conditioner, and more particularly, to an air conditioner in which air is discharged through an upper discharge port.

In general, an air conditioner cools or purifies air by using a refrigerant refrigeration cycle consisting of a compressor, a condenser, an expansion mechanism, and an evaporator in order to create a more comfortable indoor environment for users.

The indoor unit of the air conditioner may be classified into a ceiling type, a wall-mounted type, and a stand type according to an installation location. In the stand-type indoor unit, the discharge port may be formed on the front or side surface of the cabinet, and the suction port may be formed on the rear surface of the cabinet.

In the stand-type indoor unit, the air that has passed through the heat exchanger discharges the heat-exchanged air through outlets provided on both sides of the cabinet.

In this regard, the prior art (Korean Patent Publication No. 10-2019-0074603, publication date: June 28, 2019, title of invention: indoor unit of an air conditioner) includes a discharge device rotatably provided in a case, A discharging body provided in a cylindrical shape in the discharging device and rotating around the center of the cylinder, a driving motor providing a driving force to the discharging body, a power supply supplying a driving current to the driving motor, and a driving current supplied to the driving motor a current measuring unit for measuring the size of the motor; a memory storing a set current value for detecting overcurrent of the driving current supplied to the driving motor; and a control unit for determining whether to supply the driving current to the driving motor and controlling the rotation direction of the driving motor. include

However, the prior art has a problem in that a separate dedicated blower discharged to the upper portion of the case is not provided, and the direction of the airflow discharged to the upper portion cannot be controlled, so that the blower flow in various directions cannot be provided.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an air conditioner having a separate dedicated blower discharged to an upper portion of a case.

Another object of the present invention is to provide an air conditioner capable of providing blower flow in various directions by controlling the direction of the air flow discharged from the upper part of the case.

Another object of the present invention is to provide an air conditioner capable of increasing the cooling performance of a discharge air stream by increasing an area of a heat exchanger through which an air stream discharged from an upper portion of a case passes.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention not mentioned may be understood by the following description, and will be more clearly understood by the examples of the present invention. It will also be readily apparent that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the appended claims.

The air conditioner according to the present invention for solving the above-described problems is characterized in that air is discharged through a front discharge unit located at an upper side of a cabinet.

Specifically, after the air that has passed through the heat exchanger is moved to the upper side of the cabinet and then moved to the inside of the front discharge unit, the air may be discharged to the front of the front discharge unit by the operation of the all-broadcast wind module.

In addition, the air conditioner according to the present invention is characterized in that it provides a blower flow in various directions by controlling the direction of the air flow discharged from the front discharge unit.

Specifically, since the air guide unit installed on the outside of the all-broadcast wind module is rotated, it is possible to control the discharge direction of the air discharged from the all-broadcast wind module.

In addition, the air conditioner according to the present invention has a technical feature in that it increases the area of the heat exchanger through which the air flow discharged from the upper part of the case passes, thereby increasing the cooling performance of the discharge air flow.

Specifically, after the air passing through the heat exchanger moves upward along the space provided between the heat exchanger and the blower module, it is discharged to the front of the front discharge unit through the front air module, and the air that has passed through the entire area of the heat exchanger is discharged to the front side. Since it is discharged through the discharge part, the cooling performance can be improved.

An air conditioner according to an embodiment of the present invention includes a cabinet having an intake port for introducing air and a discharge port for discharging air, a heat exchanger located inside the cabinet and exchanging heat with air introduced into the intake port, and the heat exchanger. A blower module located at the front and rotating the air that has passed through the heat exchanger in the direction toward the outlet, and a front outlet connected to the upper side of the cabinet that receives the air that has passed through the heat exchanger and guides it to be discharged to the front and an all-broadcast wind module that is rotatably installed inside the front discharge unit and sucks air into the front discharge unit and discharges the air toward the front of the front discharge unit.

In addition, the cabinet includes a first housing installed in a shape surrounding the heat exchanger and the blower module, and a second housing connected to an upper side of the first housing and having an inner conduit for guiding air passing through the heat exchanger to the front discharge unit.

In addition, the blowing module unit includes a first blowing module for blowing air toward the outlet, a second blowing module located below the first blowing module and blowing air toward the outlet, and a second blowing module located below the outlet and It includes a third blowing module for blowing air toward.

In addition, the blowing module unit includes a first air bulkhead forming a bulkhead between the first blowing module and the second blowing module, a second air bulkhead forming a bulkhead between the second blowing module and the third blowing module, and a third blowing module It may further include a third air bulkhead forming a bulkhead below the.

In addition, the present invention may further include a guide passage that is positioned between the blower module and the heat exchanger and guides the air that has passed through the heat exchanger to the front discharge part.

