KR20000011356U - Wind direction controller of air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner, by improving the structure of the wind direction control device for discharging the heat exchanged air so that the direction of the discharge wind is always maintained when the direction of the discharge wind is adjusted according to the needs of the user so that accurate wind direction control is possible. will be.

To this end, the present invention selects and adjusts the discharge direction of the air discharged from the air discharged in the main body 1, which is installed in the indoor discharge port 2b and the air discharged installed in the indoor discharge port 2b. Vanes 110, through-holes 111 formed on the upper and lower surfaces of the vanes, louvers 120 for selecting and adjusting the discharge direction of air discharged and installed in the vanes; In the air conditioner formed on the upper and lower surfaces of the louver and provided with the protrusions 121 inserted into the respective through holes 111 of the vanes 110, around the respective through holes 111 formed in the vanes. A locking part is provided, and each of the protrusions formed on the louver is provided with a coupling part, so that when the louver 120 is rotated left and right according to a user's needs, the coupling part of the louver maintains a predetermined angle at the locking part of the vane 110. While selectively picking up Provided is a wind direction control device for an air conditioner.

Description

Wind direction controller of air conditioner

The present invention relates to a window type air conditioner, and more particularly, to a wind direction control device for controlling the upper, lower, left and right wind direction of the discharged heat exchanged through the air conditioner.

In general, an air conditioner is a device having a cooling function of cooling a hot room in summer by cold air and a heating function of heating a cold room in winter by hot air. It is divided into several types.

The window type air conditioner of each type of air conditioner will be described in detail as follows.

The window type air conditioner is an integrated air conditioner in which the indoor side and the outdoor side are divided and integrated with each other. The overall structure of the window type air conditioner is shown at the front of the main body 1 as shown in FIG. A front panel 2 having a discharge port 2b is mounted, and a suction grill 3 is mounted at an indoor suction port 2a of the front panel, and sucked between the suction grill and the front panel 2. An air filter 3a for purifying indoor air is mounted.

In addition, a wind direction control device 10 is mounted on the indoor discharge port 2b of the front panel to control the wind direction of the air discharged into the room, and a control to control the operation of the air conditioner below the indoor discharge port. The box 4 is provided.

On the other hand, an indoor heat exchanger 5 is installed at the rear side of the front panel 2 in the main body 1 so as to heat exchange the indoor air, and a heat exchanger passes through the heat exchanger at the rear side of the indoor heat exchanger 5 in the main body. An air guide 6 is provided for guiding the flow of the air to the interior discharge port 2b of the front panel 2, and the inside of the air guide sucks in the indoor air and stores the intake air therein. A blower 7a is rotatably mounted so as to be discharged to the furnace.

At this time, one side surface of the air guide is formed with a condensate flow path (6a) for draining the condensate accumulated in the indoor side to the outdoor side.

In addition, the blower 7a is axially coupled to the motor 7 for generating a driving force. At this time, the motor is provided with a shaft installed on both sides so as to simultaneously transmit the driving force to both sides.

An outdoor blower fan 7b is axially coupled to the other motor shaft of the motor 7 axially coupled to the blower, and the outside suction port 1a is provided at the outside of the blower fan while protecting the blower fan. A fan shroud 8 is installed to guide the outside air sucked through, and an outdoor heat exchanger 5b is installed at the rear side of the blower fan to heat exchange the outside air sucked through the outdoor suction port 1a. It is.

On the other hand, the lower end of the main body 1 is provided with a base plate 9 for supporting each component, one side of the base plate flows into the refrigerant inside the heat exchanger (5a) on the inside side by flowing the refrigerant A compressor 9a for compressing the refrigerant to a high temperature and a high pressure is provided, and an outdoor side through which the heat-exchanged air is discharged to the outside at the rear side of the outdoor heat exchanger 5b, which is the rear surface of the main body, is passed through the outdoor heat exchanger. The discharge port 1b is formed.

At this time, the window type air conditioner is divided into an indoor side formed on the front side of the main body 1 and an outdoor side formed on the rear side of the main body 1 on the basis of the motor 7.

The operation of the window type air conditioner configured as described above is as follows.

