KR20050062006A - Rouvered grill for thru the wall type air conditioner - Google Patents

Abstract

The present invention relates to an integrated air conditioner, in particular to an integrated air conditioner

The louver reel of the integrated air conditioner according to the present invention, the louver reel of the integrated air conditioner, the louver grill of the integrated air conditioner composed of a plurality of inlet pins on one side, a plurality of discharge port pins on the other side The inlet pin and the outlet pin are characterized in that the bending angle of the pin gradually changes as it moves away from the boundary.

In addition, the louver reel of the integrated air conditioner according to the present invention is characterized in that the bending angle of the pin is gradually increased as the distance from the boundary.

In addition, the louver reel of the integrated air conditioner according to the present invention is characterized in that the bending angle of the pin is within a maximum value of 90 °.

The louver reel of the integrated air conditioner according to the present invention is manufactured to gradually increase the bending angle of the pin as it moves away from the boundary, so that the suction angle passes through the inlet and the discharge port, unlike forming a uniform bending angle. By minimizing the resistance formed in the discharge passage, there is an effect of preventing the overall efficiency of the air conditioner from being lowered.

Further, another effect of the louver reel of the integrated air conditioner according to the present invention is that not only the air flow at the intake and the air flow at the discharge in the space near the boundary portion are close to each other, but also the angle of the flow is greatly increased. By being formed to be spaced apart, there is an effect that the air blown to the outside after the heat exchange with the outdoor heat exchanger does not occur back to the inlet through the inlet.

Description

Louvered grill for thru the wall type air conditioner

The present invention relates to an integrated air conditioner, in particular to an integrated air conditioner

The present invention relates to a louver reel for improving performance, wherein the inlet pin and the outlet pin of the attached pin are gradually changed in the bending angle as they move away from the boundary, but the bend angle of the pin is gradually increased in the distance away from the boundary. Unlike the louver reel according to the prior art, which has uniformly formed the bending angle, by minimizing the resistance formed in the suction / discharge flow path passing through the inlet and outlet, the overall efficiency of the air conditioner is prevented from deteriorating In addition, the air flow at the time of intake and the air flow at the time of discharging in the space near the boundary are not close to each other, and the angle of the flow is formed so as to be spaced apart greatly. Air phenomena that the air discharged to the outside is introduced again through the suction port The present invention relates to a louver reel for improving the overall performance of the integrated air conditioner without causing this to occur.

In general, an integrated air conditioner forms a through hole penetrating a wall partitioning an interior space and an outside for air conditioning, and is installed and used in the through hole.

1 is an exploded perspective view showing the main configuration of the integrated air conditioner according to the prior art, Figure 2 is a view showing a state in which the integrated air conditioner is mounted on the wall surface.

Looking at the internal configuration of the integrated air conditioner with reference to these drawings, the base fan 130 forms the bottom of the air conditioner. The front grille 20 is installed at the front surface of the indoor side of the base fan 130, and the front grille 20 forms a front appearance of the air conditioner. It is mounted on the front.

On one side of the front grill 20 is formed an inlet for suctioning the air of the space for air conditioning into the interior of the air conditioner, the other side is formed with a discharge portion for discharging the heat exchanged air from the air conditioner back into the room It is. On the other hand, the suction grill 10 is provided with a suction. And one side of the discharge portion is provided with a control box 120 for manipulating the operation of the air conditioner.

An indoor heat exchanger 30 is installed inside the front grill 20. The indoor heat exchanger (30) is for heat exchange between the air sucked through the suction part of the front grill (20) and the working fluid of the air conditioning cycle, and is more precisely installed in the air guide 40 to be described below. .

Looking at the configuration of the air guide 40 in which the indoor heat exchanger 30 is installed, the air guide 40 has a through-hole through which the air passing through the indoor heat exchanger 30 is guided.

The bottom surface of the air guide 40 is formed with a drainage structure for draining the condensate generated in the indoor heat exchanger 30, the scroll 60 is coupled to the air guide 40 is installed, A flow guide surface is formed on the inner surface of the scroll 60 to guide the air flow formed by the indoor blower fan 80 to be described below.

In addition, a control box 120 having various electrical components for controlling the air conditioner is installed at one side of the discharge part of the front grill 20.

Next, in close contact with the rear surface of the scroll 60, a barrier 70 partitioning the indoor side and the outdoor side of the air conditioner is installed. The barrier 70 partitions the indoor and outdoor sides of the air conditioner so that the indoor and outdoor environments are not affected by each other.

