KR20060022424A - Structure of discharge grille for split type air conditioner - Google Patents

Abstract

The present invention relates to a discharge grill structure of a split type air conditioner in which a link flowing by a driving force of a link motor is bent and installed forward and backward so as to be coupled on the same plane with a support connecting a plurality of louvers.

The discharge grill structure of the separate type air conditioner according to the present invention includes a vane 204 for adjusting the air discharged to the indoor space up and down; A plurality of louvers 206 provided at one side of the vane 204 to adjust left and right air discharged to an indoor space; A support 207 provided at one side of the louver 206 to connect a plurality of louvers 206; A link 230 coupled to one end of the support 207 and a link motor mounted at the other end to move the louver 206 from side to side; It is provided on one side of the link (230), and comprises a fixing member (240) for fixing the link motor; The link 230 is bent forward and rearward so that the support 207 and the link motor is connected on the same plane, and the fixing member 240 is inserted and fixed to one end of the link 230. A groove 232 is formed. Such a configuration has the advantage of extending the life of the link for transmitting power to the louver and minimizing the loss between the transmissions of the force.

Air Conditioner, Indoor Unit, Discharge Grill, Vane, Louver, Link

Description

Structure of discharge grille for split type air conditioner

1 is an exploded perspective view showing the internal configuration of a separate air conditioner indoor unit according to the prior art.

Figure 2 is a perspective view showing a state in which the louver is installed on the discharge grill which is one component of the indoor unit of the separate type air conditioner according to the prior art.

Figure 3 is a perspective view showing the external configuration of a detachable air conditioner indoor unit employing a preferred embodiment of the present invention.

Figure 4 is an exploded perspective view showing the configuration of a detachable air conditioner indoor unit employing a preferred embodiment of the present invention.

5 is a perspective view of a discharge grill of a detachable air conditioner indoor unit employing a preferred embodiment of the present invention.

Figure 6 is a partial perspective view showing a state in which the louver is installed on the discharge grill of the indoor unit of a separate air conditioner employing a preferred embodiment of the present invention.

Figure 7 is a perspective view of a link mounted to the discharge grill of the indoor unit of a separate air conditioner employing a preferred embodiment of the present invention.

Explanation of symbols on the main parts of the drawings                 

100. Indoor unit 110. Main chassis

112. Fixing bracket 114. Fan fixing end

120.Front Frame 122,202. Outlet

124. Display Window 130. Front Panel

140. Suction grill 150. Suction port

152. Center separator 160. Filter frame

170. High Performance Filter 180. Pre Filter

190. Heat exchanger 192. Cross flow fan

194. Fan Motor 200. Discharge Grill

204.Bane 206. Louver

207. Supports 208. Secondary vanes

209. Fixed Stage 210. Display

220.Drain pan 230.Link

232. Retaining grooves 234. Link guide

240. Fastening member 242. Motor inlet

The present invention relates to an air conditioner, and more particularly, a link of a split type air conditioner, which is bent and installed forward and rearward to be coupled on the same plane with a support for connecting a plurality of louvers, which is flowed by a driving force of a link motor. It relates to a discharge grill structure.

In general, the air conditioner is a device for maintaining the indoor air in the most optimal state according to the purpose. For example, when the room becomes hot, such as in summer, the room is cooled by blowing low temperature wind, and in winter, the room is heated by blowing high temperature warm wind.

Such air conditioners are classified into one type and a separate type. The integrated air conditioner is composed of one unit as a whole, and the separate air conditioner is divided into an indoor unit installed in the space for air conditioning and an outdoor unit installed in the outdoor space. In particular, in recent years, a separate type air conditioner is widely used in consideration of noise and the installation environment of the air conditioner.

1 is an exploded perspective view showing the internal structure of a separate air conditioner indoor unit according to the prior art, and FIG. Is shown.

As shown, the main chassis 1 forms the frame of the indoor unit. The front frame 3 is mounted on the front surface of the main chassis 1 to form an exterior of the indoor unit. And the main chassis 1 to which the front frame 3 is mounted is mounted on the wall of the room.

Between the main chassis 1 and the front frame 3 is formed a space for mounting a plurality of components to be described later.

On the other hand, the exterior of the indoor unit formed by the main chassis 1 and the front frame 3 is formed to protrude toward the front as shown in the figure as a whole.

The front of the front frame 3 is provided with a suction panel 7 formed with a front suction grille 5 to form a front appearance of the indoor unit. And a hinge portion (not shown) is provided at the upper end of the suction panel 7 to allow the suction panel 7 to rotate.

