JP2007101171A - Air flow direction control device and air conditioner having the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an air flow direction control device for an indoor unit of an air conditioner improving air capacity efficiency and reducing noise. <P>SOLUTION: The air conditioner is provided with a scroll guide in a rotational driving controllable manner to form an air duct around a centrifugal fan for sucking and discharging indoor air to pass through a heat exchanger. An air flow direction pattern can be regulated in various forms by rotationally driving the scroll guide at a predetermined angle to convert a set position of an air discharge port according to an operation mode. With this constitution, the degree of freedom relative to the air flow direction control of discharge air can be improved by a variable air duct, and product performance and reliability can be improved through improvement of air capacity efficiency and reduction of noise. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an air conditioner, and more particularly to an air conditioner wind direction adjusting device for selectively converting and guiding a conditioned air discharge direction by a variable air duct.

  In recent years, the use of air conditioners such as air conditioners has been increasing more and more due to an increasing need to pursue a comfortable living environment for office spaces as well as residential spaces.

  These air conditioners mainly perform cooling and heating functions to maintain optimum temperature and humidity according to seasonal climatic conditions and indoor environment, especially in the case of air conditioners for cooling. In addition to systemization, many researches and developments have been made to improve energy consumption efficiency.

  As known, such an air conditioner includes a stand type and a wall mounted type, and a separate type in which an indoor unit and an outdoor unit are installed separately from each other, such as a frame type and a ceiling cassette type, and an indoor unit Various types of product groups are shipped, such as an integrated window type with an outdoor unit integrated.

  In general, an indoor unit of an air conditioner that forms a refrigerant circulation cycle with an outdoor unit is installed in a square box type (or frame type) cabinet 10 as shown in FIG. The indoor fan is sucked in through the air inlet 11 a of the front cover 11 by the rotational movement of the centrifugal fan 14, and the cool air generated by the sucked air flowing through the heat exchanger 13 is caused to flow through the orifice 15 and the scroll guide 16. A cooling function is performed by discharging air to the indoor space through the air duct 17 forming the path.

  That is, in the conventional ordinary air conditioner indoor unit, as shown, the cold air discharge is guided through the flow path formed by the cooperation of the orifice 15 forming the air duct 17 and the scroll guide 16. As shown in FIGS. 1 and 2, for example, the cool air discharged in this way changes in the left and right wind direction and the up and down wind direction due to the flow of the louver 11b and the vane 11c provided in a state that can be opened and closed at the corner of the front cover 11. It is possible to adjust the wind direction in a limited way.

  However, since the orifice 15 and the scroll guide 16 are provided in an initial design and manufacturing process in a state of being fixed inside the cabinet 10 to form an air duct, the cold air discharge flow path is formed to have a fixed single pattern. The

  The air duct structure (structure in which the scroll guide is provided in a fixed state) for forming the cool air discharge flow path of the conventional air conditioner as described above is a frame type air conditioner as shown in FIGS. 1 and 2, or a wall mounted air conditioner. This is not limited to the product model such as a window type air conditioner, and a fixed duct structure having substantially the same form is applied to, for example, an indoor unit of a stand type air conditioner.

  In the case of the conventional air conditioner shown in FIGS. 1 and 2, the centrifugal fan 14 and the air ducts 17; 15 and 16) provided around the centrifugal fan 14 are provided as an example. Even in the case of a configuration in which a fan or three or more centrifugal fans are provided, a configuration in which the fixed air duct structure formed by a scroll guide provided in a fixed state is substantially the same is applied.

  Therefore, in the case of a conventional air conditioner, the cool air discharge direction during operation depends on the duct flow path formed inside the cabinet 10 so as to be limited only by the initially designed flow path pattern. Accordingly, since it is impossible to adjust the wind direction according to the user's operation selection, it is difficult to realize various patterns of wind direction adjustment functions. Therefore, there is a problem that the cooling function and the efficiency are limited.