Next, at the rear end of the barrier 70, that is, the outdoor side, the motor mount 90 is mounted on the base fan 130, and the motor 100 is installed. The motor 100 is formed such that its shaft protrudes into the indoor side and the outdoor side, respectively, and one shaft protrudes through the barrier 70 and protrudes into the indoor scroll 60. An indoor blowing fan 80 is installed on the shaft protruding toward the indoor side. The indoor blower fan 80 serves to suck air in the space for air conditioning and to pass the indoor heat exchanger 30 to be discharged back into the room.

The outdoor blowing fan 110 is installed on the outdoor shaft of the motor 100. The outdoor blower fan 110 is configured to suck outdoor air and to exchange heat while passing through the outdoor heat exchanger 170 of the air conditioner. On the other hand, the outdoor side is provided with a shroud 150 for guiding the air flow formed by the outdoor blowing fan 110. The shroud 150 serves to evenly deliver the air sucked from the outside to the outdoor heat exchanger (170). In the center of the shroud 150 is formed a through-hole through which the outdoor blowing fan 110 is installed.

Reference numeral 160 is a shroud cover forming an upper surface of the shroud 150. In addition, the reference numeral 180 is a brace connecting the upper end of the scroll 60 and the shroud cover 160 to solidify the installation state.

In addition, the outdoor heat exchanger 170 is installed on the base fan 130, and is installed at the outermost side of the outdoor side. As such, the outdoor heat exchanger 170 may exchange heat between the air sucked from the outside and the working fluid. To ensure that

In addition, the cabinet 140 is provided to shield various components installed on the base fan 130, the cabinet 140 is installed in combination with the base fan 130, both sides and the top of the air conditioner Shield.

The outdoor side further includes a compressor and an expansion valve (not shown), which are components of an air conditioning cycle.

The integrated air conditioner having such a configuration is used as a space for air conditioning by installing a portion corresponding to the indoor side toward the interior, and installed and used so that the portion corresponding to the outdoor side faces the outdoor side.

That is, the integrated air conditioner of the above-described configuration is inserted into the mounting hole formed in the wall surface, and in this case, a panel called the wall sleeve 190 is installed in the inside of the mounting hole, and the outside air is sucked in the rear side. And it is finished with louver reel 195 to be discharged.

In addition, in order for the integrated air conditioner to be firmly mounted to the wall sleeve 190, various blocking members 210 are used on the back side, and a member such as a trim 220 is used on the front side.

On the other hand, looking at the air conditioner is operated for cooling, when the air conditioner is driven, the air conditioning cycle is operated and the motor 100 to rotate the indoor blowing fan 80 and the outdoor blowing fan 110. Therefore, in the indoor side, air in the space for air conditioning is sucked through the suction part of the front grill 20 and is delivered to the indoor heat exchanger 30.

At this time, the sucked air is heat exchanged with the working fluid while passing through the indoor heat exchanger 30 to a relatively low temperature, the heat exchanged air by the rotation of the indoor blower fan 80 is the air guide 40 After being sucked into the indoor blower fan 80 through the through hole, it is guided along the inside of the scroll 60 and finally discharged to the indoor space for air conditioning through the discharge part of the front grill 20.

On the other hand, the outdoor side is an operation for discharging the heat received by the working fluid from the indoor heat exchanger (30) to the outside. That is, the outside air is sucked into the outdoor side of the air conditioner by the outdoor blower fan 110, is guided by the shroud 150, and passes through the outdoor heat exchanger 170 to exchange heat with a working fluid to the outside. It will release heat.

Here, look again at the intake and discharge state of the air in the outdoor side as follows.

3 is a view showing the outside air suction and discharge state in the outdoor side according to the prior art.

Referring to FIG. 3, the outdoor air at the outdoor side is sucked into the suction region (the remaining region except the outdoor heat exchanger region) in the louver reel 195, which is sucked by the rotation of the outdoor blower fan 110. The outside air is changed through the shroud 15 while the flow path is changed, and the intake air whose flow path is changed is supplied to the outdoor heat exchanger 170 to exchange heat with the outdoor heat exchanger 170. In addition, the external air that has undergone heat exchange with the outdoor heat exchanger 170 is forcibly discharged to the discharge area (the area close to the outdoor heat exchanger) in the louver reel 195.

4 is a view schematically illustrating a cross section of an integrated air conditioner in which an exterior and a grill of a louver reel according to the related art are disposed.

Referring to FIG. 4, a grill is disposed on the rear surface of the integrated air conditioner to smoothly flow the external air from the outside, and generally takes the form of a louver reel 195 having an inlet and an outlet.

Looking at this in detail, the louver reel 195 is a plate shape is formed by bending a plurality of pins in one direction by a punching process in order to smoothly guide the flow of external air on one side. .

Thus, among the fins that are close to the outdoor heat exchanger 170, the outside air that has undergone heat exchange with the outdoor heat exchanger 170 is guided to be discharged to the outside, and the external air is sucked in from the outside through the other fins. Done.