The front suction grille 5 is a passage through which the air sucked in the space for air conditioning is sucked into the indoor unit, and is integrally formed with the suction panel 7. In addition, an upper surface suction grille 3 'is formed on the upper surface of the front frame 3 to the left and right, and the upper surface suction grille 3' is formed integrally with the front frame 3 or is provided separately. .

The heat exchanger 9 is installed at the rear of the front frame 3. The heat exchanger (9) is such that the air sucked through the front suction grill (5) and the top suction grill (3 ') to pass through the heat exchange. In addition, the front of the heat exchanger (9) as described above is provided with a filter (9 ') for purifying the air sucked.

A cross flow fan 10 is installed at the rear of the heat exchanger 7. The crossflow fan 10 sucks air in the space for air conditioning and again discharges air into the space for air conditioning. The right side of the cross flow fan 10 is provided with a fan motor 10 ′ providing a rotational power to the cross flow fan 10, the configuration for guiding the air flow formed by the cross flow fan 10 is the main chassis It is further formed integrally with the inside of (1).

On the other hand, the air heat-exchanged while passing through the heat exchanger (9) is discharged to the space for air conditioning by the crossflow fan 10, for this purpose, the lower end of the main chassis (1) and the front frame (3) The discharge grill 11 is installed.

The discharge passage 11 (not shown) is formed inside the discharge grill 11 to guide the air passing through the crossflow fan 10 to the space for air conditioning.

The vane 15 for adjusting the direction of the discharged air up and down and the louver 16 for adjusting left and right are installed in the discharge passage. The louvers 16 are provided in plural, and the plurality of louvers 16 are connected by the support 18 and coupled with the link 17 on which the motor M is mounted to operate simultaneously.

The support 18 is elongated so that the louvers 16 are connected in a straight line on the same plane, and a fixed end 18 'is formed below the support 18 to fix the support 18.

The link 17 is coupled to the motor M at one end and the support 18 connecting the louver 16 at the other end thereof, so that the louver 16 is left and right by the rotational force of the motor M. It is bent and formed a number of times to flow. That is, as shown in Figure 2 extends from the side end coupled to the louver 16 is bent forward and extends again bent downwards, and is further bent forward and extended and the other end is extended to the motor ( Combined with M).

In addition, a display 19 for displaying an operating state of the air conditioner is provided at approximately the center of the lower end of the front frame 3.

Looking at the basis of the air conditioner of the prior art having such a configuration is operated in the cooling mode as follows.                         

Air for air conditioning is sucked into the indoor unit by the crossflow fan 11 in which the air conditioner is driven. That is, air is sucked into the indoor unit through the front suction grill 5 and the top suction grill 3 ', and passes through the heat exchanger 9.

As described above, the air passing through the heat exchanger 9 exchanges heat with a working fluid (refrigerant) flowing through the heat exchanger 9.

The air heat-exchanged in the heat exchanger 9 becomes air of a relatively low temperature and is sucked into the cross flow fan 10. The air sucked into the cross flow fan 10 is discharged downward and guided to the discharge port 13 side.

The air guided into the discharge port 13 is controlled by the vane 15 and the louver 16 installed in the discharge port 13 to control the air through the discharge grill 13. It is discharged into the space. At this time, since the vanes 15 and the louvers 16 are discharged vertically and left and right by driving, the vanes 15 and the louvers 16 are evenly discharged into the space for air conditioning.

In order to fix the heat exchanger 9, a fixing bracket 8 is provided on the left side of the main chassis 1 and a fixed end 8 ′ corresponding to the screw fastening end 9a of the heat exchanger 9 on the right side. ). In addition, a screw fastening hole 8 "must be formed in the fixed end 8 '.

An insertion groove 8a into which the left end of the heat exchanger 9 is inserted is formed at the front side and the upper side of the fixing bracket 8, and the left hairpin of the heat exchanger 9 is inserted into the insertion groove 8a. 9c) has a plurality of locking projections (8b) protruding to be fixed.

In addition, a screw through hole 9b corresponding to the screw fastening hole 8 ″ is formed in the screw fastening end 9a of the heat exchanger 9.

As the heat exchanger 9 is fixed in the above state, the fixing bracket 8 is fixed to the left side of the main chassis 1 by using the screw S. At this time, the insertion groove 8a of the fixing bracket 8 is opened toward the right side.