In addition, the front discharge unit may include a front discharge body extending upwardly of the cabinet and having an open front and supporting the front airflow module and a front vane installed at the front discharge port of the front discharge body.

In addition, the lower side of the front discharge body communicates with the upper side of the cabinet, and the air that has passed through the heat exchanger moves upward along the guide passage located between the blower module and the heat exchanger, and moves to the inside of the front discharge unit.

In addition, the present invention may further include an air guide unit located on the outside of the all-broadcasting wind module and adjusting the discharge angle of the air discharged from the all-broadcasting wind module by a rotating operation.

In addition, the air guide unit includes a first guide part located on the upper side of the all-broadcast wind module, a second guide part located on the lower side of the all-broadcast wind module, and the first guide part and the second guide part, and surrounds the side of the all-broadcast wind module. It may include a connection guide part of the shape.

In addition, the central axis of rotation of the all-broadcast wind module is installed in the vertical direction, some sides of the all-broadcast wind module are blocked by the connection guide part, and the other side of the all-broadcast wind module can be opened.

In addition, the first guide portion, the second guide portion and the connecting guide portion are integrally connected to form a module, and rotates around the central axis of rotation of the all-broadcast wind module.

Also, the air guide unit may further include a first driving unit connected to the first guide unit and configured to rotate the first guide unit by supplying rotational power.

Also, the air guide unit may further include a second driving unit connected to the second guide unit and configured to rotate the second guide unit by supplying rotational power.

An air conditioner according to an embodiment of the present invention includes a cabinet having an intake port for introducing air and a discharge port for discharging air, a heat exchanger located inside the cabinet and exchanging heat with air introduced into the intake port, and the heat exchanger. A blower module located at the front and rotating the air that has passed through the heat exchanger in the direction toward the outlet, and a front outlet connected to the upper side of the cabinet that receives the air that has passed through the heat exchanger and guides it to be discharged to the front And, the front air blower module which is rotatably installed inside the front discharge unit and sucks air into the front discharge unit and discharges the air toward the front of the front air discharge unit. It may include an air guide unit for adjusting the discharge angle of the air discharged from the module.

In addition, the all-broadcast wind module may include a driving motor fixed to the inside of the front discharge unit and supplying rotational power, and a rotating fan connected to the driving motor and rotated by receiving power from the driving motor. In addition, the rotation center shaft of the driving motor extends in the vertical direction.

In addition, the air guide unit rotates while connecting a plate-shaped first guide part located above the front wind module, a plate-shaped second guide part located on the lower side of the all-broadcast wind module, and the first guide part and the second guide part. It may include a connection guide part having a shape surrounding the side of the fan.

In addition, the first guide portion may include a first guide hole portion forming a plurality of long holes along the circumferential direction.

In addition, the all-broadcast wind module may further include a motor support that penetrates the first guide hole in the vertical direction and connects the driving motor and the front discharge unit.

In addition, the second guide unit includes a second guide hole for forming a plurality of long holes along the circumferential direction, and the air moved upward through the guide passage located between the heat exchanger and the blower module is air-broadcast through the second guide hole. It can be moved inside the module.

In addition, the air guide part is connected to the first guide part, is connected to the first driving part and the second guide part for supplying rotational power to rotate the first guide part, and a second driving part for supplying rotational power to rotate the second guide part. may further include.

Since the air conditioner according to the present invention discharges air through the front discharge unit located on the upper side of the cabinet, various consumer preferences can be satisfied.

In addition, the air conditioner according to the present invention controls the direction of the air flow discharged from the front discharge unit to provide blower air flow in various directions, so that the air is blown in a direction desired by the consumer, thereby improving customer satisfaction.

In addition, the air conditioner according to the present invention can improve the cooling performance of the discharge air stream by increasing the area of the heat exchanger through which the air flow discharged from the upper part of the case passes.

In addition to the above-described effects, the specific effects of the present invention will be described together while describing specific details for carrying out the invention below.

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

2 is a cross-sectional view of an air conditioner according to an embodiment of the present invention.

3 is a perspective view illustrating a state in which a blower module unit is installed in a cabinet according to an embodiment of the present invention.

4 is a perspective view illustrating a front discharge unit according to an embodiment of the present invention.

5 is a perspective view illustrating an all-broadcast wind module and an air guide unit according to an embodiment of the present invention.

6 is a cross-sectional view of an all-broadcast wind module and an air guide unit according to an embodiment of the present invention.

7 is a perspective view illustrating a state in which the air guide unit is installed on the outside of the all-broadcast wind module according to an embodiment of the present invention.

