CN102032657B - Stand type air conditioner - Google Patents

Abstract

A stand type air conditioner of the invention includes a base; a casing arranged on the upper side of the base; a sucking panel arranged in front of the lower part of the casing to form a sucking inlet; a discharging panel arranged in front of the upper part of the casing to form a left side discharging outlet at the left side, and a right side discharging outlet at the right side; a blower arranged at the lower part of the casing; a heat exchanger arranged between the discharging panel and the casing; a left side up/down wind direction regulation unit to regulate the up/down wind direction of the air discharged from the left side discharging outlet; a right up/down wind direction regulation unit to regulate the up/down wind direction of the air discharged from the right side discharging outlet, wherein the left side and right side up/down wind direction regulation units include: a plurality of up/down wind direction regulation blades; an arrangement mechanism arranged inside of the discharging panel to form blade arrangement holes rotatably connecting the up/down wind direction regulation blade, and the plurality of blade arrangement holes spaced with each other along the up/down direction and provided with rotation shaft through holes; a wind direction regulation motor having rotation shafts for penetrating the rotation shaft through holes and arranged on the arrangement mechanism. Thus the invention has advantages of small part number and simple assembly procedure.

Description

Vertical air conditioner

Technical Field

The present invention relates to a vertical air conditioner, and more particularly, to a vertical air conditioner having a vertical air direction adjustment vane for adjusting a vertical air direction of air discharged from a discharge port.

Background

Generally, an air conditioner is installed to cool or heat or purify indoor air by a heater, a refrigerator, a purifier, or the like, thereby providing a more comfortable indoor environment to people. In particular, in recent years, air conditioners that have not only a cooling and heating function but also an air purifying function have been widely used.

The air conditioners are classified into a vertical type air conditioner installed on an indoor floor, a wall type air conditioner installed on an indoor wall or a window, a ceiling type air conditioner installed to be hung on a ceiling, and the like.

The vertical air conditioner has a suction port formed at the lower part thereof and a discharge port formed at the upper part thereof, so that indoor air is sucked from the lower part and discharged to the upper part, and thus cold air discharged from the discharge port falls as a shower, giving a comfortable feeling to a user.

Recently, the trend of the vertical air conditioner is that the discharge port is formed not in the front but in the side surface, and the air after heat exchange is discharged from the side surface.

A vertical air conditioner is provided with a plurality of vertical air direction adjusting blades arranged at the inner side of an exhaust port, and an air direction adjusting motor for rotating the vertical air direction adjusting blades, and can adjust the vertical air direction of air exhausted from the side surface and form three-dimensional air flow.

However, the floor air conditioner as described above has the following inconvenience. That is, when a plurality of vertical wind direction adjustment blades are provided at the discharge port, each of them needs to be connected to the inside of the discharge port, and when the wind direction adjustment motor is positioned on the cold air discharge passage, dew is caught on the wind direction adjustment motor, and there is a possibility that an operation error occurs.

Disclosure of Invention

The present invention has been made to solve the above-described problems occurring in the prior art, and an object of the present invention is to provide a floor air conditioner in which a plurality of vertical air direction adjustment vanes and an air direction adjustment motor are integrally provided on an installation member.

Another object of the present invention is to provide an air conditioner in which a wind direction adjustment motor is blocked from heat-exchanged air, thereby preventing the wind direction adjustment motor from being damaged by the heat-exchanged air.

It is still another object of the present invention to provide an air conditioner capable of preventing the plurality of up-and-down wind direction adjustment blades from shaking and forming an optimal flow of air after heat exchange.

To solve the existing problems, a floor type air conditioner according to the present invention includes: a base; a housing disposed on the upper side of the base; a suction panel which is arranged in front of the lower part of the shell and is provided with a suction inlet; a discharge panel provided in front of an upper portion of the housing, the discharge panel having a left discharge port formed on a left side and a right discharge port formed on a right side; a blower disposed at a lower portion of the casing; a heat exchanger disposed between the discharge panel and the casing; a left vertical air direction adjusting unit provided on a left side of the discharge panel to adjust a vertical air direction of the air discharged from the left discharge port; a right vertical air direction adjusting unit provided on a right side of the discharge panel to adjust a vertical air direction of air discharged from the right discharge port, the left vertical air direction adjusting unit and the right vertical air direction adjusting unit including: a plurality of up-down wind direction adjusting blades; a mounting member which is provided on an inner surface of the discharge panel, in which a blade mounting hole for rotatably connecting the vertical wind direction adjustment blade is formed, and a plurality of blade mounting holes are formed to be spaced apart from each other in a vertical direction, and a rotation shaft through hole is formed in the mounting member; and an air direction adjustment motor which has a rotating shaft penetrating the rotating shaft through hole and is provided on the installation member.