When the hairpin 9c of the heat exchanger 9 is inserted into the insertion groove 8a of the fixing bracket 8, the hairpin 9c is fixed to the locking protrusion 8b inside the insertion groove 8a. In this case, the left end of the heat exchanger 9 is fixed first.

Thereafter, the right side of the heat exchanger 9, more specifically, the screw fastening end 9a is brought into close contact with the fixed end 8 'of the main chassis 1, and then the screw through hole 9b and the screw fastening hole 8 When the screw (S) is fastened to the "), the heat exchanger 9 is fixed to the main chassis 1.

However, in the conventional indoor air conditioner indoor unit as described above, the motor 18 providing left and right flow force to the support 18 and the louver 16 connected to the support 18 are connected to the louver 16 to be operated simultaneously. The link 17, which is mounted and transmits force, is bent a number of times and coupled to the louver 16.

Accordingly, the link 17 is bent forwards, backwards, and up and down a number of times, resulting in a loss in force transmission in transmitting power of the motor M to the louver 16 due to the elevation difference of the link 17. There are a lot of problems that occur.

In addition, the moment of the force for transmitting the power of the motor (M) is concentrated in the 'A' portion of the link 17 has a problem that the 'A' portion is broken.

An object of the present invention for solving the problems as described above, the separated air conditioner is bent and formed to be installed in the front and rear to be coupled on the same plane with the support for connecting a plurality of louvers, the link flowing by the power of the link motor. It is to provide a discharge grill structure of.

Discharge grill structure of the separate type air conditioner according to the present invention for achieving the above object, the vane for controlling the air discharged to the indoor space up and down; A plurality of louvers provided at one side of the vane to adjust left and right air discharged to an indoor space; A support provided on one side of the louver to connect a plurality of louvers; A link coupled to one end of the support, the other end of which is provided with a link motor for moving the louver from side to side; It is provided on one side of the link, characterized in that it comprises a fixing member for fixing the link motor.

The link is formed to be bent forward / backward so that the support and the link motor is connected on the same plane.

One end of the link is characterized in that the fixing groove is formed is fixed to the fixing member is inserted.

And, one side of the louver is characterized in that the drain pan for collecting the condensate generated in the heat exchanger for heat exchange air is formed.                     

According to the discharge grill structure of the separate air conditioner having such a configuration, there is an advantage that the life of the link for transmitting power to the louver can be extended and the loss between the forces can be minimized.

Hereinafter, a preferred embodiment of the split type air conditioner discharge grill structure according to the present invention as described above will be described in detail with reference to the accompanying drawings.

3 is a perspective view showing an external configuration of an indoor unit of a separate air conditioner employing a preferred embodiment of the present invention. As shown in the drawing, the indoor unit 100 of the air conditioner forms a front frame and forms a rear exterior, and is provided in front of the main chassis 110 to form a front exterior. The overall appearance is configured by the front frame 120.

In addition, the front of the front frame 120 is shielded by the front panel 130, the suction grill 140 is formed on the upper side of the front panel 130, that is, the upper surface of the front frame 120. The front panel 130 is preferably installed spaced apart from the front frame 120 by a predetermined distance. Therefore, outside air flows in through the gap between the front panel 130 and the front frame 120. On the other hand, the front panel 130 may be installed to be able to rotate a predetermined angle forward to the lower end shaft.

The discharge hole 122 is formed at the lower end of the front frame 120. Therefore, the air introduced into the indoor unit 100 through the discharge port 122 is discharged to the outside (indoor space) again. In addition, the discharge grill 122 is provided inside the discharge port 122 to be described below.                     

The display window 124 is formed above the right end of the discharge port 122. The display window 124 is configured to be transparent so that the user can see the operating state of the indoor unit 100 displayed on the display 210 of the discharge grill 200 to be described below from the outside.

4 is an exploded perspective view showing the configuration of a separate air conditioner indoor unit employing a preferred embodiment of the present invention, and looks at the configuration of the indoor unit 100 of the separate air conditioner with reference to these drawings.

First, as described above, the indoor unit 100 has an overall appearance formed by the main chassis 110 and the front frame 120, and the main chassis 110 is mounted on the wall of the room.

Between the main chassis 110 and the front frame 120 is formed a space for mounting a plurality of components to be described below. The exterior of the indoor unit formed by the main chassis 110 and the front frame 120 is formed to protrude toward the front as shown in the drawing.

The left end of the main chassis 110 is provided with a fixing bracket 112 is fixed to the left end of the heat exchanger 190 and the cross flow fan 192 to be described below, the heat exchanger 190 and the cross flow at the right end The fixed end 114 to which the right end of the fan 192 is fixed is formed to protrude forward.