8 is a bottom perspective view of an air guide unit according to an embodiment of the present invention.

9 is a perspective view illustrating an upper side of an air guide unit according to an embodiment of the present invention.

10 is a perspective view illustrating a state in which the air guide unit is located in the center of the front discharge unit according to an embodiment of the present invention.

11 is a perspective view illustrating a state in which the air guide unit is rotated clockwise according to an embodiment of the present invention.

12 is a perspective view illustrating a state in which the air guide unit is rotated counterclockwise according to an embodiment of the present invention.

The above-described objects, features and advantages will be described below in detail with reference to the accompanying drawings, and accordingly, those skilled in the art to which the present invention pertains will be able to easily implement the technical idea of the present invention. In describing the present invention, if it is determined that a detailed description of a known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to indicate the same or similar components.

Although the first, second, etc. are used to describe various elements, these elements are not limited by these terms, of course. These terms are only used to distinguish one component from other components, and unless otherwise stated, the first component may be the second component, of course.

In the following, that an arbitrary component is disposed on the "upper (or lower)" of a component or "top (or below)" of a component means that any component is disposed in contact with the upper surface (or lower surface) of the component. Furthermore, it may mean that other components may be interposed between the component and any component disposed on (or under) the component.

Also, when it is described that a component is “connected”, “coupled” or “connected” to another component, the components may be directly connected or connected to each other, but other components are “interposed” between each component. It is to be understood that “or, each component may be “connected”, “coupled” or “connected” through another component.

Throughout the specification, unless otherwise stated, each element may be singular or plural.

As used herein, the singular expression includes the plural expression unless the context clearly dictates otherwise. In the present application, terms such as "consisting of" or "comprising" should not be construed as necessarily including all of the various components or various steps described in the specification, some of which components or some steps are It should be construed that it may not include, or may further include additional components or steps.

Throughout the specification, when “A and/or B” is used, it means A, B or A and B, unless specifically stated to the contrary, and when “C to D” is used, it means that there is no specific contrary description. Unless otherwise specified, it means that it is greater than or equal to C and less than or equal to D.

[Overall composition]

Hereinafter, an air conditioner 1 according to an embodiment of the present invention will be described with reference to the drawings.

1 is a perspective view of an air conditioner 1 according to an embodiment of the present invention, FIG. 2 is a cross-sectional view of the air conditioner 1 according to an embodiment of the present invention, and FIG. 3 is an embodiment of the present invention. It is a perspective view showing a state in which the blower module unit 60 according to the example is installed in the cabinet 10 .

1 to 3 , the air conditioner 1 according to an exemplary embodiment of the present invention includes an indoor unit and an outdoor unit. In the present invention, the indoor unit of the air conditioner 1 will be described. The air conditioner (1) according to an embodiment of the present invention includes a cabinet (10), a heat exchanger (50), a blowing module unit (60), a guide passage unit (110), a front discharge unit (120), and an all-broadcast air conditioner. It may include at least one of the module 130 , the air guide unit 140 , and the filter 200 .

The air conditioner 1 according to the present invention for solving the above-described problems is characterized in that air is discharged through the front discharge unit 120 located at the upper side of the cabinet 10 .

Specifically, after the air that has passed through the heat exchanger 50 is moved to the upper side of the cabinet 10 and then moved to the inside of the front discharge unit 120, the front discharge unit ( 120) can be discharged forward.

[cabinet]

In the cabinet 10 , an inlet 26 for introducing air is formed on the rear side, and an outlet port 24 for discharging air is formed on both sides of the cabinet 10 . The cabinet 10 according to an embodiment of the present invention includes a first housing 20 having an intake port 26 for introducing air formed in the rear and forming a space in which the heat exchanger 50 is disposed, It may include a second housing 30 continuously installed on the upper side of the first housing 20 .

The first housing 20 is installed in a shape surrounding the heat exchanger 50 and the blower module unit 60 . In addition, the second housing 30 is connected to the upper side of the first housing 20 and has an inner conduit 34 for guiding the air passing through the heat exchanger 50 to the front discharge unit 120 .

A support housing 40 is installed below the first housing 20 . Electrical components may be installed inside the support housing 40 , and an air circulation path is not provided.

[First housing]

The first housing 20 is installed in a shape that surrounds the heat exchanger 50 and the blower module unit 60 , the suction port 26 is formed on the rear side, and the discharge port 24 is provided on the left and right sides of the first housing 20 . is provided The first housing 20 is formed in a box shape, and the filter 200 may be installed in the suction port 26 . In addition, the upper side of the first housing 20 connected to the second housing 30 has an open shape, or a conduit communicating with the inner conduit 34 of the second housing 30 is provided inside.