In addition, the inlet and the discharge port have a boundary portion 195a having different bending angles of the fins. The fins of the boundary portion 195a are bent toward the discharge portion, and the bending angles of the fins are the same. It consists of four pins.

FIG. 5 is a view illustrating a phenomenon in which some of the discharged air is blown in a process of inhaling and discharging external air through the louver reel in FIG. 4.

Referring to FIG. 5, the fins in the boundary portion 195a, which is a predetermined region of the louver reel 195, are formed such that their bending direction is directed toward the discharge portion, which is discharged to the outside after heat exchange with suction air introduced from the outside. This is to prevent interference between the discharged air.

However, if the above-described boundary is formed indefinitely wide so as not to interfere with each other between the discharged air discharged to the outside after heat exchange with the suction air introduced from the outside, through the suction port from the outside to the outdoor side of the air conditioner Although it is possible to prevent the interference generated between the discharged air discharged to the outside of the air conditioner through the discharge port after heat exchange with the intake air flow, the flow path of the discharged air discharged to the outside becomes narrow. Since the flow resistance is sharply increased, it is bound to limit it to a certain width or less.

However, in the case of a louver reel having a boundary portion formed by narrowly narrowing the width, the discharged air that has undergone heat exchange with the outdoor heat exchanger 170 is discharged into a space in which part of the discharge air near the boundary portion is in close contact with the inlet port. After being flowed, the phenomenon of being swept by the flow of air flowing into the intake port and flowing into the intake port again occurs.

In this way, a part of the discharged air discharged to the outside is sucked back into the outdoor part of the integrated air conditioner, thereby causing a problem that the overall performance of the integrated air conditioner is significantly reduced. In addition, when the total capacity of the air conditioner is increased to solve the above problem, the power consumption of the integrated air conditioner is rapidly increased.

The present invention has been made in view of such a problem, and the air conditioning according to the prior art to form a bending angle of the pin uniformly by making the bending angle of the pin formed on the louver reel gradually increases as the distance away from the boundary Unlike the air conditioner, by minimizing the resistance formed in the inlet / outlet flow paths of the inlet and outlet, the overall efficiency of the air conditioner is prevented from deteriorating, and the air discharged to the outside after heat exchange with the outdoor heat exchanger It is an object of the present invention to provide an integrated air conditioner to prevent the occurrence of the backflow phenomenon flowing through.

In the louver reel of the integrated air conditioner according to the present invention, in the louver grill of the integrated air conditioner composed of a plurality of inlet pins on one side and a plurality of outlet pins on the other side, the inlet pin and the outlet pin are As the distance from the boundary portion, the bending angle of the pin is gradually changed (linear).

In addition, the louver reel of the integrated air conditioner according to the present invention is characterized in that the bending angle of the pin is gradually increased (linearly) as it moves away from the boundary.

In addition, the louver reel of the integrated air conditioner according to the present invention is characterized in that the bending angle of the pin is within a maximum value of 90 °.

The louver reel of the integrated air conditioner according to the present invention is manufactured such that the bend angle of the pin is gradually increased as the distance from the boundary increases, thereby making the bending angle uniformly smaller. Unlike, by minimizing the resistance formed in the suction / discharge flow path passing through the suction port and the discharge port, there is an effect to prevent the overall efficiency of the air conditioner is lowered.

Further, another effect of the louver reel of the integrated air conditioner according to the present invention is that not only the air flow at the intake and the air flow at the discharge in the space near the boundary portion are close to each other, but also the angle of the flow is greatly increased. Since it is formed to be spaced apart, there is an effect that a part of the outside air discharged to the vicinity of the boundary portion of the air discharged to the outside after the heat exchange with the outdoor heat exchanger does not occur back to the inlet through the suction port occurs. .

 Referring to the preferred embodiment of the integrated air conditioner according to the invention based on the accompanying drawings as follows.

However, the spirit of the present invention is not limited only to the embodiments to which the present invention is presented, and other embodiments included in the scope of the present invention and other degenerate inventions can be easily added by adding, changing, or deleting other elements. I can suggest.

The louver reel of the integrated air conditioner according to the present invention includes a plurality of pins formed by punching in a plate shape, and the bending angle of the pins gradually increases as the distance from the boundary between the inlet port 202 and the outlet port 201 is increased. It is a structure to be increased.

6 is a view schematically showing a cross section of an integrated air conditioner in which an exterior and a grill of a louver reel according to the present invention are disposed.

Referring to Figure 6, the rear of the integrated air conditioner to arrange the louver reel 200 according to the present invention in order to smooth the flow of external air from the outdoor side.