  On the other hand, when the wind direction of the cold air discharged from the internal air duct of the cabinet 10 is adjusted by selectively controlling the open / closed state of the louver 11b and the vane 11c, the louver 11b and the vane 11c are controlled to be closed for setting the wind direction. There is a problem that noise is generated by blocking and leakage of cool air discharged through the cool air discharge port of the air duct around the louver 11b and the vane 11c.

  Then, the cool air discharged from outside the cabinet 10 through the normal open path is the cool air that is blocked from being discharged outside the cabinet 10 by the louvers 11b and vanes 11c controlled to be closed for setting the wind direction. Therefore, there is a problem in that the air flow efficiency and the cooling function are deteriorated by adversely affecting the wind direction state to be unstable.

  Further, in the case of the conventional air conditioner as described above, the aperture ratio has a limit due to a practical limitation that is designed to have an open angle of about 120 ° due to the design and manufacturing technique of the louver 11b and the vane 11c.

  Accordingly, since the degree of freedom in controlling the direction of the wind direction of the discharged cool air is limited, there is a problem in that it provides a factor in reducing product performance and reliability due to increase in noise and decrease in air volume.

  The present invention has been devised to solve the above-mentioned problems, and an object of the present invention is to provide a wind direction adjusting device for an air conditioner in which the degree of freedom for adjusting the wind direction of discharged air is improved by a variable air duct. is there.

  Another object of the present invention is to provide an air conditioner equipped with a wind direction adjusting device for achieving the above-mentioned object.

  In order to achieve the above-described object, a wind direction adjusting device for an air conditioner according to the present invention includes a fan motor unit for sucking and discharging outside air so that heat is exchanged by a heat exchanger incorporated in a cabinet, and the fan motor. An air duct built in the cabinet for guiding an air discharge direction so as to form an air flow path around the unit, and a drive unit for changing the position of the discharge port of the air duct. And

  In order to achieve the other objects described above, an air conditioner according to the present invention includes a cabinet provided with an intake port and a discharge port, a heat exchanger provided to be incorporated in the cabinet, and the heat exchanger. A fan motor unit that is installed adjacently to face the air and sucks and discharges external air, and guides the air discharge direction so as to be built in the cabinet so as to form an air flow path around the fan motor unit. An air duct and a drive unit for changing the discharge port position of the air duct are characterized by being configured.

  According to the air conditioner wind direction adjusting device and the air conditioner having the air direction adjusting device according to the present invention having the above-described configuration, the fan motor unit is provided in a state of being opposed to the heat exchanger. It is desirable to include a fan and a drive motor for rotationally driving the centrifugal fan.

  According to another aspect of the present invention, the fan motor unit is provided so as to be arranged in a state where a plurality of the fan motor units are opposed to the heat exchanger.

  The fan motor is configured so that the air duct forms an air discharge flow path in cooperation with a plurality of flow path guides arranged so as to form a plurality of discharge ports inside the cabinet. It is desirable to include a scroll guide provided around the unit. The scroll guide is formed with one or more air outlets.

  The drive unit is provided on an outer peripheral surface of the air duct so as to mesh with a drive motor provided to be supported by the cabinet, a drive gear provided on an output shaft of the drive motor, and the drive gear. Preferably, the driven gear includes a guide portion provided in the cabinet so as to support the air duct in a flowable state. The driven gear is preferably provided such that an annular rack gear is disposed along an outer peripheral surface of the air duct, that is, the scroll guide.

  According to another aspect of the present invention, the drive unit is provided in a drive motor provided to be supported by the cabinet, a drive gear provided at an output shaft end of the drive motor, and the air duct. A sprocket, a chain (or belt) provided so as to be able to run on an endless track so as to connect the drive gear and the sprocket, and the cabinet is provided to support the air duct in a flowable state. It is also possible to include a guide portion.

  According to still another aspect of the present invention, the drive unit is a direct rotation drive in which a rotation shaft is provided in the center of an air duct, that is, a rear wall panel of a scroll guide, and the rotation shaft is connected to an output shaft of a drive motor. A scheme can also be applied. In such a configuration, the drive shaft of the fan motor and the rotation shaft of the scroll guide can be provided in an eccentric state, while the rotation shaft of the hollow scroll guide is formed in a hollow shape having a predetermined inner diameter, and the hollow shaft It can also be provided on the same axis so that the fan motor and its drive shaft are built in the part.