The first housing 20 according to an embodiment of the present invention includes a housing body installed in a shape surrounding the heat exchanger 50 and the blower module unit 60, and the discharge ports 24 provided on both sides of the housing body. It includes a side vane 27 that is installed and a front part 28 that is detachable from the front of the housing body.

The front part 28 is located in front of the blower module part 60 , and is detachably installed on the first housing body 22 . Accordingly, after the front part 28 is separated from the first housing body 22 , the maintenance work of the blower module part 60 can be performed.

[Second housing]

The second housing 30 is connected to the upper side of the first housing 20, and various modifications are possible within the technical idea of having a pipe for guiding the air blown from the blower module unit 60 upward. The second housing 30 according to an embodiment of the present invention may include a second housing body 32 and a housing bracket 36 .

The second housing body 32 is connected to the upper side of the first housing 20, and the air moved upward along the guide passage 110 formed between the heat exchanger 50 and the blower module unit 60. An inner conduit 34 is provided for guiding to the inside of the front discharge unit 120 . The lower side of the inner conduit 34 communicates with the upper side of the guide passage 110 , and the upper side of the inner conduit 34 communicates with the connection passage 123 provided at the lower side of the front discharge unit 120 .

The inner conduit 34 is located on the upper side of the blowing module unit 60 , and the air moved upward through the guide path unit 110 can be uniformly supplied to the lower side of the front discharge unit 120 , so that the all-broadcast wind module is provided. A space is formed on the lower side of 130 .

A housing bracket 36 is installed in the second housing 30 facing the air guide unit 140 . The housing bracket 36 is installed in a shape that crosses the inner conduit 34 , and restricts the movement of the second driving unit 190 , which will be described later.

[heat exchanger]

The heat exchanger 50 is located inside the cabinet 10 , and various modifications are possible within the technical concept of exchanging heat with the air introduced into the suction port 26 .

The heat exchanger 50 according to an embodiment of the present invention is disposed at the rear of the blower module unit 60 . A guide passage part 110 is installed between the blower module part 60 and the heat exchanger 50 . The heat exchanger 50 is disposed between the suction port 26 and the discharge port 24 , and can exchange heat with the air introduced into the suction port 26 . Also, the heat exchanger 50 may be disposed between the filter 200 and the guide passage 110 .

[Blow module part]

The blower module unit 60 is located on the front side of the heat exchanger 50, and various modifications are possible within the technical idea of blowing the air that has passed through the heat exchanger 50 in the direction toward the outlet 24 by rotating operation. do.

In addition, the blowing module unit 60 includes a plurality of blowing modules, and may be operated individually. The blowing module unit 60 according to an embodiment of the present invention may include a first blowing module 70 , a second blowing module 80 , and a third blowing module 90 .

The first blowing module 70 blows air toward the outlet 24 . The first blowing module 70 includes a first blowing motor 76 for supplying rotational power, a first blowing fan 72 connected to the first blowing motor 76, and a first blowing fan 72 . It rotatably supports and includes a first blowing housing 74 installed on the outside of the first blowing fan 72 to guide the movement of air.

The air that has passed through the heat exchanger 50 moves to the inside of the first blower housing 74 . Then, the air discharged to the outside of the first blowing housing 74 by the operation of the first blowing fan 72 moves to the discharge port 24 of the cabinet 10 .

The second blowing module 80 positioned below the first blowing module 70 blows air toward the outlet 24 . The second blowing module 80 includes a second blowing motor 86 for supplying rotational power, a second blowing fan 82 connected to the second blowing motor 86 , and a second blowing fan 82 . It supports rotatably and includes a second blowing housing 84 installed on the outside of the second blowing fan 82 to guide the movement of air.

The air that has passed through the heat exchanger 50 moves to the inside of the second blower housing 84 . Then, the air discharged to the outside of the second blowing housing 84 by the operation of the second blowing fan 82 moves to the discharge port 24 of the cabinet 10 .

The third blowing module 90 positioned below the second blowing module 80 blows air toward the outlet 24 . The third blowing module 90 includes a third blowing motor 96 for supplying rotational power, a third blowing fan 92 connected to the third blowing motor 96 , and a third blowing fan 92 . It rotatably supports and includes a third blowing housing 94 installed on the outside of the third blowing fan 92 to guide the movement of air.

The air that has passed through the heat exchanger 50 moves to the inside of the third blower housing 94 . Then, the air discharged to the outside of the third blowing housing 94 by the operation of the third blowing fan 92 moves to the discharge port 24 of the cabinet 10 .