Looking in detail, the louver reel 200 according to the present invention is formed in a plate shape is formed by bending a plurality of pins in one direction by a punching process in order to smoothly guide the flow of external air on one side. In the louver grill of the integrated air conditioner composed of a plurality of inlet pins [f₁⒜ ~ ⒩] on one side and a plurality of outlet pins [f₂⒜ ~ ⒩] on the other side, the inlet pins and the outlets The pin has a shape such that the bending angle of the pin increases gradually (linearly) as it moves away from the boundary.

In addition, the fins close to the outdoor heat exchanger 170, that is, the discharge hole fins [f 2 ⒜ ˜ ⒩], are guided by external air that has undergone heat exchange with the outdoor heat exchanger 170 to be discharged to the outside. In other words, the outside air is sucked in from the outside through the pins, that is, the inlet pins f₁⒜ to ⒩, and the boundary between the inlet port and the discharge port has no fin formed therein.

Here, when the bending angles of the fins proximate to the boundary portion and the fins disposed away from the boundary portion are compared with each other, the bending angles of the fins [f₁⒜, f₂⒜] proximate to the boundary portion are determined from the fins disposed far from the boundary portion [ f₁⒩, f₂⒩] are smaller than the bending angle.

Then, the bending angle gradually increases (linearly) from the fins [f₁⒜, f₂⒜] close to the boundary part to the fins [f₁⒩, f₂⒩] disposed far from the boundary part. . In addition, when considering the flow of external air through the pin, the bending angle does not exceed 90 degrees at the maximum.

FIG. 7 is a view illustrating a state in which external air flows without blowing back to the suction port in the process of drawing and discharging the external air through the louver reel in FIG. 6.

Referring to FIG. 7, the flow of the external air through the louver reel having a fin processed to gradually increase the bending angle as described above is described. In the fin [f₁⒜, f₂⒜] close to the boundary, As the bending angle increases progressively (linearly) to the fins [f₁⒩, f₂⒩] arranged far from the boundary, via the fins [f₁⒜, f₂⒜] close to the boundary part. The angle of the flow of the external air flowing gradually increases the angle of the flow of the external air until it flows through the fins [f₁⒩, f₂⒩] disposed far from the boundary.

Accordingly, the integrated air conditioner to which louver reel is applied according to the present invention has a direction in which the intake air and the discharged air flow in the vicinity of the boundary are more than the flow of air via louver reel according to the prior art. By being spaced apart, this essentially eliminates the element of the wind.

The louver reel of the integrated air conditioner according to the present invention is manufactured to gradually increase the bending angle of the pin as it moves away from the boundary, so that the suction angle passes through the inlet and the discharge port, unlike forming a uniform bending angle. By minimizing the overall resistance by gradually changing the resistance formed in the discharge passage, there is an effect of preventing the overall efficiency of the air conditioner from being lowered.

Further, another effect of the louver reel of the integrated air conditioner according to the present invention is that not only the air flow at the intake and the air flow at the discharge in the space near the boundary portion are close to each other, but also the angle of the flow is greatly increased. By being formed to be spaced apart, there is an effect that the air blown to the outside after the heat exchange with the outdoor heat exchanger does not occur back to the inlet through the inlet.

1 is an exploded perspective view showing the main configuration of the integrated air conditioner according to the prior art.

2 is a view showing a state where the integrated air conditioner is mounted on the wall surface.

3 is a view showing the outside air suction and discharge state in the outdoor side according to the prior art.

4 is a view schematically showing a cross section of an integrated air conditioner in which an exterior and a grill of a louver reel according to the prior art are disposed;

FIG. 5 is a view illustrating a phenomenon in which a part of the discharged air is blown in a process in which external air is sucked and discharged through the louver reel in FIG. 4.

Figure 6 schematically shows the cross section of the integrated air conditioner with the appearance and grill of the louver reel according to the present invention.

FIG. 7 is a view illustrating a state in which external air flows without blowing back to the suction port in the process of drawing and discharging the external air through the louver reel in FIG. 6.

Explanation of symbols on the main parts of the drawings

200: louver reel 201: discharge port 202: suction port

f₁⒜ ~ ⒩: inlet pin f₂⒜ ~ ⒩: outlet pin

Claims (4)

In the louver grill of the integrated air conditioner composed of a plurality of inlet pins on one side and a plurality of outlet pins on the other side, The intake pin and the outlet pin of the louver reel of the integrated air conditioner, characterized in that the bending angle of the pin gradually changes as the distance away from the boundary. The method of claim 1, Louver reel of the integrated air conditioner, characterized in that the bending angle of the fin, the value increases as the distance away from the boundary. The method of claim 1, Louver reel of the integrated air conditioner, the bending angle of the pin, the maximum value is within 90 °. The method of claim 1, The boundary part has a width of a predetermined size, the louver reel of the integrated air conditioner, characterized in that the inlet pin or the discharge port pin is not formed.