KR100461643B1 - Assemblying structure of outeriot parts for casement window type airconditioner - Google Patents

Abstract

The present invention relates to a structure for assembling outdoor components of a window type air conditioner having a height higher than a left and right width. At the rear end of the cabinet 55 constituting the appearance of the air conditioner, the outdoor heat exchanger 160 is installed to be exposed to the outside. The outdoor heat exchanger 160 is supported on the base fan 50 and the channels 164 at both ends are fastened to the side walls 145 of the shroud 140, respectively. An outdoor side fan 150 is installed at the center of the through-hole 141 of the shroud 140. In order to maximize the diameter of the outdoor side fan 150, an escape portion is formed at one side of the side wall 145 of the shroud 140. 147 is formed. The escape portion 147 is formed to protrude from the side wall 145. An inlet of the escape portion 147 is provided with a sealing piece 148 to facilitate assembly of the outdoor side fan 150 and to prevent leakage of air through the portion. The sealing piece 148 is integrally formed with the escape portion 147 so as to be rotatable. A channel step 165 for fastening with the side wall 145 of the shroud 140 is formed in the channel 164 of the outdoor heat exchanger 160. The channel step 165 is provided with a structure for fastening with the shroud 140.

Description

Assembly structure of outeriot parts for casement window type airconditioner

The present invention relates to a window type air conditioner, and more particularly, to an outdoor component assembly structure of an air conditioner, the height of which is relatively larger than the left and right widths when viewed from the front.

The window type air conditioner is to be installed and used in the window frame in one piece in which all components are provided in one casing. Such a window type air conditioner may be divided into types depending on the type of window to be installed. For example, a window type air conditioner used for a casement window is formed to have a height greater than the left and right widths when viewed from the front. Thus, the configuration of the window type air conditioner mainly used for the casement window is shown in FIG.

According to FIG. 1, in the prior art, the base fan 1 forms the bottom surface of the air conditioner, and the cabinet 3 cooperates with the base fan 1 to form an exterior to form a space where components are installed therein. Form. The cabinet 3 is formed relatively higher in height than the left and right width thereof. The cabinet 3 forms an upper surface and both side surfaces of the air conditioner, so that the space formed by the base fan 1 and the cabinet 3 is open at the front and the rear. Reference numeral 4 is a passage through which the outdoor air is sucked to the outdoor side of the air conditioner by the suction louver.

The front panel 5 is installed on the front surface of the cabinet 3 to form the exterior of the air conditioner. The front panel 5 is provided with a suction part 5i through which air in a space for air conditioning is sucked into the internal space. A control unit through hole 5c is formed at an upper end of the suction unit 5i, and a discharge through hole 5e through which air heat-exchanged inside the air conditioner is discharged into a space for air conditioning is disposed above the front panel 5. Is formed. Reference numeral 7 denotes a filter for purifying air passing through the suction part 5i.

The barrier 8 divides the internal space formed inside the cabinet 3 into the indoor side and the outdoor side. The barrier 8 has its lower end seated on the base pan 1 and its upper end touches the ceiling of the cabinet 3. The barrier 8 has a 'c' shape when both ends thereof are bent toward the front panel 5 and viewed in plan view. The barrier 8 is provided with an insulation plate 9 for insulation between the indoor side and the outdoor side.

An indoor side fan 10 is installed in a space formed by the barrier 8. A sirocco fan is used as the indoor fan 10, and the indoor fan 10 provides a driving force for air flow in the indoor side. On the other hand, the indoor heat exchanger 11 is installed behind the filter (7). The indoor heat exchanger 11 performs heat exchange between the working fluid and the air. An orifice 13 is installed at the front end of the barrier 8 corresponding to the rear of the indoor heat exchanger 11. The orifice 13 is perforated with an orifice hole 15 for guiding the air passing through the indoor heat exchanger 11 to the indoor side fan 10.

Next, the discharge guide 17 is installed in the upper portion of the space formed by the barrier (8). The discharge guide 17 has a discharge passage 18 in communication with a space formed between the barrier 8 and the air guide 13. The discharge passage 18 and the discharge through hole 5e are connected by a connection duct 19.