A suction port 150 is formed in front of the front frame 120. The inlet 150 is a passage through which air is introduced from the outside of the indoor unit 100, and the filter frame 160 is formed to the left and right. The filter frame 160 is formed in pairs on the left and right as a part on which the high performance filter 170 to be described below is mounted. That is, a central separator 152 that traverses up and down is formed in the central portion of the suction port 150, and filter frames 160 are formed on left and right sides of the central separator 152, respectively.

The filter frame 160 is equipped with a high performance filter 170. The high performance filter 170 is configured to have a single or various functions. For example, the ammonia deodorization filter 172 which deodorizes cigarette smoke and various odors as shown, or the formaldehyde deodorization filter 174 which removes harmful components generated from building materials, and the odor of volatile organic matters. Toluene deodorization filter 176 is composed.

The suction grill 140 is a passage through which the air sucked in the space for air conditioning is sucked into the indoor unit 100, and the suction grill 140 has an upper half of the suction port 150 of the filter frame 160. It is installed to wrap. In addition, the suction grill 140 is mounted to the front frame 120 in a state of being integrally coupled with the pre-filter 180 to be described below.

A prefilter 180 is further installed between the front panel 130 and the front frame 120. The prefilter 180 serves to filter foreign matter in the air, and is installed to surround the suction port 150 as a whole. That is, the prefilter 180 is configured to have elasticity and is installed to cover an area extending from the front of the front frame 120 to the upper end of the rear.

The heat exchanger 190 is installed at the rear of the front frame 120. The heat exchanger 190 is such that the air sucked through the suction grill 140 is heat-exchanged, it is preferable that a plurality of bent to correspond to the inlet port 150 of the front frame 120.

The rear flow fan 192 is installed at the rear of the heat exchanger 190. The crossflow fan 192 serves to suck air in the space for air conditioning, and to discharge the air to the space for air conditioning again. That is, the cross flow fan 192 as described above forces the flow of air so that the air from the outside (indoor space) is introduced through the suction port 150 and discharged through the discharge port 122.

The right side of the cross flow fan 192 is provided with a fan motor 194 for providing a rotational power to the cross flow fan 192, the front surface of the main chassis 110 is the air flow formed by the cross flow fan 10 In order to facilitate guiding, the curvature may have a curvature corresponding to the outer circumferential surface of the crossflow fan 192.

The discharge grill 200 is provided inside the lower end of the front frame 120. The discharge grill 200 is formed with a discharge port 202 for guiding the air heat-exchanged in the indoor unit 100 to be discharged again to the outside (indoor space).

The discharge grill 200 is provided with a vane 204 for adjusting the direction of air discharged through the discharge port 202 up and down, and a louver 206 for adjusting left and right. The louver 206 is provided with a plurality of such a plurality of louvers 206 are connected to the support 207 is operated simultaneously by the link 230 to be described below.

Meanwhile, a vane motor 204 ′ that controls rotation of the vane 204 is further installed inside the vane 204, and air is discharged along with the vane 204 at the right end of the discharge grill 200. An auxiliary vane 208 for controlling the direction is further provided.

In addition, Figure 5 is a perspective view of the discharge grill of the indoor unit of the separate air conditioner employing a preferred embodiment of the present invention, as shown in the front right end of the discharge grill 200 is provided with a display 210 . The display 210 is a part for visually displaying various information about the operation state of the air conditioner. Therefore, the information displayed on the display 210 is projected to the front of the indoor unit 100 to be recognized by the user.

That is, since the display 210 is located at the rear of the display window 124 of the front frame 120, the user displays the display 210 on the display 210 from the front of the indoor unit 100 through the display window 124. It will be able to recognize a variety of information.

6 is a partial perspective view showing the louver installed in the discharge grill of the indoor air conditioner of the split type air conditioner employing a preferred embodiment of the present invention, Figure 7 is a separate air conditioner indoor unit of the preferred embodiment of the present invention A perspective view of a link mounted to the discharge grill is shown.

As shown in these figures, a plurality of louvers 206 for guiding by controlling the direction of the discharged air to the left and right inside the discharge grill 200 is connected by a support 207 is installed. The support 207 is elongated so that the louver 206 is connected in a straight line on the same plane, a fixed end 209 for fixing the support 207 is formed below the support 207.                     