  According to an aspect of the present invention, the guide portion includes the air duct, that is, a guide rib provided to protrude from an edge portion of the body of the scroll guide, and the cabinet so as to contact the inside of the guide rib and support the air duct. It is desirable to include a support bar that protrudes from the support bar.

  According to another aspect of the present invention, the guide part is provided on a support bar provided so as to be supported by the cabinet, and on a guide rib formed to protrude from an edge of the body of the air duct, that is, the scroll guide. It is preferable to include a guide rail and a roller member provided at the tip of the support bar so as to be coupled and moved in a complementary manner with the guide rail.

  As described above, according to the air conditioner and the wind direction adjusting device of the present invention, the following effects can be obtained.

  First, since the duct flow path pattern initially designed by the user's operation mode selection can be converted and adjusted to various wind direction modes, the efficiency by optimizing the air flow and the wind direction is greatly improved. be able to.

  Secondly, the cause of noise generation is controlled by minimizing the forced shut-off and leakage of the cool air that is discharged when adjusting the air direction of the cool air that is discharged from the air duct to the outside of the cabinet by the open / closed state of the louvers and vanes. By removing it, an effect of improving product performance and reliability can be obtained.

  Third, diversification of product functions can be achieved by improving the degree of freedom with respect to the control of the wind direction angle of the discharged cold air.

  Hereinafter, an air conditioner and a wind direction adjusting apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

  3 and 4, the air conditioner according to the present invention includes a heat exchanger 120 and a fan motor unit (centrifugal fan 131 and fan motor 132) built in the cabinet 110, air ducts 140, 150, 160, and And a drive unit 170 for driving the air duct 140 so that the flow direction of the air duct 140 is variable.

  The air conditioner having the configuration as described above is configured as an integral unit with an outdoor unit (not shown) or is configured as an indoor unit connected to a refrigerant circulation cycle of a separate outdoor unit.

  According to the present invention, the cabinet 110, particularly the front cover 111 provided in the front part, is provided with an intake port 111a and an air discharge port 111b. The air discharge port 111b is selectively opened and closed depending on, for example, the operating state of the louver 112 and the vane 113, so that the air direction can be limitedly controlled through a change in the left and right wind direction and a change in the up and down wind direction.

  The fan motor units 130; 131, 132, the air ducts 140, 150, 160, and the driving unit 170 thereof are constituent elements that form a wind direction adjusting device of an air conditioner according to the present invention, and the fan motor unit 130 includes the cabinet 110. Or the centrifugal fan 131 provided so that it might be rotationally driven by the fan motor 132 supported by the air ducts 140, 150, 160 was included.

  The centrifugal fan 131 is installed adjacent to the inside facing the heat exchanger 120, and is cooled while operating to suck external (indoor) air and pass through the heat exchanger 120 by the rotation of the centrifugal fan 131. Exhale the cold.

  According to the present invention, one or more centrifugal fans 131 are provided side by side, and an air duct is provided so as to correspond to each of the provided centrifugal fans 131 so as to form a unit unit.

  The air ducts 140, 150, and 160 are formed with a flow path by the cooperation of the orifice 140, the plurality of flow path guides 150 and the scroll guide 160, and the orifice 140 is disposed inside the cabinet 110. A through hole 141 that allows penetration is formed.

  The plurality of flow path guides 150 are disposed at different positions with the plurality of air discharge ports 111b provided in the cabinet 110 exposed, and form part of a partition that partitions the air discharge flow path. To do.

  The plurality of flow path guides 150 can be provided such that, for example, a metal panel or a synthetic resin panel is molded into various shapes and structures according to a flow path formation pattern and incorporated in the cabinet 110.