The up-down wind direction adjusting blade has a horizontal connecting shaft rotatably connected to the blade installation hole, and a reinforcing rib is formed on a surface opposite to the horizontal connecting shaft in a protruding manner.

The above-mentioned setting member includes: a first plate portion in which the blade installation hole and the rotation shaft through hole are formed, and which guides air discharged from the discharge port; and a second plate body part formed by bending the first plate body part, wherein a motor accommodating space capable of accommodating the wind direction adjusting motor is arranged between the second plate body part and the first plate body part.

In the above-described installation member, the second plate portion is in close contact with the back surface of the discharge panel, and the first plate portion is bent at an acute angle to the second plate portion.

The first plate portion is formed with a motor installation portion in which the airflow direction adjustment motor is installed, and the second plate portion is formed with an opening portion at a position facing the airflow direction adjustment motor.

The above-mentioned setting member further includes: a third plate body portion that shields an upper end between the first plate body portion and the second plate body portion; and a fourth plate body portion which shields a lower end between the first plate body portion and the second plate body portion.

A projection formed on the front plate portion of the discharge panel so as to project rearward, and an installation member connection portion formed on each of left and right sides of the projection; and a connecting boss formed on the installation member and connected with the connection part of the installation member through a connecting member.

The setting member has a motor accommodating space for accommodating the wind direction adjusting motor, and is connected to the protrusion so that the protrusion covers the motor accommodating space.

The discharge port and the setting member are formed to be long in the vertical direction.

The plurality of the installation member connection portions and the plurality of connection bosses are formed at intervals in the vertical direction.

The vertical air conditioner further includes a support rod crossing the discharge port and disposed on the discharge panel, and the installation member is formed with a support rod insertion groove into which the support rod is inserted and accommodated.

Wind direction regulating unit and wind direction regulating unit about the right side still include about above-mentioned wind direction regulating unit in left side: a drive link connected to the rotary shaft; and a driven link connected to the driving link and to the plurality of up-down wind direction adjusting blades so as to rotate the plurality of up-down wind direction adjusting blades together.

In the floor air conditioner according to the present invention, the plurality of vertical air direction adjustment blades and the air direction adjustment motor are provided together on the single installation member, so that the number of components can be minimized, and the plurality of vertical air direction adjustment blades, the air direction adjustment motor, and the installation member are assembled into a unit and then assembled to the discharge panel, so that there is an advantage in that the assembly process is simple.

Further, since the airflow direction adjustment motor is accommodated in the motor accommodation space formed in the shield plate, there is an advantage that the airflow direction adjustment motor can be prevented from being damaged by the air after heat exchange.

Further, since the installation member has a function of guiding the air discharged from the discharge port, it is not necessary to provide a special guide member, and there is an advantage that the number of parts can be minimized.

Further, there is an advantage in that the vertical airflow direction adjustment vane supported by the horizontal shaft on the installation member stably guides the airflow direction of the discharged air without falling or shaking.

Further, there is an advantage in that the tool for coupling the coupling member is easily moved in and out through the opening formed in the installation member, and the electric wire connected to the wind direction adjustment motor is drawn out to the outside, thereby facilitating the assembly of the wind direction adjustment motor.

Further, there is an advantage that the upper end and the lower end of the installation member are blocked, and the air after heat exchange can be prevented from flowing into the inside of the installation member.

Further, there is an advantage that the projection formed on the discharge panel shields the motor receiving space formed on the setting member, so that it is not necessary to provide a special shielding plate for shielding the motor receiving space and it is not necessary to provide a special fixing member for aligning the setting direction of the setting member.

Also, there is an advantage in that since the installation member is connected at a plurality of places, the installation member can be stably installed and prevented from moving due to vibration or the like.

Further, there is an advantage that the support rod and the installation member do not interfere with each other due to the support rod insertion groove formed in the installation member, and the installation member is firmly supported by being fitted to the support rod.