First, when the user selects the cooling operation mode (not shown) formed in the control box 4 while power is supplied to the air conditioner, a driving force is generated in the motor 7 installed in the main body 1. The same driving force rotates the blower 7a on the indoor side and the blowing fan 7b on the outdoor side.

Accordingly, the blower 7a which is rotated inhales the hot air of the room to the indoor side through the indoor suction port 2a formed in the front panel 2 by the rotational force, and the hot air of the sucked indoors is the front surface. In the process of passing through the indoor side heat exchanger 5a in which cold refrigerant flows, which is installed at the rear of the panel, heat exchange with the cold refrigerant occurs to cool.

As a result, the cold air heat exchanged as described above is guided to the indoor discharge port 2b while flowing in the air guide 6 according to the rotational force of the blower 7a which is continuously rotated, and installed in the indoor discharge port (b). 10) is discharged into the room in a state where the discharge direction is controlled.

In addition, condensate is generated on the surface of the indoor heat exchanger when hot air in the room passing through the indoor heat exchanger is exchanged with cold refrigerant flowing in the indoor heat exchanger 5a. By the flow down to the lower portion of the indoor side heat exchanger (5a) is accumulated in the air guide (6), and the accumulated condensate flows along the condensate flow path (6a) of the air guide is drained from the indoor side to the outdoor side.

In addition, the refrigerant that is heated inside the heat exchanger 5a and heat exchanged with the hot air in the room is introduced into the compressor 9a installed in the outdoor side, and then compressed into high-temperature, high-pressure refrigerant in the compressor. Furnace is introduced into the outdoor heat exchanger (5b).

At this time, the blower fan 7b which is axially coupled to the other side of the motor 7 to receive the driving force of the motor is also rotated by the driving of the motor 7 to generate suction force, so the outdoor side suction port 1a The outside air is sucked into the outdoor side through the outside, and the sucked outside air is introduced into the outdoor heat exchanger 5b through the compressor 9a as described above in the process of passing through the outdoor side heat exchanger 5b. Heat exchange is performed with the refrigerant.

In addition, the outside air is continuously discharged to the outside of the window type air conditioner through the outdoor discharge port 1b while the temperature is raised by the heat exchange as described above.

Here, the condensate drained from the indoor side to the outdoor side along the condensate flow path 6a formed in the air guide 6 is scattered to the outdoor heat exchanger 5b by the rotational force of the blowing fan 7b, so that the condensate is outdoors. It is understood that the heat exchanger evaporates in the side heat exchanger.

On the other hand, it will be described in more detail with respect to the wind direction control device 10 for adjusting the wind direction of the air heat exchanged by the indoor heat exchanger (5a) of the respective components of the air conditioner to perform the respective functions as described above to cool the room Is as follows.

First, the wind direction control device 10 is mounted to the indoor discharge port (2b) to adjust the vertical direction of the air discharged into the room (hereinafter referred to as "vane 11"), and discharged to the room The vertical guide vanes (hereinafter referred to as "louver 12") for adjusting the horizontal direction of the air is made by coupling with each other.

In the vanes 11, a plurality of horizontal blades 11a are mounted at regular intervals so that the vanes 11 can be rotated up and down, and through holes 11b are formed on the upper and lower surfaces of the vanes, respectively.

At this time, the cutting hole (11c) is formed on the rear side of the through hole to be cut through to the upper end of the vane, lower surface rear side, such a cutting hole (11c) at the rear end of the vane From the through hole (11b) toward the side gradually formed so that the gap is narrowed to the diameter of the point where the through hole and the incision hole ( d ₁ Is the diameter of the through hole 11b. d ₂ Is less than).

On the other hand, the louver 12 is formed so as to maintain a constant spacing so that a plurality of vertical wings 12a can be inserted between each of the horizontal wings 11a of the vanes, and the upper and lower surfaces of the louvers have vanes ( Each of the protrusions 12b is formed to be inserted into the through hole 11b of the 11).

Coupling of the vane 11 and the louver 12 configured in this way, first, the through hole 11b is formed in the louver in a state where the protrusion 12b of the louver 12 is located in the cutout hole 11c of the vane. Insert it to the side.

At this time, the cutting hole is gradually formed narrower toward the through hole (11b) side as the protrusion 12b of the louver through the through hole (even if not accurately positioned in the center portion of the first cutting hole (11c) It is understood that it can be correctly inserted and seated in 11b).