  As shown in FIGS. 5A and 5B, the scroll guide 160 is provided so as to surround the vane of the centrifugal fan 131, and a space in which the centrifugal fan 131 is provided is formed. It has a cylindrical body 161 and a rectangular pipe-shaped discharge part 162 protruding to one side of the body 161, and the end of the discharge part 162 is formed with an open cold air discharge port 163 communicating with the outside. .

  A wall panel 164 is provided on one side of the cylindrical body 161, and the other side has a structure in which an air duct is formed in contact with the orifice 140 in an open state.

  As shown in FIG. 3, the cold air outlet 163 of the scroll guide 160 is aligned with the air outlet 111 b provided so as to be opened by the front cover 111, the orifice 140, and the plurality of flow path guides 150. It is formed to be aligned and communicated.

  The drive unit 170 is for rotating the scroll guide 160, and is provided at a drive motor 171 provided to be supported by a back plate of the cabinet 110 and an output shaft end of the drive motor 171. A drive gear (pinion) 172, a driven gear (annular rack gear) 173 provided on the outer peripheral surface of the cylindrical body 161 of the scroll guide 160 so as to mesh with the drive gear 172, and the scroll guide 160 are rotated. A guide portion 174 provided on the back plate of the cabinet 110 is configured to be supported in a possible state.

  According to an embodiment of the present invention, the driven gear 173 is preferably provided with an annular rack gear along the edge of the outer peripheral surface of the cylindrical body 161 of the scroll guide 160 as shown.

  On the other hand, the driven gear (rack gear) 173 may be provided in a state of being molded so as to be integrated with the edge of the outer peripheral surface of the cylindrical body 161 of the scroll guide 160. On the other hand, an annular rack gear separately processed using a normal fastening member such as a screw or a bolt-nut may be provided in a state of being coupled to the edge of the outer peripheral surface of the cylindrical body 161 of the scroll guide 160. it can.

  The guide part 174 is provided to guide the scroll guide 160 so that the rotation of the scroll guide 160 can be smoothly performed. As shown in FIGS. 5A and 5B, the guide part 174 is provided at the edge of the rear wall panel 164 of the scroll guide 160. The guide rib 174a provided to protrude, the guide rail 174b provided to the guide rib 174a, the support bar 174c provided to protrude from the cabinet 110, and the guide rail 174b are coupled complementarily to restrain and guide the rolling motion. As described above, it is preferable to include a roller member 174d provided at the tip of the support bar 174c.

  As another embodiment of the present invention, the guide portion 174 includes a guide rib 174a that protrudes from an edge of the rear wall panel 164 of the scroll guide 160, and a body of the scroll guide 160 that is in contact with the guide rib 174a. The support bar 174c may be configured to protrude from the cabinet 110 so as to support the whole.

  As another embodiment of the present invention, the drive unit 170 may be configured by a chain or belt drive system. That is, referring to FIG. 6, the driven gear (sprocket) 175 is supported to support the rear diaphragm panel 164 of the scroll guide 160, and the drive gear 177 provided at the output shaft end of the drive motor 171 The driven gear 175 can be coupled to and linked with a chain (or timing belt) 178.

  As another embodiment of the present invention, although not shown in the drawings, a rotation shaft (not shown) is provided at the center of the rear wall panel of the scroll guide 160, and the rotation shaft is used as the output shaft of the drive motor. It is also possible to apply a direct rotation drive system connected to the. In the case of applying this embodiment, the drive shaft of the fan motor and the rotation shaft of the scroll guide can be provided in an eccentric state.

  For example, the rotary shaft of the hollow scroll guide can be formed in a hollow shape having a predetermined inner diameter, and can be provided coaxially so that the fan motor and its drive shaft are built in the hollow portion.

  The present invention is not limited to the configuration described in the embodiment of the drive unit 170 as described above, and various known drive means that rotate the scroll guide 160 can be used.

  Hereinafter, an operation process and an air flow adjustment state of the air conditioner and the air flow adjusting device according to the present invention having the above-described configuration will be described in detail with reference to the accompanying drawings.