The features and advantages of the present invention will become more readily apparent from the detailed description of the embodiments of the invention set forth below and from the attached drawings.

Drawings

Fig. 1 is a front view of an embodiment of a floor type air conditioner according to the present invention.

Fig. 2 is a perspective view of an embodiment of a floor type air conditioner according to the present invention.

Fig. 3 is an X-X sectional view shown in fig. 2.

Fig. 4 is a cross-sectional view Y-Y shown in fig. 2.

Fig. 5 is an enlarged perspective view of the up-down wind direction adjusting unit shown in fig. 2 and 4.

Fig. 6 is a side view of the up-down wind direction adjusting unit shown in fig. 2 and 4.

Fig. 7 is a sectional view of the airflow direction adjustment drive mechanism of the vertical airflow direction adjustment unit shown in fig. 2 and 4.

Fig. 8 is an enlarged sectional view of the arrangement structure of the arrangement member shown in fig. 5.

Detailed Description

Hereinafter, embodiments of the present invention that can specifically achieve the above objects will be described in detail with reference to the accompanying drawings.

Fig. 1 is a front view of an embodiment of a floor type air conditioner according to the present invention, fig. 2 is a perspective view of an embodiment of a floor type air conditioner according to the present invention, fig. 3 is an X-X sectional view shown in fig. 2, and fig. 4 is a Y-Y sectional view shown in fig. 2.

As shown in fig. 1 to 4, the air conditioner according to the present embodiment includes: an air conditioner 2 for conditioning and discharging the sucked indoor air; and a vertical air direction adjusting unit 3 provided in the air conditioner 2 to adjust a vertical air direction of air discharged from the air conditioner 2.

The air conditioner 2 has a left suction port 4 formed in a left lower portion thereof, a right suction port 6 formed in a right lower portion thereof, a left discharge port 8 formed in a left upper portion thereof, and a right discharge port 10 formed in a right upper portion thereof.

The air conditioner 3 includes: a left door 12 that opens and closes the left suction port 4 and the left discharge port 8 together; and a right door 14 that opens and closes the right suction port 6 and the right discharge port 10 together.

The air conditioner 2 includes: a base 20, a casing 22, suction panels 30 and 40, and a discharge panel 50.

The base 20 forms the bottom surface appearance of the air conditioner 2 and supports the casing 22 and the like.

The casing 22 forms the rear appearance of the air conditioner 2, is disposed on the upper side of the rear portion of the base 20, and is composed of a rear plate portion 23, a left plate portion 24, and a right plate portion 25.

The suction panels 30 and 40 are provided in front of the lower portion of the casing 22, and have suction ports 4 and 6 formed therein so that indoor air is sucked into the air conditioner 2, and lower ends thereof are disposed to be placed on the upper side of the front portion of the base 22.

The suction panels 30, 40 include: a left suction panel 30 having a left suction port 4 formed therein, and a right suction panel 40 having a right suction port 6 formed therein.

The left suction panel 30 is disposed in front of the lower portion of the left plate portion 24 of the casing 22, and is disposed between the left plate portion 53 of the discharge panel 50 and the base 20.

The right suction panel 40 is disposed in front of the lower portion of the right plate portion 25 of the casing 22, and is disposed between the right plate portion 54 of the discharge panel 50 and the base 20.

The discharge panel 50 has a left discharge port 8 formed on the left side thereof and a right discharge port 10 formed on the right side thereof.

The discharge panel 50 is disposed in front of the upper portion of the casing 22, and includes a front plate portion 52, a left plate portion 53, and a right plate portion 54.

In the discharge panel 50, the front plate portion 52, the left plate portion 53, and the right plate portion 54 may be integrally formed, or may be formed as separate members and then coupled by a coupling member such as a bolt or a fastening portion such as a hook.

The discharge panel 50 has a left discharge port 8 opened in a left side plate portion 53 thereof and a right discharge port 10 opened in a right side plate portion 54 thereof.

The air conditioner 2 further includes: a blower 60 provided at a lower portion of the casing 22, sucking air in front and sending the air to an upper side; a cleaning unit 70 which is provided in front of the blower 60 and cleans air sucked by the blower 60; a heat exchanger 80 that is provided between the discharge panel 50 and the casing 22 and exchanges heat between the refrigerant and air; and a front panel 90 forming a front side appearance of the air conditioner.