In addition, the protrusion 12b of the louver is eventually caught by the protrusion as the interval between the point where the through hole 11b of the vane 11 and the cutting hole 11c meet each other is narrower than the diameter of the protrusion, but the user is slightly When the insertion force is added, the gap between the cutting hole 11c and the through hole 11b of the vane is partially opened, so the protrusion 12b of the louver 12 opens the cutting hole 11c of the vane 11. It can be accurately seated in the through hole (11b), which is possible because the overall material of the vane is made of plastic.

As such, the protrusion 12b of the louver 12 seated in the through hole 11b of the vane 11 is prevented from being removed unless the user applies a constant force to the rear side (incision hole side) to remove the louver. It is understandable.

In this case, as the through hole 11b of the vane is formed to be equal to or slightly smaller than the diameter of the protrusion 12b constituting the louver 12, the louver inserted into the through hole 11b of the vane as described above. The protrusion 12b is subjected to a constant frictional force with respect to its rotation, and when the louver 12 is rotated to the left or right of a certain part according to the user's needs, the louver is desired by the frictional force with the vane 11. It is fixed in the rotated direction.

On the other hand, the wind direction control device 10 made as described above is mounted on the interior discharge port (2b), the engaging structure is formed on each side of the vane 11, the engaging grooves 11d are formed, respectively, the front panel ( As the engaging projections 2c corresponding to the engaging grooves 11d of the vanes are formed in the indoor discharge port 2b forming part of 2), the engaging projections 2c are inserted into the engaging grooves 11d. As described above, the indoor outlet 2b and the wind direction control device 10 may be combined.

The wind direction control device configured as described above is to adjust the wind direction discharged by the operation described later, this will be described.

First, when the user wants the discharge direction of the air discharged through the indoor heat exchanger 5a inside the air conditioner to be discharged through the indoor discharge port 2b to the left or the right side, the user can handle the handle of the louver 12. It is good to hold the part 12c and to rotate the said louver to the left or the right.

At this time, the handle portion 12c of the louver is more protruded to the outside than the other vertical wings of each of the vertical wings 12a constituting the louver can be easily adjusted the direction of the louver.

On the other hand, when the user wants to direct the discharge direction of the air discharged through the indoor discharge port 2b to the upper side or the lower side as described above, the user has to place each horizontal wing 11a constituting the vane 11 on the upper side. Alternatively, the ejection direction can be adjusted by rotating to the lower side.

However, according to the conventional form of the wind direction control device, the structure for allowing the louver to maintain the discharge direction set by the user consists only of the structure using the friction force generated between the through hole of the vane and the protrusion of the louver. The same problem has arisen.

First, as the air conditioner is used for a long time, friction between the protrusion formed in the louver and the through hole formed in the vane is gradually reduced, so that even if the direction of the louver is adjusted according to the user's selection, This causes the louver to rotate in an undesired direction, causing user dissatisfaction.

Second, due to abrasion between the protrusion formed in the louver and the through hole formed in the vane, the louver may receive silent output of the discharged wind discharged and eventually perform quiet operation due to noise generated due to vibration. There was a problem that could not be.

Third, in order to prevent the above-mentioned problems, it is necessary to replace each component of the wind direction control device from time to time, so that the cost of maintaining the product is increased, resulting in a problem of losing consumer confidence.

The present invention has been made to solve the conventional problems as described above, to improve the structure of the wind direction control device for discharging the heat-exchanged air so as to maintain the state at all times when the direction of the discharge wind is adjusted according to the user's needs Its purpose is to.

According to an aspect of the present invention for achieving the above object to adjust the discharge direction of the indoor side discharge port is discharged to the room and the discharge direction of the air discharged installed in the indoor side discharge port in the main body up and down A vane, a through hole formed on the upper and lower surfaces of the vane, a louver for selecting and controlling the discharge direction of air discharged and installed in the vane, and a vane formed on the upper and lower surfaces of the louver, respectively. An air conditioner having a protrusion inserted into each through hole of the air conditioner, the hook having a periphery around each through hole formed in the vane, and an end of the protrusion formed in the louver having a coupling part to provide a louver according to a user's needs. When the left and right pivots, the coupling portion of the louver is selectively caught while maintaining a certain angle to the engaging portion of the vane A wind direction control device for the air conditioner is provided.