On the other hand, the control unit 20 is provided between the lower portion of the connection duct 19 and the upper end of the indoor heat exchanger (11). The control unit 20 includes various parts for controlling the air conditioner. A control panel 21 is provided at the front of the control unit 20, and the control panel 21 is located in the control unit through hole 5c formed in the front panel 5. Reference numeral 22 denotes an operation lever. A discharge louver 25 is installed in the discharge through hole 5e communicating with the discharge flow path 18. The discharge louvers 25 serve to control the direction of the air discharged through the discharge through holes 5e.

On the outdoor side partitioned by the barrier 8, a motor 27 for driving the indoor side fan 10 and driving the outdoor side fan 29 is installed. The motor 27 is provided with a rotation shaft in both directions to simultaneously drive the indoor fan 10 and the outdoor fan (29).

The outdoor heat exchanger 30 is installed in the outdoor space of the air conditioner to be exposed to the rear of the cabinet 3, and the outdoor heat exchanger 30 is surrounded by the shroud 28 and the cabinet 5. . A through hole 28 ′ is formed in the shroud 28 to guide air sucked through the suction louver 4 of the cabinet 3 to the outdoor heat exchanger 30. At this time, the outdoor side fan 29 serves to guide the outdoor heat exchanger 30 by sucking outdoor air. Reference numeral 31 is a compressor bracket on which a compressor is mounted.

In the related art having the above configuration, when the motor 27 is driven, the indoor side fan 10 and the outdoor side fan 29 are rotated, and the air and the outdoor air of the space for air conditioning are respectively sucked into the air conditioner. To make it flow.

In the indoor side, the air sucked in the room is transferred to the indoor fan 10 through the suction unit 5i, the indoor heat exchanger 8, and the orifice hole 15 by driving the indoor fan 10, and indoors. The air discharged from the side fan 10 passes through the discharge guide 17, the connection duct 19, and the discharge through hole 5e and is discharged into a space for air conditioning. At this time, in the indoor heat exchanger (8), the air becomes a relatively low temperature in the cooling operation by heat exchange between the air and the working fluid.

On the outdoor side, outdoor air is sucked into the inside through the intake louver 4 by the driving of the outdoor side fan 29, and is heat exchanged while passing through the outdoor heat exchanger 30 through the through hole 28 ′ to the outside. Discharged.

However, the prior art as described above has the following problems.

In the prior art, the diameter of the outdoor side fan 29 is determined by the left and right widths of the shroud 28. That is, the diameter of the outdoor fan 29 should be smaller than the left and right widths of the shroud 28. However, in this case, since the airflow formed by the outdoor side fan 29 is not transmitted to the left and right widths of the outdoor heat exchanger 30, there is a problem that the heat exchange efficiency is relatively low.

In order to solve the above problems, when the left and right widths of the outdoor heat exchanger 30 are made larger, there are more portions where substantially no heat exchange occurs along the upper and lower ends of the outdoor heat exchanger 30. Only the material cost of (30) enters a lot, and the left and right width of the air conditioner becomes larger.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, and to maximize the heat exchange capacity of the outdoor heat exchanger in an air conditioner having a height higher than the left and right widths.

Another object of the present invention is to maximize the left and right width of the outdoor fan in the air conditioner configured to be higher than the left and right width.

Still another object of the present invention is to prevent air leakage between the shroud and the outdoor heat exchanger in an air conditioner having a height higher than the left and right widths.

1 is an exploded perspective view showing the configuration of a window type air conditioner according to the prior art.

Figure 2 is an exploded perspective view showing the internal structure of the window type air conditioner with a preferred embodiment of the outdoor side assembly structure according to the present invention.

Figure 3 is an exploded perspective view showing the configuration of the shroud and the outdoor heat exchanger constituting an embodiment of the present invention.

Figure 4 is an assembled state showing that the outdoor heat exchanger and the shroud is fastened in the embodiment of the present invention.

Figure 5 is an exploded perspective view showing that one channel and the shroud of the outdoor heat exchanger is fastened in the embodiment of the present invention.