The front panel 90 is provided so as to cover a space between the upper end of the front plate portion 52 of the discharge panel 50 and the base 20, and is rotatably attached to the side about one of the left and right sides, or may be fixedly attached.

The up-down wind direction adjusting unit 3 includes: a left vertical airflow direction adjusting unit 55 provided on the left side of the discharge panel 50 to adjust the vertical airflow direction of the air discharged from the left discharge port 8; and a right up-down wind direction adjusting unit 56 provided at the right side of the discharge panel 50 to adjust the up-down wind direction of the air discharged from the right discharge port 10.

The left-side up-down wind direction adjusting unit 55 and the right-side up-down wind direction adjusting unit 56 are bilaterally symmetrical structures, and respectively include: a plurality of up-down wind direction adjustment blades 100; a setting member 110 for rotatably setting the plurality of up-down wind direction adjustment blades 100.

The plurality of vertical airflow direction adjustment vanes 100 are provided on the installation member 110 so as to be positioned inside the discharge ports 8 and 10, and are installed to be spaced apart from each other in the vertical direction.

The installation member 110 is assembled as a unit together with the plurality of vertical airflow direction adjustment vanes 100 and an airflow direction adjustment motor 124 (shown in fig. 5 and 6) to be described later, and is installed on the discharge panel 50.

The installation member 110 is provided on the front plate portion 52 of the discharge panel 50, particularly on the inner surface of the front plate portion 52 of the discharge panel 50.

The discharge panel 50 is provided with a setting member 110, and when the setting member 110 is provided, it forms a motor accommodating space (not shown) described later together with the setting member 110, and forms a projection 57 that shields the motor accommodating space, and the projection 57 is formed to project rearward on the front plate portion 52, particularly toward the heat exchanger 80.

The projection 57 is formed in a rectangular box shape with its front surface opened as a whole, and installation member connection portions 58 and 59 for installing the installation member 110 are formed on both left and right sides thereof, respectively.

A boss 57 having a left installation member coupling portion 58 formed on a left side surface thereof to install the installation member 110 of the left vertical airflow direction adjustment unit 55; a right installation member coupling portion 59 is formed on the right side surface thereof to install the installation member 110 of the right vertical airflow direction adjustment unit 56.

The left vertical airflow direction adjustment unit 55 and the right vertical airflow direction adjustment unit 56 each include an airflow direction adjustment drive mechanism 120 (shown in fig. 5 and 7) that rotates the plurality of vertical airflow direction adjustment vanes 100 together, and the airflow direction adjustment drive mechanism 120 will be described in detail below.

The discharge panel 50 is provided with a support bar 96 located inside the discharge ports 8 and 10.

The support rod 96 serves to protect the inside of the discharge ports 8 and 10 of the discharge panel 50 and to reinforce the strength of the discharge panel 50, particularly the peripheral portions of the discharge ports 8 and 10, and has a tip end connected to the back surface of the front plate portion 52 of the discharge panel 50, a side end connected to the side surfaces of the left and right plate portions 53 and 54 of the discharge panel 50 so as to cross the rear of the discharge ports 8 and 10.

The support bars 96 are a plurality of ones spaced apart from each other and disposed inside the discharge ports 8, 10.

Fig. 5 is an enlarged perspective view of the up-down airflow direction adjustment unit shown in fig. 2 and 4, fig. 6 is a side view of the up-down airflow direction adjustment unit shown in fig. 2 and 4, fig. 7 is a sectional view of an airflow direction adjustment drive mechanism of the up-down airflow direction adjustment unit shown in fig. 2 and 4, and fig. 8 is an enlarged sectional view of an installation structure of the installation member shown in fig. 5.

The left and right wind direction adjustment units 55, 56 further include a wind direction adjustment drive mechanism 120 that is provided on the setting member 110 together with the plurality of wind direction adjustment blades 100 and rotates the plurality of up-down wind direction adjustment blades 100.

The wind direction adjustment drive mechanism 120 includes: a wind direction adjustment motor 124 having a rotation shaft 122; a driving link 126 connected to the rotation shaft 122; and a follower link 128 connected to the driving link 126, connected to the plurality of up-down airflow direction adjusting blades 100, and rotating the plurality of up-down airflow direction adjusting blades 100 together.