  The air conditioner and the airflow direction adjusting device according to the present invention suck the room air through the intake port 111a of the front cover 111 while the centrifugal fan 131 rotates by the operation principle of a normal refrigeration and air conditioning cycle by the user's operation start. Become. The air sucked in this way is cooled while flowing through the heat exchanger 120 to generate cold air. The cool air generated as described above performs a cooling function by being discharged into the indoor space through an air duct in which a flow path is formed by the orifice 140, the plurality of flow path guides 150, and the scroll guide 160. At this time, the discharged cold air can be adjusted in the direction of the user's direction by controlling the set position of the cold air discharge port 163 by the rotational movement of the scroll guide 160 forming the variable air duct according to the present invention. The specific operation process will be described as follows.

  If the user of the air conditioner selects one of the various wind direction modes determined in advance by operating the remote controller or the control panel, for example, to adjust the wind direction, the input signal is By being transmitted to the control unit (microcomputer, not shown) and controlling the drive of the drive unit 170, the operation of switching to the wind direction mode selected by the user is performed.

  That is, according to the control signal of the control unit (microcomputer), as shown in FIG. 5A, the drive motor 171 and the drive gear 172 at its output shaft end are driven to rotate together. As a result, the driven gear 173 provided so as to mesh with the drive gear 172 is interlocked so that the scroll guide 160 is driven to rotate.

  On the other hand, when the chain or belt drive type drive unit as shown in FIG. 6 is adopted, the rotational force and the rotational amount of the drive gear 177 of the drive motor 171 are transmitted to the driven gear 175 by the chain (or timing belt) 178. As a result, the scroll guide 160 is driven to rotate at a fixed angle in conjunction with the scroll guide 160.

  At this time, the rotation angle of the scroll guide 160 is determined by controlling the rotation speed of the drive motor 171 in accordance with a control signal from the control unit (microcomputer). As a result, the set position of the cool air discharge port 163 is determined by the rotational state of the finally positioned scroll guide 160, and the wind direction can be adjusted in the direction desired by the user.

  According to the present invention, the scroll guide 160 is provided to have a 360 ° rotational movement range.

  Meanwhile, the cool air discharge port 163 of the scroll guide 160 is formed to be aligned and in communication with the air discharge port 111 b provided to be opened by the cabinet 110 and the plurality of flow path guides 150.

  7A to 7D show the scroll guide 160 so that the cool air outlet 163 of the scroll guide 160 and the air outlet 111b provided in the cabinet 110 and the plurality of flow path guides 150 are aligned and communicated with each other. It is the figure which showed the wind direction mode of the various state by which the wind direction adjustment was made | formed by controlling the rotation angle and changing the set position of the cool air discharge port 163.

  According to an aspect of the present invention, the air discharge port 111b formed by the cabinet 110 and the plurality of flow path guides 150 is provided at various positions, and the cool air discharge port of the scroll guide 160 is determined by the position of the air discharge port 111b. By controlling the set position so that 163 is aligned and aligned with each other and communicated, various types and forms of wind direction mode combinations can be set.

  Therefore, according to the air conditioner and the airflow direction adjusting device of the present invention, the louver 112 and the vane 113 provided on the front cover 111 are selectively controlled to open and close, thereby discharging the air from the internal air duct of the cabinet 110 to the outside. When adjusting the wind direction of the cool air, by changing the cool air discharge port 163 of the scroll guide 160 toward the air discharge port 111b in which the louver 112 and / or the vane 113 are opened through the operation process as described above, It is possible to improve the air flow efficiency and the cooling performance efficiency by concentrating the air direction and the air flow.

  Meanwhile, according to another embodiment of the present invention, as shown in FIG. 8, the scroll guide 160 is provided with two or more cold air discharge ports 163 and 163a.

  Therefore, according to the embodiment shown in FIG. 8, as shown in FIG. 9, even when the scroll guide 160 is set in any one of the wind direction modes, the plurality of cool air discharge ports 163 and 163a are in different directions. Since the direction is set so that the cool air can be discharged, a variety of types and forms of wind direction mode combinations can be set, and product functions can be diversified.