Figure 6 is a cross-sectional view showing a configuration in which the escape portion and the sealing piece constituting an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

50: base fan 55: cabinet

57: suction louver 60: front panel

62: suction part 64: discharge part hole

66: control unit through 70: air guide

71: side wall 72: flow space

76: support rib 80: indoor heat exchanger

90: orifice 92: eurofence

100: turbo fan 110: discharge guide

111: discharge passage 113: partition plate

119: discharge louver 120: control unit

122: control panel 124: control box

140: shroud 141: through hole

143: upper fastening part 143 ': lower fastening part

145: side wall 147: hide

150: outdoor fan 155: brace

160: outdoor heat exchanger 164: channel

According to a feature of the present invention for achieving the object as described above, the present invention is a window type air conditioner in which the height is formed relatively higher than the left and right width of the cabinet constituting the appearance, the air sucked to the outside from the outside of the cabinet And a shroud having a cover formed on the at least one side wall to be recessed toward the inner surface of the cabinet, and installed at the center of the through-hole formed through the shroud, and one side of the slinger ring is formed on the cover of the shroud. The outdoor fan is located in the rear end of the cabinet, and the heat exchanged between the air delivered by the outdoor fan and the working fluid of the heat exchange cycle, and the channel step provided in the channel forming both ends of the shroud It is configured to include an outdoor heat exchanger fastened to the side wall.

A sealing piece is provided at the tip of the covering part by a relatively thin connecting neck to shield the inlet of the covering part, and the sealing piece is provided with a pair of fitting protrusions respectively fitted to the covering part.

The sealing piece is provided with a handle part, in order to prevent interference between the handle part and the channel step of the outdoor heat exchanger, an interference avoiding part is formed at a corresponding position of the channel step.

A mounting step is formed on one side wall of the shroud, and a part of the channel step of the outdoor heat exchanger seated inside the side wall of the shroud is seated on the mounting step, and a plurality of fastening ribs are formed on the other side wall of the shroud. It is fastened to the channel step.

According to the present invention having such a configuration, in the window type air conditioner having a height higher than the left and right widths, the heat exchange efficiency is increased by increasing the heat exchange area relatively while minimizing the left and right widths of the outdoor heat exchanger, and between the outdoor heat exchanger and the shroud. There is an advantage that air leakage is minimized.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the outdoor side assembly structure of the window type air conditioner according to the present invention will be described in detail.

According to the drawings, the base fan 50 forms the bottom surface of the air conditioner. Various components are installed on the base fan 50. The base fan 50 has a narrow left and right widths and a relatively long front and rear widths when viewed from the front of the air conditioner.

Cabinet 55 is installed to be fastened to both ends of the base fan 50. The cabinet 55 constitutes the outer appearance of both sides and the upper surface of the air conditioner, and the front, rear and bottom are opened and form a space on the base fan 50. The cabinet 55 is formed relatively higher in height than the left and right width thereof. On both sides of the rear end and the upper surface of the cabinet 55, suction louvers 57 are formed to suck outdoor air to the outdoor side of the air conditioner.

The front panel 60 is installed on the front surface of the cabinet 55. The front panel 60 forms a front appearance of the air conditioner and shields the front surface of the cabinet 55. The suction part 62 is formed from the middle to the lower portion of the front panel 60. The suction part 62 is a passage through which air in a space for air conditioning is sucked into the air conditioner. A discharge part through hole 64 is formed at the upper end of the suction part 62 so that the heat exchanged air from the indoor side of the air conditioner is discharged back into the space for air conditioning. Reference numeral 66 denotes a control unit hole.

The inner space formed by the base fan 50 and the cabinet 55 is partitioned into an indoor side and an outdoor side by an air guide 70. The air guide 70 serves to guide the air flow of the indoor side is seated on the base fan 50. The air guide 70 is composed of a base 70 'which is seated on an upper surface of the base fan 50 and a side wall 71 which is formed upright on the base 70'. The side wall 71 forms a flow space 72 that forms both side surfaces and a rear surface of the air guide 70 and is opened forward (in the direction toward the front panel 60). The height of the side wall 71 is formed to be relatively lower than the height of the cabinet 55. Reference numeral 73 'is a fastening portion for fastening the brace 155, 75 is a drainage portion, and 76 is a support rib.

An indoor heat exchanger 80 is installed at the drain 75 of the air guide 70. The indoor heat exchanger (80) is installed at the rear of the front panel (60), and its size is formed to correspond to the suction part (62). The indoor heat exchanger 80 is a portion in which the working fluid flowing therein and the air sucked in the space for air conditioning exchange heat.