The support 207 is coupled to a link 230 for transmitting power of a link motor (not shown) which is a step motor. The link 230 is coupled to the link motor at one end and is coupled on the same plane with the support 207 connecting the louver 206 at the other end so that the louver 206 flows from side to side by the rotational force of the link motor. It is bent forward and backward so as to be formed.

In addition, the link 230 is formed to be wider than the surface of the portion extending so that the bent portion is coupled to the link motor. This is to allow the life of the link 230 to be extended at the same time without transmitting the force transmitted so that the plurality of louvers 206 connected to the support 207 can flow left and right by the rotational force of the link motor. For sake.

A link guide 234 is formed at the lower side of the link 230 to guide the link 230 to easily flow from side to side, and at the right end of the link 230, the link motor to be described below is fixed. A fixing groove 232 to which the fixing member 240 is inserted and fixed is formed.

Although not shown in the fixing groove 232, the lower end of the fixing member 240 is inserted into the fixing member coupler for facilitating the left and right flow of the link 230 as the link motor rotates in a straight or cross shape. Is formed. In addition, the fixing groove 232 is provided with a fixing member 240 for fixing the link motor is coupled.

One side of the link motor is inserted into the fixing member 240, and a motor insertion hole 242 is further formed to facilitate rotation. Meanwhile, a drain pan 220 is formed below the louver 206 to collect condensate generated by the heat exchanger 190.

It looks at the operating state of the indoor unit of the separate type air conditioner employing the discharge grill structure having such a configuration.

First, the air conditioner will be described based on operating in a cooling mode.

When the air conditioner is driven, air for air conditioning is sucked into the indoor unit by the crossflow fan 192. That is, when the fan motor 194 is operated to generate rotational power by the power applied from the outside, the crossflow fan 192 is rotated by the rotational power. When the cross flow fan 192 rotates, a suction force is generated and air from the outside (the space for air conditioning) is introduced into the indoor unit 100 through the suction grill 140.

Outside air introduced into the indoor unit 100 passes through the heat exchanger 190. As described above, the air passing through the heat exchanger 190 is cooled by heat exchange with a working fluid (refrigerant) flowing through the heat exchanger 190.

The air heat-exchanged in the heat exchanger 190 becomes air of a relatively low temperature and is sucked into the cross flow fan 192. The low temperature air sucked into the cross flow fan 192 is discharged in the circumferential direction of the cross flow fan 192 and then guided downward.

The air guided downward passes through the discharge port 202 of the discharge grill 200, and the discharge direction is controlled by the vane 204 and the louver 206 installed inside the discharge port 202. It is discharged into the space for air conditioning.

Here, the louver 206 is guided by adjusting the direction of the air discharged from the left and right by flowing the link 230 left and right due to the rotational force of the link motor. That is, the linker 230 receives the rotational force of the link motor and the louver 206 is operated by flowing the support 207 connected to the plurality of louvers 206 in a straight line from side to side.

The scope of the present invention is not limited to the above-exemplified embodiments, and many other modifications based on the present invention will be possible to those skilled in the art within the above technical scope.

As described in detail above, in the discharge grill structure of the split type air conditioner according to the present invention, the link flowing left and right by the driving force of the link motor is bent forward and backward so as to be coupled on the same plane with the support connecting the plurality of louvers. It is configured to be installed.

Therefore, since the support connecting the louver to the link receiving the link motor force is arranged on the same plane, it is possible to minimize the loss of force transmitted to the left and right flow of the louver, and to ensure a smoother left and right flow of the louver. The effect is expected.

In addition, by forming the surface of the portion where the link is bent before and after the wider than the surface of the portion that is not bent, it is expected that the effect of extending the life of the link to transfer the left and right flow force of the louver from the link motor.

Claims (4)

Vanes for adjusting the air discharged to the indoor space up and down; A plurality of louvers provided at one side of the vane to adjust left and right air discharged to an indoor space; A support provided on one side of the louver to connect a plurality of louvers; A link coupled to one end of the support, the other end of which is provided with a link motor for moving the louver from side to side; Is provided on one side of the link, the discharge grill structure of the separate type air conditioner, characterized in that it comprises a fixing member for fixing the link motor. The discharge grill structure of a separate air conditioner according to claim 1, wherein the link is bent forward or backward so that the support and the link motor are connected on the same plane. The discharge grill structure of a separate air conditioner according to claim 1 or 2, wherein a fixing groove is formed at one end of the link to insert and fix the fixing member. The discharge grill structure of a separate air conditioner according to claim 1, wherein a drain pan is formed at one side of the louver to collect condensate generated from a heat exchanger for exchanging air.

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