  On the other hand, the embodiment according to the present invention as described above has exemplified the configuration in which the centrifugal fan 131 and a pair of air ducts provided around the centrifugal fan 131 are provided, but one centrifugal fan or three or more centrifugal fans are provided. Of course, even in the case of the provided configuration, the variable duct structure formed by the scroll guide provided so as to be capable of rotational drive control can be applied in substantially the same form.

  The variable air duct structure according to the present invention as described above (the structure in which the scroll guide is provided so as to be capable of rotation control) has a frame type air conditioner, a wall mounted type air conditioner and a window type as shown in FIGS. The present invention is not limited to a product model such as an air conditioner. Needless to say, a variable air duct structure having substantially the same form can be applied to, for example, an indoor unit of a stand type air conditioner.

  In addition, the air conditioner and the wind direction adjusting device according to the present invention having the above-described configuration have been described with reference to an example in which the air conditioner is applied to an indoor unit of an air conditioner for cooling. It can be effectively applied to the indoor unit portion of the integrated air conditioner, as well as the outdoor unit portion of the separated air conditioner, the outdoor unit portion of the integrated air conditioner, and the indoor unit and outdoor unit of the heater.

  The present invention is not limited to the specific preferred embodiments described above, and various modifications may be made by anyone having ordinary knowledge in the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, such modifications are within the scope of the appended claims.

It is the isolation | separation perspective view which showed the principal part of the indoor unit schematically in order to demonstrate the cold air discharge structure of the conventional air conditioner. It is the front view which showed roughly the principal part of the indoor unit in order to demonstrate typically the cold air discharge state of the conventional air conditioner. FIG. 3 is an exploded perspective view schematically showing a main part of an indoor unit in order to explain an air conditioner wind direction adjusting apparatus according to an embodiment of the present invention. FIG. 4 is a side configuration diagram schematically illustrating a state in which the air conditioner of the air conditioner illustrated in FIG. 3 is coupled. FIG. 5 is a schematic perspective view showing the scroll guide and the driving unit thereof in FIGS. 3 and 4 extracted in different directions. FIG. 5 is a schematic perspective view showing the scroll guide and the driving unit thereof in FIGS. 3 and 4 extracted in different directions. FIG. 6 is a schematic perspective view illustrating a driving part of a scroll guide according to another embodiment of the present invention. It is the schematic top view which showed the wind direction adjustment state by the operation state of the wind direction adjustment apparatus of the air conditioner which concerns on this invention. It is the schematic top view which showed the wind direction adjustment state by the operation state of the wind direction adjustment apparatus of the air conditioner which concerns on this invention. It is the schematic top view which showed the wind direction adjustment state by the operation state of the wind direction adjustment apparatus of the air conditioner which concerns on this invention. It is the schematic top view which showed the wind direction adjustment state by the operation state of the wind direction adjustment apparatus of the air conditioner which concerns on this invention. It is the schematic perspective view which extracted and showed the scroll guide applied to the wind direction adjustment apparatus of the air conditioner by the other Example of this invention. It is the schematic top view shown in order to demonstrate the wind direction adjustment state by the wind direction adjustment apparatus of the air conditioner to which the scroll guide shown by FIG. 8 was applied.

Claims (20)