An orifice 90 is installed between the indoor heat exchanger 80 and the flow space 72 of the air guide 70, and more specifically, at a portion corresponding to the front end of the side wall 71. The orifice 90 has an orifice 91 which guides the air passing through the indoor heat exchanger 80 to the turbofan 100 installed in the flow space 72 at the center thereof. At both ends of the orifice 90, a flow path fence 92 is formed to be coupled to the side wall 71 of the air guide 70 and form a flow path at both ends of the indoor heat exchanger 80.

The turbo fan 100 is installed in the flow space 72. The turbo fan 100 is to provide a driving force for the flow of air in the room, suction the air in the space for air conditioning, passing through the indoor heat exchanger 80 and the orifice hole 91 and discharge described below Through the guide 110 to be delivered back to the space for air conditioning.

The discharge guide 110 is installed on the upper end of the air guide 70. The discharge guide 110 serves to guide the air discharged from the turbo fan 100 into the flow space 72 to the space for air conditioning through the discharge hole 64 of the front panel 60. . The discharge guide 111 is formed in the discharge guide to communicate with the flow space 72 and to open toward the front of the front panel 60. A partition plate 113 is formed at the rear end of the discharge guide 110 to be upright. The partition plate 113 is formed to extend from the rear end of the discharge guide 110, the height is designed so that the upper end is in contact with the ceiling of the cabinet (55). The partition plate 113 serves to partition the indoor side and the outdoor side together with the sidewall 71 of the air guide 70. An upper end portion 114 for fastening the brace 155 to be described below is formed on the rear surface of the partition plate 113.

The control unit 120 is installed above the discharge guide 110. The control unit 120 is located in the space between the upper surface of the discharge guide 110 and the ceiling of the cabinet 55, and largely comprises a control panel 122 and a control box 124. Reference numeral 123 denotes an operation lever.

The driving motor 130 is mounted on the rear surface of the side wall 71 of the air guide 70. The driving motor 130 is provided with rotation shafts 132 and 133 at both ends thereof, and one rotation shaft 132 penetrates the side wall 71 of the air guide 70 and protrudes into the flow space 72. The turbo fan 100 is installed in the. The other rotation shaft 133 is formed to be relatively long and extends to the inside of the shroud 140 to be described below.

The compressor 135 is installed in a space formed between the rear of the air guide 70 and the shroud 140 to be described below. The compressor 135 compresses the working fluid passing through the indoor heat exchanger 80 and delivers the compressed working fluid to the outdoor heat exchanger 160.

The shroud 140 is installed in the outdoor side of the space formed by the base fan 50 and the cabinet 55. The shroud 140 is designed so that its lower end is seated on the base pan 50, and its upper end touches the ceiling of the cabinet 55. Therefore, the shroud 140 is formed relatively higher than the left and right width.

The shroud 140 is formed with a through-hole 141 so that the rotation shaft 133 of the drive motor 130 is in the center. The through hole 141 is a passage through which the air sucked from the outside through the suction louver 57 of the cabinet 55 is sucked into the shroud 140. An outdoor side fan 150 is installed inside the shroud 140 corresponding to the center of the through hole 141. The outdoor fan 150 is installed at the tip of the rotation shaft 133. A slinger ring 151 for splashing the condensate surrounding the outer circumference of the outdoor fan 150 to the outdoor heat exchanger 160 is provided.

A support 142 is formed on the top of the shroud 140 in contact with the ceiling of the cabinet 55. The shroud 140 has a lower fastening portion 143 'formed at a position corresponding to the lower fastening portion 73' of the air guide 70, and an upper fastening portion 114 of the discharge guide 110. The upper fastening portion 143 is formed at a position corresponding to the upper end portion 143. Such fastening parts 143 and 143 'are for fastening the brace 155.

The one side wall 145 forming the side surface of the shroud 140, the escape portion 147 is formed to avoid interference with the outdoor side fan 150. The escaping part 147 is formed to protrude relatively outwardly than the side wall 145 to form a space inside the shroud 140, and the shroud 140 corresponding to the distance between the side walls 145. In order to be able to use the outdoor side fan 150 that is larger than the width of both ends of the). Such an escape portion 147 is formed to be open toward the rear of the cabinet 55.