1 is an exploded perspective view showing a conventional general window type air conditioner

2 is an enlarged view illustrating an enlarged portion “A” of FIG. 1;

Figure 3 is an exploded perspective view showing a wind direction control device of the window type air conditioner according to the present invention

Figure 4 is a side view of the louver constituting the wind direction control device according to the present invention

Figure 5 is a partially enlarged cross-sectional view of the wind direction control apparatus according to the present invention

Explanation of symbols for main parts of the drawings

110.Vane 111.Through Hole

112. Hanging jaw 113. Incision

114. Guide groove 115. Locking groove

120. Louver 121.

122. Stoppers 123. Turning

124. Slope

Hereinafter, with reference to the accompanying Figures 3 to 5 showing the configuration of the present invention as an embodiment in more detail as follows.

Figure 3 is an exploded perspective view showing the wind direction control device of the window type air conditioner according to the present invention, Figure 4 is a side view of the louver constituting the wind direction control device according to the present invention, Figure 5 is a wind direction control device according to the present invention As a partially enlarged cross-sectional view of the present invention, the present invention includes a catching portion around each of the through holes 111 that are upper and lower surfaces of the vanes 110 constituting the wind direction control device.

At this time, the engaging portion is formed in a continuous shape along the circumferential direction of the mountain and the valley forming the overall quadrangular shape, such a shape is a plurality of engaging jaw 112 having a rectangular shape (or any other shape) It can be made by having a predetermined interval along the circumferential direction in the outer portion of the through-hole 111 of the vane.

In addition, the front side of the through-hole 111 configured as described above, that is, the side opposite to the direction formed by the cutting hole 113, the guide groove 114 is formed in the same direction as the direction of the cutting hole.

On the other hand, the end of each protrusion 121 of the louver 120 is provided with a coupling portion to be coupled to the engaging portion of the vane, such a coupling portion of the disc to prevent the louver is removed to the upper, lower side of the vane 110 Selective insertion between the stopper 122 of the type and each engaging jaw and the engaging jaw (hereinafter referred to as "locking groove 115") that protrudes into the inner surface of each stopper and constitutes the engaging portion of the vane 110. This is made of a possible projection 123.

At this time, the protrusions may be formed on the side of the louver constituting the louver in the direction in which the vertical wings 12a are directed to the protrusions 121 constituting the louver, as described above. Or it is most preferable to form in the disk-shaped stopper as described above in order to make the effect more excellent.

In addition, the stopper 122 constituting the louver is formed on the stopper when the inclined surface 124 is inclined downward from the inner side to the outer peripheral portion of the louver to rotate the louver 120 as required by the user. The upper and lower elastic force is applied to the protrusion 123 to allow the protrusion to smoothly move along each of the engaging jaw 112 of the vane 110.

The combination of the present invention wind direction control device configured as described above is made as follows.

First, the operator places the protrusion 121 of the louver 120 at the cutout 113 of the vane 110 and then moves the louver to the vane 110 side.

Accordingly, the protrusion 121 of the louver 120 is seated into the through hole 111 through the incision hole. At this time, when the height of the louver is not accurately positioned, the protrusion 123 constituting the coupling part of the louver. ) Is caught by the through hole 111 front side of the vane 110 may not be smoothly coupled, but the guide groove 114 for guiding the insertion of the protrusion is formed in the front side of the through hole 111 of the vane is formed As a result, the vane and the louver can be combined smoothly.

In this way, the vane 110 and the louver 120 is coupled to the wind direction control device is mounted to the indoor outlet (2b) forming part constituting the air conditioner, which has been described in the prior art so as to omit the description. do.

Hereinafter, the wind direction control according to the operation of the vane 110 of the operation method of the wind direction control device according to the present invention is the same as the conventional description thereof will be omitted, and only more detailed description of the wind direction control according to the operation of the louver 120. Is as follows.

In the process of cooling the indoor air by applying power to the air conditioner according to the needs of the user, the indoor air heat-exchanged in the air conditioner is discharged into the room through an indoor outlet 2b constituting the air conditioner. In the same state, when the user wants the direction of the discharge wind to be left or right, the user may grab the handle 12c of the louver and rotate left or right.