In the blowing module unit 60, only the first blowing module 70 and the second blowing module 80 may be installed, and if necessary, a blowing module may be added to the lower side of the third blowing module 90, etc. Various modifications are possible.

The blowing module unit 60 according to an embodiment of the present invention may further include a first air bulkhead 100 , a second air bulkhead 102 , and a third air bulkhead 104 .

The first air partition wall 100 forms a partition wall between the first blowing module 70 and the second blowing module 80 . The first air bulkhead 100 is installed in the horizontal direction and protrudes forward from the boundary between the first blowing module 70 and the second blowing module 80 . Therefore, it blocks the air discharged from the first blowing module 70 from moving to the second blowing module 80 , and blocks the air discharged from the second blowing module 80 from moving to the first blowing module 70 . , the blowing operation of the first blowing module 70 and the second blowing module 80 may be performed independently.

The second air partition wall 102 forms a partition wall between the second blowing module 80 and the third blowing module 90 . The second air bulkhead 102 is installed in the horizontal direction and protrudes forward from the boundary between the second blowing module 80 and the third blowing module 90 . Therefore, it blocks the air discharged from the second blowing module 80 from moving to the third blowing module 90 , and blocks the air discharged from the third blowing module 90 from moving to the second blowing module 80 . , the blowing operation of the second blowing module 80 and the third blowing module 90 may be performed independently.

And the third air bulkhead 104 forms a bulkhead on the lower side of the third blowing module 90 . The third air bulkhead 104 is formed below the third blowing module 90 . The third air bulkhead 104 is installed in the horizontal direction and protrudes forward from the lower side of the third blowing module 90 . Accordingly, since the air discharged from the third blowing module 90 blocks movement to the lower side of the third blowing module 90 , the blowing operation of the third blowing module 90 can be performed independently.

[Guide passage]

The guide passage part 110 is positioned between the blower module part 60 and the heat exchanger 50 , and a technology of forming an air flow path for guiding the air passing through the heat exchanger 50 to the front discharge part 120 . Various modifications are possible within the idea. Since the guide passage 110 is installed, the area of the heat exchanger 50 through which the air discharged to the front discharge port 24 through the front airflow module 130 passes is increased, so that the cooling performance of the upper discharge air flow can be improved. can

When the blower module unit 60 does not operate and only the all-broadcast wind module 130 operates, the cooled air passing through the heat exchanger 50 moves upward along the guide passage 110 and then the front discharge unit ( It is discharged to the front of the front discharge unit 120 through the 120). Since the air that has passed through the entire area of the heat exchanger 50 is discharged through the front discharge unit 120 , the cooling performance of the discharge air stream can be improved.

The width direction length of the guide passage part 110 is equal to or greater than the width direction length of the heat exchanger 50 . And since the vertical length of the guide passage 110 is formed to be longer than the vertical length of the heat exchanger 50, all the air that has passed through the heat exchanger 50 is guided upward toward the front discharge unit 120. can

A filter 200 is installed at the intake port 26 of the cabinet 10 , and contaminants including foreign substances contained in the air introduced into the air conditioner 1 are removed.

[Front discharge part]

4 is a perspective view illustrating the front discharge unit 120 according to an embodiment of the present invention, and FIG. 5 is a front airflow module 130 and an air guide unit 140 according to an embodiment of the present invention. is a perspective view.

The front discharge unit 120 shown in FIGS. 4 and 5 is connected to the upper side of the cabinet 10 and receives air that has passed through the heat exchanger 50 to be discharged forward in various modifications within the technical idea. It is possible. The front discharge unit 120 according to an embodiment of the present invention includes a front discharge body 122 and a front vane 128 .

The front discharge body 122 extends upwardly of the cabinet 10 , and the front side is opened to form a front discharge port 124 . And since the all-broadcast wind module 130 is rotatably supported, the rotating fan 134 provided in the all-broadcast wind module 130 rotates.

In addition, the connection passage 123 provided at the lower side of the front discharge body 122 communicates with the upper side of the cabinet 10 . The inner conduit 34 provided on the upper side of the cabinet 10 communicates with the connection path 123 . The air that has passed through the heat exchanger 50 moves upward along the guide passage 110 located between the blower module unit 60 and the heat exchanger 50 and moves to the lower side of the front discharge unit 120 . Accordingly, the cold air passing through the heat exchanger 50 is supplied to the inside of the front discharge body 122 .

The front discharge body 122 is connected to the upper side of the second housing 30, and is installed in an open shape at the front and the lower side. An upper flow passage part 126 is provided inside the front discharge body 122 , and an all-broadcast wind module 130 and an air guide part 140 are installed inside the upper flow passage part 126 .