In addition, a sealing piece 148 is provided at the tip of the escape portion 147. The sealing piece 148 is rotatably connected to the escape portion 147. The front end of the sealing piece 148 and the escape portion 147 is connected through a relatively thin connecting neck 148 ′, as shown in FIG. 6. The connecting neck 148 'is made by forming a relatively thin portion in the mold operation. On one side of the upper and lower ends of the sealing piece 148, fitting protrusions 148c for fastening to the escape portion 147 are formed in pairs, respectively. The fitting protrusion 148c is such that one side of the escape portion 147 is sandwiched therebetween, and an open portion of the escape portion 147 with the outdoor fan 150 installed inside the shroud 140. Will be sealed. Reference numeral 148h denotes a handle for operating the sealing piece 148.

A mounting step 149 is formed at the top and bottom of the side wall 145 to be relatively recessed, and a mounting protrusion 149 ′ for fastening the outdoor heat exchanger 160 is formed at the mounting step 149. The fastening protrusion 149 'has an upward inclination toward the front end from the rear end of the side wall 145 and the tip end thereof is formed in a vertical plane.

Meanwhile, as illustrated in FIG. 5, a plurality of fastening ribs 146 for fastening with the channel 164 of the outdoor heat exchanger 160 are provided on the opposite sidewall 145 on which the escape portion 147 is formed. Is formed.

The outdoor heat exchanger 160 is installed inside the shroud 140. The outdoor heat exchanger 160 is exposed to the rear of the air conditioner through the open rear of the cabinet 55. Of course, in order to minimize the access from the outside to the outdoor heat exchanger (160) it may be installed to configure the wire in a grid shape.

The outdoor heat exchanger 160 is such that the air sucked to the outdoor side by the outdoor fan 150 is guided by the shroud 140 to pass through the working fluid. The outdoor heat exchanger 160 is bent a number of times to form a heat dissipation fin 162 and both ends that are fitted to the pipe 161 and the outer peripheral surface of the pipe 161 is formed to be alternately moved left and right to increase the contact area with air Channel 164. The channel 164 forms both ends of the outdoor heat exchanger 160 and has a configuration for fastening to the shroud 140. The outdoor heat exchanger 160 is formed to be relatively high in height than the left and right width.

Channel steps 165 are formed in the channel 164 toward the shroud 140, respectively. The channel step 165 is bent orthogonally to the channel 164 in the outward direction of the outdoor heat exchanger 16 at one end of the channel 164 and bent orthogonal to the shroud 140 again. At this time, the surface of the channel step 165 bent in the direction of the shroud 140 should not protrude more than the end of the pipe 161 installed through the channel 164. This is a structure necessary for the manufacturing process of the outdoor heat exchanger (160).

An interference avoiding part 166 is formed at the one channel step 165. The interference avoiding part 166 is for avoiding interference with the handle part 148h of the sealing piece 148. In addition, a fastening hole 167 is drilled in a portion corresponding to the seating step 149 of the channel step 165. The fastening hole 167 has a shape corresponding to the shape of the fastening protrusion 149 ', and is configured as a quadrangle in this embodiment.

Meanwhile, as shown in FIG. 5, a fastening hole 164 ′ is provided in the channel step 165 of the channel 164 provided on the opposite side of the channel step 165 in which the interference avoiding part 166 is formed. It is formed to correspond to the fastening rib 146.

Hereinafter, the operation of the outdoor component assembly structure of the window type air conditioner according to the present invention having the configuration as described above will be described.

In the present invention will be described that the outdoor heat exchanger 150 is mounted on the shroud 140. First, the shroud 140 is seated on the base fan 50 in a state where the driving motor 130 is mounted on the air guide 70. At this time, the rotation shaft 133 of the drive motor 130 is located at the center of the through-hole 141 of the shroud 140.

In this state, the outdoor fan 150 is installed inside the shroud 140. That is, the outdoor side fan 150 is inserted into the shroud 140 in a state where the sealing piece 148 is not coupled to the escape portion 147. In this case, one side of the slinger ring 151 of the outdoor fan 150 is located as the escape part 147.