The wind direction adjustment motor 124 is provided so as to be located inside the setting member 110, and its rotation shaft 122 protrudes to the outside of the setting member 110.

The wind direction adjustment motor 124 is provided to the installation member 110, and the rotary shaft 122 thereof penetrates the rotary shaft through hole 113 formed in the installation member 110.

The driving link 126 rotates around the rotation shaft 122 outside the installation member 110.

The driving link 126 is disposed such that a front portion thereof is connected to the rotating shaft 122 and a rear portion thereof is connected to the driven link 128.

The driven link 128 moves centering on the driving link 126 at the outside of the setting member 110.

The driven link 128 is configured such that an upper portion thereof is connected to the driving link 126, and is long in the up-down direction at a position approximately rearward of the setting member 100.

The up-down wind direction adjustment blade 100 is formed in a plate shape as a whole, and a horizontal rotation shaft 102 rotatably connected to the setting member 110 is formed to protrude therefrom, and a link connection shaft 104 rotatably connected to a driven link 128 is formed to protrude at a rear position of the horizontal connection shaft 102.

As shown in fig. 5 and 6, the horizontal connecting shaft 102 includes: a support shaft 102a protruding in a cylindrical or cylindrical shape on the up-down wind direction adjusting blade 100; and a projection piece 102b that prevents the vertical airflow direction adjustment vane 100 from being arbitrarily detached by an action of being inserted through the vane installation hole 112 after protruding from the support shaft 102a in the radial direction and being caught around the vane installation hole 112.

The up-down wind direction adjustment vane 100 is formed with a reinforcing rib 106 protruding from the opposite side of the horizontal connection shaft 102 and the link connection shaft 104.

In the up-down wind direction adjustment vane 100, since the horizontal connection shaft 102 is connected to the installation member 110 and the link connection shaft 104 is connected to the driven link 128, the horizontal connection shaft 102 and the one end portion of the link connection shaft 104 opposite to the one end portion are easily shaken by the flow of the discharged air, and the reinforcing rib 106 is formed to minimize the shaking.

The reinforcing rib 106 is formed thicker and longer than the up-down wind direction regulating blade 100.

The setting member 110 is formed with a plurality of blade setting holes 112 spaced apart from each other for rotatably connecting the up-down wind direction adjusting blades 100.

Here, the blade installation hole 112 facilitates the rotation of the vertical airflow direction adjustment blade 100 in a state of being supported by the installation member 110, and prevents the vertical airflow direction adjustment blade 100 from being arbitrarily detached.

The blade arrangement hole 112 rotatably supports the support shaft 102a of the up-down wind direction adjusting blade 100, and has a projection piece 102b penetrating therethrough, the blade arrangement hole 112 including: a support shaft rotation hole 112a that rotatably supports the support shaft 102a of the up-down airflow direction adjusting blade 100; and a projection piece through hole 112b communicating with the support shaft rotation hole 112a and through which the projection piece 102b is inserted.

When the up-down wind direction adjusting blade 100 is in a substantially horizontal position, the protrusion piece 102b is formed to protrude toward the upper and lower portions of the support shaft 102a, the protrusion piece through hole 112b in the installation member 110 is formed to communicate the front and rear of the support shaft rotation hole 112a, and when the up-down wind direction adjusting blade 110 is in a substantially vertical state, the protrusion piece 102b penetrates the protrusion piece through hole 112b, and when the protrusion piece 102b penetrates the protrusion piece through hole 112b and rotates substantially horizontally, the up-down wind direction adjusting blade 100 is hooked in a state where the horizontal connection shaft 102 is connected to the installation member 110, and at this time, any detachment of the up-down wind direction adjusting blade 100 is restricted.

The installation member 110 has a rotation shaft through hole 113 formed at one side thereof.

The rotation shaft through hole 113 is a hole through which the rotation shaft 122 of the airflow direction adjustment motor 124 passes, and is formed at a position spaced apart from the blade installation hole 112.

The setting member 110 includes: a first plate portion 114 that is formed with a blade installation hole 112 and a rotation shaft through hole 113 and guides air discharged from the discharge ports 8, 10; and a second plate portion 115 that is formed by bending the first plate portion 114, and that has a motor accommodating space S between itself and the first plate portion 114, in which the wind direction adjustment motor 124 can be accommodated.