And the front exhaust port 124 is provided with a front vane 128 that blocks the inflow of external objects to the front wind module 130 .

[All broadcast wind module]

6 is a cross-sectional view of the all-broadcast wind module 130 and the air guide unit 140 according to an embodiment of the present invention, and FIG. 7 is an air guide unit 140 according to an embodiment of the present invention. 130) is a perspective view showing a state installed on the outside.

6 and 7, the all-broadcast wind module 130 is rotatably installed inside the front discharge unit 120, and sucks air into the front discharge unit 120 to the front discharge unit ( 120), various modifications are possible within the technical idea of discharging air toward the front.

The all-broadcast wind module 130 according to an embodiment of the present invention is fixed to the inside of the front discharge unit 120 and is connected to the driving motor 132 and the driving motor 132 for supplying rotational power, and the driving motor 132 ) may include a rotating fan 134 that rotates by receiving power. In addition, the rotation center shaft 136 of the driving motor 132 extends in the vertical direction. Therefore, the rotating fan 134 coupled to the rotational center shaft 136 of the driving motor 132 rotates in a state laid down in the horizontal direction. Therefore, the air introduced to the lower side of the all-broadcast wind module 130 may be discharged to the front of the all-broadcast wind module 130 .

The central axis of rotation 136 of the all-broadcast wind module 130 is installed in the vertical direction, and some sides of the all-broadcast wind module 130 are blocked by the connection guide unit 170 , and the other side of the all-broadcast wind module 130 . can be opened. Therefore, the air is not discharged to the portion where the air guide unit 140 is installed, and air is discharged only through the portion where the air guide unit 140 is not installed.

The rotating fan 134 according to an embodiment of the present invention may convert the airflow moving in the vertical direction into a horizontal airflow toward the front of the front discharge unit 120 by installing the turbofan in the horizontal direction.

Meanwhile, the driving motor 132 may be fixed to the inside of the front discharge unit 120 by the motor support 138 extending in the vertical direction. The motor support 138 may have a rod shape, and the upper end may be fixed inside the front discharge unit 120 , and the lower end may be fixed to the driving motor 132 after penetrating the air guide unit 140 . Accordingly, the driving motor 132 may be installed inside the front discharge unit 120 .

[Air guide part]

8 is a bottom perspective view of the air guide part 140 according to an embodiment of the present invention, and FIG. 9 is a perspective view showing an upper side of the air guide part 140 according to an embodiment of the present invention.

5, 8 and 9, the air guide unit 140 is located on the outside of the all-broadcast wind module 130, the air discharged from the all-broadcast wind module 130 by the rotating operation. Various modifications are possible within the technical idea of controlling the discharge angle.

Since the direction of the air flow discharged from the front discharge unit 120 is controlled by the operation in which the air guide unit 140 is rotated at a set angle, it is possible to provide blower air flow in various directions. Since the air guide unit 140 installed on the outside of the all-broadcast wind module 130 is rotated, the discharge direction of the air discharged from the all-broadcast wind module 130 is controlled. is done

The air guide part 140 according to an embodiment of the present invention includes a first guide part 150 , a second guide part 160 , a connection guide part 170 , a first driving part 180 , and a second driving part ( 190) may include at least any one of.

[First guide part]

The first guide unit 150 has a plate shape located on the upper side of the all-broadcast wind module 130 . In addition, the first guide part 150 may include a first guide hole part 152 forming a plurality of long holes along the circumferential direction.

The motor support 138 penetrates the first guide hole 152 in the vertical direction and connects the driving motor 132 and the front discharge unit 120, so that even when the first guide unit 150 rotates, the driving motor ( 132) can be stably supported.

The motor support 138 according to an embodiment of the present invention is provided in plurality, and the first guide hole 152 is also provided in the same number as the motor support 138 . The first guide hole part 152 forms a hole in the arc direction about the rotation center shaft 136 , and the arc direction length in which the first guide hole part 152 is installed corresponds to the rotation angle of the air guide part 140 . do.

[Second guide part]

The second guide unit 160 has a plate shape located at the lower side of the all-broadcast wind module 130 . The second guide unit 160 is installed in a shape to face the first guide unit 150 with the all-broadcast wind module 130 interposed therebetween. The first guide part 150 and the second guide part 160 are installed in a horizontal direction and are connected by a connection guide part 170 .