Next, the sealing piece 148 is coupled to the hide portion 147. That is, the sealing piece 148 is rotated about the connecting neck 148 ′ so that the upper and lower sides of the inlet side of the skin 147 are fitted between the pair of fitting protrusions 148c. This state is shown in b of FIG. 4.

In addition, the channel 164 of the outdoor heat exchanger 160 is fastened to the side wall 145 of the shroud 140. To this end, the outdoor heat exchanger 160 is inserted into the shroud 140.

At this time, the channel step 165 is inserted into the side wall 145 of the shroud 140 provided with the escape portion 147. The front end of the channel step 165 is in close contact with the inner wall of the side wall 145. The portion corresponding to the seating step 149 of the channel step 165 is seated on the outer wall surface of the seating step 149, and the fastening protrusion 149 ′ hangs on the fastening hole 167. Here, the interference avoiding part 166 of the channel step 165 prevents the interference between the handle part 148h and the channel step 165 (see c of FIG. 4).

Next, a channel step 165 of the outdoor heat exchanger 160 is inserted into the side wall 145 of the shroud 140 where the escape portion 147 is not provided. The fastening hole 164 ′ of the channel step 165 is positioned to correspond to the fastening rib 146 formed on the side wall 145 to fasten the fastening rib 146 and the fastening hole 164 ′ with the fastening screw. .

In this case, the installation of the outdoor heat exchanger 160 is completed, and the airflow generated by the outdoor fan 150 is transferred to the entire left and right widths of the outdoor heat exchanger 160 when the air conditioner is driven to perform heat exchange. Let it go.

In addition, since the sealing piece 148 is provided in the escape part 147 to prevent the inlet of the escape part 147 after installation of the outdoor side fan 150, the leakage of air through the escape part 147 is prevented. In addition, a slinger ring 151 is positioned in the escape portion 147 to relatively increase the diameter of the outdoor fan 150.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self-evident.

For example, the escape portion 147 may be formed on both sidewalls 145 of the shroud 140 to allow the slinger ring 151 to be positioned.

According to the present invention as described in detail above, in the air conditioner in which the height is formed relatively larger than the left and right widths, the heat exchange efficiency is increased between the airflow formed by the outdoor fan without relatively increasing the left and right widths of the outdoor heat exchanger. Therefore, the heat exchange area of the outdoor heat exchanger can be used more efficiently.

To this end, an escape portion in which the slinger ring of the outdoor fan is located is formed on the side wall of the shroud, and the opening of the escape portion can be opened and closed by a sealing piece so that air leakage occurs in the attachment state of the outdoor heat exchanger. You can prevent it.

Claims (4)

In the window air conditioner, the height is formed relatively higher than the left and right width of the cabinet constituting the appearance, A shroud having guide parts formed to guide the air sucked from the outside of the cabinet to the outside and to be recessed toward at least one side wall toward the inner surface of the cabinet; An outdoor fan installed at a center of the through-hole formed through the shroud and having one side of a slinger ring positioned at an escape portion of the shroud; Installed in the rear end of the cabinet to perform heat exchange between the air delivered by the outdoor fan and the working fluid of the heat exchange cycle, and an outdoor heat exchange in which channel steps provided in the channels forming both ends are fastened to the side wall of the shroud. Outdoor component assembly structure of the window type air conditioner, characterized in that the configuration including a. According to claim 1, wherein the end of the escape portion is provided with a sealing piece that is connected by a relatively thin connecting neck portion to shield the inlet of the escape portion, the sealing piece has a pair of fitting protrusions fitted to the escape portion at the upper and lower ends thereof. An outdoor component assembly structure of a window type air conditioner, characterized in that each provided. According to claim 2, The sealing piece is provided with a handle portion, in order to prevent interference between the channel portion of the handle portion and the outdoor heat exchanger, the window avoiding air, characterized in that the interference avoiding portion is formed at a corresponding position of the channel step. Assembly structure of outdoor parts of the unit. According to claim 1 or 3, wherein one side wall of the shroud is formed with a step difference is a portion of the channel step of the outdoor heat exchanger seated inside the side wall of the shroud is seated in the mounting step, the shroud A plurality of fastening ribs are formed on the other side wall of the window side air conditioner assembly structure, characterized in that the fastening with the channel step.