The setting member 110 further includes: a third plate body portion 116 that shields an upper end between the first plate body portion 114 and the second plate body portion 115; and a fourth plate portion 117 covering a lower end between the first plate portion 114 and the second plate portion 115.

In the setting member 110, the second plate portion 115 is closely attached to the back surface of the discharge panel 50, and the first plate portion 114 is bent at an acute angle to the second plate portion 115.

The first plate portions 114 function as air guides that guide the air, which is sent upward after heat exchange in the heat exchanger 80, to the left discharge port 8 or the right discharge port 10, the first plate portions 114 of the left airflow direction adjusting unit 55 are arranged to be inclined substantially to the front left side, and the first plate portions 114 of the right airflow direction adjusting unit 56 are arranged to be inclined substantially to the front right side.

The first plate portion 114 has a motor installation portion 118 on a surface facing the second plate portion 115 of both surfaces thereof, on which an airflow direction adjustment motor 124 is installed.

The second plate portion 115 has an opening 119 formed at a position facing the airflow direction adjustment motor 124. When the airflow direction adjustment motor 124 is provided in the first plate portion 114, the opening portion 119 allows a wire such as an electric wire (not shown) connected to the airflow direction adjustment motor 124 to be inserted therethrough, while avoiding interference between the second plate portion 115 and the attachment/detachment device that performs the attachment operation of the attachment member 125 such as a bolt.

The setting member 110 is coupled to the protrusion 57, and the protrusion 57 covers the motor accommodating space S.

The installation member 110 is formed with coupling bosses 132 which are coupled to the installation member coupling portions 58, 59 formed on both left and right sides of the boss 57 by the coupling member 130.

According to the vertical air conditioner of the present embodiment, the discharge ports 8 and 10 and the installation member 110 are formed long in the vertical direction, and the installation member connection portions 58 and 59 and the connection boss 132 are formed in plural numbers spaced apart from each other in the vertical direction.

The coupling boss 132 protrudes toward the motor housing space S on the first plate portion 114 so that the setting member 110 can be coupled from the boss 57 of the discharge panel 50.

As shown in fig. 5, the installation member 110 is formed with a support rod insertion groove 134 into which the support rod 96 shown in fig. 1 and 2 is inserted and received.

When the setting member 110 is provided on the discharge panel 50, a portion of the support rod 96 is inserted into the support rod insertion groove 134 to be fitted thereto, and the setting member 110 and the support rod 96 are supported to each other to enhance strength.

Next, the operation of the vertical air conditioner configured as described above will be described.

First, when the air conditioner is operated using an operation unit such as a remote controller, the blower 70 is driven, and when the up-down wind direction adjustment mode is input by operating the operation unit such as the remote controller, the wind direction adjustment motor 124 is driven in the input operation mode.

When the blower 70 is driven, the indoor air is sucked into the air conditioning unit 2 through the left and right suction ports 4 and 6, and is sent to the upper side by the blower 60, and heat exchange is performed in the heat exchanger 80.

The air after heat exchange in the heat exchanger 80 is dispersed in the left-right direction, and a part of the air flows toward the left vertical airflow direction adjustment unit 55, and is discharged through the left discharge port 8 while the airflow direction is adjusted by the left vertical airflow direction adjustment unit 55; the remaining part flows toward the right vertical wind direction adjustment unit 56, and is discharged through the right discharge port 10 while the wind direction is adjusted by the right vertical wind direction adjustment unit 56.

In the vertical air conditioner, the air heat-exchanged in the heat exchanger 80 flows to the installation members 110 disposed on the left and right sides in front thereof, and the air flowing to the installation members 110 is guided by the protrusions 57 of the discharge panel 50 and the first plate portions 114, discharged from the left and right discharge ports 8 and 10, and does not flow into the motor housing space S, which is closed by the first, second, third, and fourth plate portions 114, 115, 116, and 117 of the installation members 110 and the protrusions 57 of the discharge panel 50.

The wind direction adjustment motor 124 is configured such that the plurality of vertical wind direction adjustment blades 100 are driven to swing up and down about the horizontal connection shaft 102 in the vertical swing mode; when in the upward discharge mode, the plurality of up-down wind direction adjustment vanes 100 are driven to rotate downward about the horizontal connection shaft 102 and to tilt upward in the front-rear direction; when in the downward discharge mode, the plurality of up-and-down wind direction adjustment vanes 100 are driven to rotate upward about the horizontal connection shaft 102 and to be inclined downward in the front-rear direction.