In addition, the second guide portion 160 includes a second guide hole portion 162 forming a plurality of long holes along the circumferential direction. The second guide hole 162 forms a plurality of holes along the circumferential direction on the lower side facing the blades of the rotating fan 134 . Therefore, the air moved upward through the guide passage part 110 located between the heat exchanger 50 and the blower module part 60 moves to the inside of the all-broadcast wind module 130 through the second guide hole part 162 . can

[Connection guide part]

The connecting guide unit 170 connects the first guide unit 150 and the second guide unit 160, and has a shape surrounding the side surface of the rotating fan 134, so that the air discharged from the all-broadcast wind module 130 is Various modifications are possible within the technical idea for controlling the discharge direction. The connection guide unit 170 according to an embodiment of the present invention is installed in a shape surrounding the side of the all-broadcast wind module 130 . The connection guide unit 170 forms a circumferential curved surface and is located on the outside of the all-broadcast wind module 130 .

The first guide part 150 and the second guide part 160 and the connection guide part 170 are integrally connected to form a module, and rotate around the central axis of rotation 136 of the all-broadcast wind module 130 . do. Therefore, the air discharge of the all-broadcast wind module 130 is made to the part where the connection guide unit 170 is not installed.

[1st drive unit]

The first driving unit 180 is connected to the first guide unit 150 , and various modifications are possible within the technical idea of supplying rotational power to rotate the first guide unit 150 . The first driving unit 180 uses a step motor that rotates at a set angle, and the body of the first driving unit 180 is fixed to the front discharge unit 120 . Since the output shaft of the first driving unit 180 is connected to the rotation center of the first guide unit 150 , the first guide unit 150 rotates by the operation of the first driving unit 180 , so the all-broadcast wind module 130 ) can control the direction of the airflow discharged from

[2nd drive part]

The second driving unit 190 is connected to the second guide unit 160 , and various modifications are possible within the technical idea of supplying rotational power to rotate the second guide unit 160 . The second driving unit 190 uses a step motor that rotates at a set angle, and the body of the second driving unit 190 is fixed to the housing bracket 36 . Since the output shaft of the second driving unit 190 is connected to the center of rotation of the second guide unit 160 , the second guide unit 160 rotates by the operation of the second driving unit 190 , so the all-broadcast wind module 130 ) can control the direction of the airflow discharged from

[Air flow of air conditioner]

As shown in FIG. 2 , when air is discharged through the front discharge unit 120 , the operation of the blower module unit 60 is stopped, and only the all-broadcast wind module 130 operates.

The driving motor 132 is operated to rotate the rotating fan 134 using the turbo fan. Due to the rotation of the rotating fan 134 , air is sucked into the rear side of the cabinet 10 , and the air is discharged to the front of the front discharge unit 120 .

The air introduced into the cabinet 10 through the filter 200 and the heat exchanger 50 and heat-exchanged moves upward along the guide passage 110 . The air moved upward through the guide passage 110 moves to the inside of the front discharge unit 120 through the inner tube 34 and the connection passage 123 .

10 is a perspective view illustrating a state in which the air guide unit 140 is positioned in the center of the front discharge unit 120 according to an embodiment of the present invention.

As shown in FIG. 10 , when the air guide unit 140 is in the initial position, the rear of the all-broadcast wind module 130 is blocked by the air guide unit 140 , and the front of the all-broadcast wind module 130 is is in an open state. Accordingly, the air discharged from the all-broadcast wind module 130 passes through the front vane 128 of the front discharge unit 120 and is discharged to the front of the front discharge unit 120 .

11 is a perspective view illustrating a state in which the air guide unit 140 is rotated clockwise according to an embodiment of the present invention.

11 , the first driving unit 180 and the second driving unit 190 are operated so that the first guide unit 150, the second guide unit 160, and the connection guide unit 170 are rotated in a clockwise direction. Since it rotates, it is possible to control the direction of the airflow discharged from the all-broadcast wind module 130 .

The air guide unit 140 forms a fan-shaped film, and is rotatably installed on the outside of the all-broadcast wind module 130 . When the air guide unit 140 is rotated by an angle set in the clockwise direction, the air discharged from the all-broadcast wind module 130 is discharged obliquely in the direction of one side (the left side of FIG. 11 ) of the front discharge unit 120 .

12 is a perspective view illustrating a state in which the air guide unit 140 is rotated counterclockwise according to an embodiment of the present invention.

As shown in FIG. 12 , the first driving part 180 and the second driving part 190 are operated so that the first guide part 150 , the second guide part 160 and the connection guide part 170 move in a counterclockwise direction. Because it rotates, it is possible to control the direction of the airflow discharged from the all-broadcast wind module 130 .

When the air guide unit 140 is rotated by an angle set in the counterclockwise direction, the air discharged from the all-broadcast wind module 130 is discharged obliquely in the direction of the other side (the right side of FIG. 12 ) of the front discharge unit 120 .