At this time, the coupling portion formed on the upper and lower surfaces of the louver is rotated together to the left or the right according to the rotation of the louver as described above, when such a rotation is made of the protrusion 123 formed on the stopper 122 of the coupling portion In the state of being caught in the guide groove 114 of the vane 110 by the rotation of the louver 115 as described above rides over each of the locking jaw to be seated in the locking groove 115 of the user desired side.

As shown in FIG. 5, the protrusion 123 constituting the coupling part may cross each of the locking jaws 112, and the height h of each of the locking jaws is relatively low (generally 1 to 2 mm). In addition, the outer portion of the stopper is relatively thinner than its central portion, and thus may have elasticity. As a result, the outer portion of the stopper is elastic as described above when the protrusion crosses each engaging jaw 112. It is possible to be bent by a predetermined portion to the upper (or lower) side as shown by the dotted line of FIG.

In addition, the louver 120 and the vane 110 as described above is generally made of a plastic material, it can be understood that the upper and lower elasticity of the stopper as described above can be made more smoothly.

As described above, the louver 120 rotated in a predetermined direction is not rotated to the other side until the protrusion 123 constituting the coupling part is caught in the locking groove 115 and another operation by the user is performed. Will not.

In addition, at this time, each of the locking jaw is generally formed in a rectangular shape, which is because the vanes 110 and the louver 120 are made of plastic, as described above, so the locking jaws of vanes due to frequent use ( 112) and the protrusions 123 of the louver are worn to compensate for this because the seamless coupling may not be made in the end, and the shape does not have to be particularly limited.

On the other hand, the state in which the rotation of the louver 120 as described above is a state in which the protrusion 121 of the louver is fitted into the through hole 111 of the vane 110 to be in close contact with the inner surface of the through hole. Accordingly, it can be understood that the friction force of the protrusion 121 and the through hole 111 can be used together as in the related art, thereby enabling more stable direction adjustment.

As described above, the present invention improves the structure of the wind direction control device constituting the window type air conditioner, so that the rotation direction of the louver constituting the wind direction control device can be fixed to a desired side during the use of the air conditioner. The phenomenon in which the rotation direction of the louver is changed by the discharge wind is prevented.

In addition, the rotation direction of the louver as described above can be adjusted by varying step by step of the locking step of the vane, there is an effect that the user can select the discharge wind direction conveniently.

Claims (6)

Indoor vanes for discharging air heat-exchanged in the main body to the room, vanes for selecting and adjusting the discharge direction of the air discharged and installed in the indoor discharge port, and formed on the upper and lower surfaces of the vanes, respectively. Air having a through hole, a louver installed in the vane to control the discharge direction of the air discharged from left and right, and a protrusion formed on the upper and lower surfaces of the louver and inserted into each through hole of the vane, respectively. In the conditioner, A locking portion is provided around each of the through holes formed in the vanes, The end portion of the protrusion formed on the louver is provided with a coupling part so that when the louver is rotated left and right according to the user's needs, the coupling part of the louver is selectively caught while maintaining a certain angle on the engaging portion of the vane. Wind direction control device of the conditioner. The method of claim 1, The catching portions provided on the upper and lower surfaces of the vanes are hills and valleys formed radially along the circumferential direction. The method of claim 2, The mountain and the valley constituting the engaging portion of the vane is formed to form a rectangular shape as a whole, so that the coupling portion of the louver can be caught more stably the air conditioner of the air conditioner. The method according to claim 1 or 2, A stopper for forming a louver and forming a plate in its entirety to prevent the louver from being removed to the upper or lower side of the vane; Protruding on the inner surface of the stopper, the wind direction control device of the air conditioner, characterized in that made of a projection capable of selectively locking to each bone constituting the locking portion of the vane. The method according to claim 1 or 4, A guide groove is formed at the front side of each through hole formed in the vane, so that the protrusions constituting the louver are guided to the guide groove of the vane to smoothly engage the louver when the louver is coupled to the vane. Wind direction control device. The method of claim 4, wherein To make the selective operation of the louver smoothly by forming an inclined surface inclined downward from the inner side to the outer peripheral part of the stopper constituting the louver so as to have elasticity as the thickness of the stopper becomes thinner gradually. Wind direction control device, characterized in that the air conditioner.