A fan motor unit for sucking and discharging outside air so that heat is exchanged by a heat exchanger built in the cabinet;
An air duct that is provided in the cabinet so as to form an air flow path around the fan motor unit and guides an air discharge direction;
A wind direction adjusting device for an air conditioner, comprising: a drive unit for changing a position of a discharge port of the air duct. The fan motor unit is
A centrifugal fan provided opposite to the heat exchanger;
The air conditioner wind direction adjusting device according to claim 1, further comprising a drive motor for rotating the centrifugal fan.   The air conditioner wind direction adjusting device according to claim 1, wherein a plurality of the fan motor units are arranged in a state of being opposed to the heat exchanger. The air duct is
A plurality of flow path guides arranged to form a plurality of discharge ports inside the cabinet, and around the fan motor unit so as to form an air discharge flow path in cooperation with the plurality of flow path guides The wind direction adjusting device for an air conditioner according to claim 1, further comprising a scroll guide provided.   The apparatus according to claim 4, wherein the scroll guide is formed to have a plurality of air discharge ports. The drive unit is
A drive motor provided to be supported by the cabinet;
A drive gear provided on an output shaft of the drive motor;
A driven gear provided on the outer peripheral surface of the air duct so as to mesh with the drive gear;
The air conditioner wind direction adjusting device according to claim 1, further comprising a guide portion provided in the cabinet so as to support the air duct in a flowable state.   The wind direction adjusting device for an air conditioner according to claim 6, wherein an annular rack gear is disposed along the outer peripheral surface of the air duct as the driven gear. The drive unit is
A drive motor provided to be supported by the cabinet;
A drive gear provided at an output shaft end of the drive motor;
A sprocket provided in the air duct;
A chain provided to be able to travel on an endless track so as to connect the drive gear and the sprocket;
The air conditioner wind direction adjusting device according to claim 1, further comprising a guide portion provided in the cabinet so as to support the air duct in a flowable state. The guide portion is
A guide rib provided to protrude from an edge of a body of the air duct, and a support bar provided to protrude from the cabinet so as to contact the inside of the guide rib and support the air duct. The wind direction adjusting device for an air conditioner according to 6 or 8. The guide portion is
A support bar provided to be supported by the cabinet;
A guide rail provided on a body of the air duct;
The apparatus according to claim 6 or 8, further comprising a roller member provided at a tip of the support bar so as to be coupled and moved in a complementary manner with the guide rail. A cabinet equipped with inlets and outlets;
A heat exchanger provided to be incorporated in the cabinet;
A fan motor unit provided opposite to the heat exchanger for sucking and discharging outside air;
An air duct that is provided in the cabinet so as to form an air flow path around the fan motor unit and guides an air discharge direction;
And an air conditioner including a drive unit for changing a position of a discharge port of the air duct. The fan motor unit is
A centrifugal fan provided in a state facing the heat exchanger;
The air conditioner according to claim 11, further comprising a drive motor for rotating the centrifugal fan.   The air conditioner according to claim 11, wherein a plurality of the fan motor units are arranged in a state of being opposed to the heat exchanger. The air duct is
A plurality of flow path guides arranged to form a plurality of discharge ports inside the cabinet, and around the fan motor unit so as to form an air discharge flow path in cooperation with the plurality of flow path guides. The air conditioner according to claim 11, further comprising: a scroll guide having an air discharge port provided on one side.   The air conditioner according to claim 14, wherein the scroll guide is formed to have a plurality of air discharge ports. The drive unit is
A drive motor provided to be supported by the cabinet;
A drive gear provided on an output shaft of the drive motor;
A driven gear provided on the outer peripheral surface of the air duct so as to mesh with the drive gear;
The air conditioner according to claim 11, further comprising a guide portion provided in the cabinet so as to support the air duct in a flowable state.   The air conditioner according to claim 11, wherein an annular rack gear is disposed along the outer peripheral surface of the air duct as the driven gear. The drive unit is
A drive motor provided to be supported by the cabinet;
A drive gear provided at an output shaft end of the drive motor;
A sprocket provided in the air duct;
A chain provided on an endless track so as to connect the drive gear and the sprocket; and
The air conditioner according to claim 11, further comprising a guide portion provided in the cabinet so as to support the air duct in a flowable state. The guide portion is
A guide rib provided to protrude from an edge of a body of the air duct, and a support bar provided to protrude from the cabinet so as to contact the inside of the guide rib and support the air duct. The air conditioner according to 16 or 18. The guide portion is
A support bar provided to be supported by the cabinet;
A guide rail provided on a body of the air duct;
The air conditioner according to claim 16, further comprising a roller member provided at a tip of the support bar so as to be complementarily coupled to the guide rail and move.

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