In addition, the left and right airflow direction adjusting units 55 and 56 are assembled as a single unit during assembly work or maintenance, and the assembly process is simple and easy compared to a case where the plurality of vertical airflow direction adjusting blades 100 are directly assembled to the discharge panel 50 and the airflow direction adjusting motor 124 is directly assembled to the discharge panel 50.

Claims (11)

1. A floor type air conditioner comprising:

a base seat is arranged on the base seat,

a housing disposed on the upper side of the base,

a suction panel which is arranged in front of the lower part of the shell and is provided with a suction inlet,

a discharge panel which is arranged in front of the upper part of the shell, is provided with a left discharge port on the left side and a right discharge port on the right side,

a blower arranged at the lower part of the shell,

a heat exchanger disposed between the discharge panel and the housing,

a left vertical wind direction adjusting unit which is arranged at the left side of the discharge panel and adjusts the vertical wind direction of the air discharged from the left discharge port,

a right vertical air direction adjusting unit provided on a right side of the discharge panel to adjust a vertical air direction of the air discharged from the right discharge port; wherein,

wind direction regulating unit and wind direction regulating unit about the right side include about above-mentioned wind direction regulating unit on the left side:

a plurality of up-and-down wind direction adjusting blades,

a setting member provided on an inner surface of the discharge panel, having a blade installation hole for rotatably connecting the vertical air direction adjustment blade, and a plurality of blade installation holes formed to be spaced apart from each other in a vertical direction, the setting member further having a rotation shaft through hole,

a wind direction adjustment motor having a rotating shaft penetrating the rotating shaft through hole and provided on the installation member;

the above-mentioned setting member includes: a first plate portion in which the blade installation hole and the rotation shaft through hole are formed, and which guides air discharged to the discharge port;

and a second plate body part formed by bending the first plate body part, wherein a motor accommodating space for accommodating the wind direction adjusting motor is arranged between the second plate body part and the first plate body part.

2. The vertical air conditioner according to claim 1, wherein the up-down wind direction adjustment vane has a horizontal connecting shaft rotatably connected to the vane installation hole, and a reinforcing rib is formed to protrude from a surface opposite to the horizontal connecting shaft.

3. The vertical air conditioner according to claim 1, wherein the second plate portion of the installation member is in close contact with the rear surface of the discharge panel, and the first plate portion is bent at an acute angle to the second plate portion.

4. The floor air conditioner according to claim 1, wherein the first plate portion is formed with a motor installation portion in which the airflow direction adjustment motor is installed, and the second plate portion is formed with an opening portion at a position facing the airflow direction adjustment motor.

5. A vertical air conditioner according to claim 1, wherein the setting means further comprises: a third plate body portion that shields an upper end between the first plate body portion and the second plate body portion; and a fourth plate body portion which shields a lower end between the first plate body portion and the second plate body portion.

6. A vertical air conditioner according to claim 1,

a projection formed on the front plate portion of the discharge panel so as to project rearward, and an installation member connection portion formed on each of left and right sides of the projection;

the installation member is formed with a connection boss connected with the installation member connection part through a connection member.

7. A vertical air conditioner according to claim 6,

the setting member has a motor accommodating space for accommodating the wind direction adjusting motor,

the setting component is connected with the bulge so that the bulge covers the motor accommodating space.

8. The vertical air conditioner according to claim 6, wherein the discharge port and the installation member are formed to be long in the vertical direction.

9. The vertical air conditioner according to claim 8, wherein the installation member connection portion and the connection boss are formed in plural numbers spaced apart in a vertical direction.

10. The vertical air conditioner according to claim 1, further comprising a support rod provided on the discharge panel and crossing the discharge port, wherein the installation member is formed with a support rod insertion groove into which the support rod is inserted and received.

11. The vertical air conditioner according to any one of claims 1 to 10, wherein the left side up-down wind direction adjusting unit and the right side up-down wind direction adjusting unit further include:

a drive link connected to the rotary shaft;

and a driven link connected to the driving link and to the plurality of up-down wind direction adjusting blades so as to rotate the plurality of up-down wind direction adjusting blades together.

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