As described above, the present invention has been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings disclosed in the present specification. It is obvious that variations can be made. In addition, although the effects according to the configuration of the present invention have not been explicitly described and described while describing the embodiments of the present invention, it is natural that the effects predictable by the configuration should also be recognized.

Claims (15)

1. a cabinet having an inlet for introducing air and an outlet for discharging air;

   a heat exchanger located inside the cabinet and exchanging heat with the air introduced into the suction port;

   a blower module unit located on the front surface of the heat exchanger and configured to blow air that has passed through the heat exchanger in a direction toward the outlet by a rotating operation;

   a front discharge unit connected to the upper side of the cabinet and guiding air that has passed through the heat exchanger to be discharged forward; and

   An air conditioner comprising a; an all-broadcasting wind module that is rotatably installed inside the front discharge unit, sucks air into the front discharge unit and discharges the air toward the front of the front discharge unit.
2. According to claim 1,

   The cabinet may include a first housing installed in a shape surrounding the heat exchanger and the blower module; and

   and a second housing connected to an upper side of the first housing and having an inner conduit for guiding the air passing through the heat exchanger to the front discharge unit.
3. According to claim 1,

   The blowing module unit may include: a first blowing module configured to blow air toward the outlet;

   a second blowing module located below the first blowing module and blowing air toward the outlet; and

   The air conditioner including a; located below the second blowing module, the third blowing module for blowing air toward the outlet.
4. 4. The method of claim 3,

   The blowing module unit may include: a first air bulkhead forming a bulkhead between the first blowing module and the second blowing module;

   a second air bulkhead forming a bulkhead between the second blowing module and the third blowing module; and

   The air conditioner further comprising a; a third air bulkhead forming a bulkhead below the third blowing module.
5. According to claim 1,

   The air conditioner further comprising a; a guide passage that is positioned between the blower module and the heat exchanger and guides the air that has passed through the heat exchanger to the front discharge part.
6. According to claim 1,

   The front discharge unit may include: a front discharge body extending upwardly of the cabinet, the front side being opened, and supporting the all-broadcast wind module; and

   Air conditioner comprising a; front vane installed in the front discharge port of the front discharge body.
7. 7. The method of claim 6,

   The lower side of the front discharge body communicates with the upper side of the cabinet, and the air that has passed through the heat exchanger moves upward along the guide passage between the blower module and the heat exchanger to move to the front discharge unit. .
8. According to claim 1,

   The air conditioner further comprising a; located outside the all-broadcast wind module, the air guide unit for adjusting the discharge angle of the air discharged from the all-broadcast wind module by a rotating operation.
9. 9. The method of claim 8,

   The air guide unit may include: a first guide unit located above the all-broadcast wind module;

   a second guide part located below the all-broadcast wind module; and

   The air conditioner including a; connecting the first guide portion and the second guide portion, the connecting guide portion having a shape surrounding the side surface of the all-broadcast wind module.
10. 10. The method of claim 9,

    The central axis of rotation of the all-broadcast wind module is installed in the vertical direction, some side surfaces of the all-broadcast wind module are blocked by the connection guide part, and the other side of the all-broadcast wind module is open.
11. 10. The method of claim 9,

    The first guide part, the second guide part, and the connection guide part are integrally connected to form a module, and the air conditioner rotates about the central axis of rotation of the all-broadcast wind module.
12. 10. The method of claim 9,

    The air conditioner further comprising: a first driving part connected to the first guide part and rotating the first guide part by supplying rotational power to the air guide part.
13. 10. The method of claim 9,

    The air conditioner further comprising: a second driving part connected to the second guide part and rotating the second guide part by supplying rotational power to the air guide part.
14. a cabinet having an inlet for introducing air and an outlet for discharging air;

    a heat exchanger located inside the cabinet and exchanging heat with the air introduced into the suction port;

    a blower module unit located on the front surface of the heat exchanger and configured to blow air that has passed through the heat exchanger in a direction toward the outlet by a rotating operation;

    a front discharge unit connected to the upper side of the cabinet and guiding air that has passed through the heat exchanger to be discharged forward;

    an all-broadcast wind module that is rotatably installed inside the front discharge unit, sucks air into the front discharge unit and discharges the air toward the front of the front discharge unit; and

    An air conditioner comprising a; an air guide part located outside the all-broadcast wind module and adjusting the discharge angle of the air discharged from the all-broadcast wind module by a rotating operation.
15. 15. The method of claim 14,

    The all-broadcast wind module is fixed to the inside of the front discharge unit, the driving motor for supplying rotational power; and

    and a rotating fan connected to the driving motor and rotating by receiving power from the driving motor.

    The central axis of rotation of the driving motor extends in the vertical direction.

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