EP3059507A1 - Outdoor unit - Google Patents
Outdoor unit Download PDFInfo
- Publication number
- EP3059507A1 EP3059507A1 EP14898356.2A EP14898356A EP3059507A1 EP 3059507 A1 EP3059507 A1 EP 3059507A1 EP 14898356 A EP14898356 A EP 14898356A EP 3059507 A1 EP3059507 A1 EP 3059507A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- panel
- outdoor unit
- side panel
- disposed
- heat exchanger
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
- 239000003507 refrigerant Substances 0.000 claims abstract description 61
- 230000002093 peripheral effect Effects 0.000 claims abstract description 25
- 238000010438 heat treatment Methods 0.000 description 16
- 238000001816 cooling Methods 0.000 description 14
- 238000004378 air conditioning Methods 0.000 description 11
- 238000005192 partition Methods 0.000 description 9
- 230000000694 effects Effects 0.000 description 7
- 238000005057 refrigeration Methods 0.000 description 6
- 238000009434 installation Methods 0.000 description 5
- 239000002184 metal Substances 0.000 description 5
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 2
- 230000001154 acute effect Effects 0.000 description 1
- 230000002265 prevention Effects 0.000 description 1
- 239000011347 resin Substances 0.000 description 1
- 229920005989 resin Polymers 0.000 description 1
Images
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/06—Separate outdoor units, e.g. outdoor unit to be linked to a separate room comprising a compressor and a heat exchanger
- F24F1/56—Casing or covers of separate outdoor units, e.g. fan guards
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/06—Separate outdoor units, e.g. outdoor unit to be linked to a separate room comprising a compressor and a heat exchanger
- F24F1/14—Heat exchangers specially adapted for separate outdoor units
Definitions
- the present invention relates to an outdoor unit of a refrigeration cycle apparatus.
- an outdoor unit of refrigeration cycle apparatus such as air-conditioning apparatus has a casing that accommodates, for example, a compressor, a heat exchanger, a blower and the like.
- the outdoor unit of air-conditioning apparatus is connected via a refrigerant pipe to an indoor unit that accommodates a heat exchanger, a blower and the like.
- the blower When the blower is actuated, outside air is supplied to the heat exchanger so that heat is exchanged between air and refrigerant which flows in the heat exchanger.
- the capability of the refrigeration cycle apparatus such as heating and cooling depends on the amount of heat exchange between air and refrigerant. That is, the larger the size of heat exchanger is, the larger heating capacity and cooling capacity can be obtained.
- the outdoor unit has a rectangular shaped bottom panel and the heat exchanger is disposed, for example, to extend in a long side direction of the bottom panel. This allows a large sized heat exchanger to be accommodated in the casing of the outdoor unit.
- Patent Literature 1 Japanese Unexamined Patent Application Publication No. 5-133571
- the outdoor unit of air-conditioning apparatus is installed outside the building.
- the outdoor unit is installed in an apartment building
- the outdoor unit is installed in a balcony.
- an installation space in a balcony of an apartment building is relatively small and is often limited. Accordingly, besides the indoor unit which is installed inside the building, the outdoor unit which is installed outside the building is also required to be reduced in size.
- the present invention has been made to overcome the above problem, and an object of the invention is to provide an outdoor unit capable of housing a larger heat exchanger (outdoor heat exchanger) while preventing increasing in size of the outdoor unit.
- an outdoor unit configured to accommodate a compressor and connected to a refrigerant pipe used for circulating refrigerant between an indoor unit and the outdoor unit, the outdoor unit comprising: a bottom panel disposed under the compressor to support the compressor; a first side panel disposed on a peripheral edge of the bottom panel; a second side panel disposed at a position facing the first side panel on the peripheral edge of the bottom panel; and an outdoor heat exchanger supported above the bottom panel and extending in a direction from the first side panel toward the second side panel, wherein the outdoor heat exchanger has an end portion facing one of side end portions of the second side panel, and the bottom panel includes a projection formed at a position corresponding to the end portion of the outdoor heat exchanger, the projection protruding in a direction from the first side panel toward the second side panel.
- a larger heat exchanger (outdoor heat exchanger) can be used while preventing increasing in size of the outdoor unit.
- Fig. 1 is a schematic view of an air-conditioning apparatus 200 having an outdoor unit 100 according to Embodiment.
- Fig. 1 (a) is an example of a refrigerant circuit configuration of the air-conditioning apparatus 200
- Fig. 1 (b) shows that the outdoor unit 100 and an indoor unit 150 are connected via a refrigerant pipe P.
- the following Embodiment shows an example in which a refrigeration cycle apparatus is the air-conditioning apparatus 200.
- the air-conditioning apparatus 200 includes the indoor unit 150 and the outdoor unit 100 which are connected via the refrigerant pipe P.
- the indoor unit 150 includes an indoor heat exchanger 151 which serves as an evaporator during cooling operation and a condenser during heating operation. Cooling energy or heating energy is generated in the outdoor unit 100 and is delivered to the indoor unit 150 via the refrigerant pipe P.
- the outdoor unit 100 is disposed, for example, outside of a building, an apartment house or an individual house, and supplies cooling energy or heating energy to the indoor unit 150 via the refrigerant pipe P.
- the outdoor unit 100 includes a compressor 4 that compresses refrigerant, a four-way valve 8 that switches flow passages, an expansion device 9 that reduces the pressure of refrigerant, an outdoor heat exchanger 2 that exchanges heat between air and refrigerant and a blower 3 that supplies air to the outdoor heat exchanger 2.
- the indoor unit 150 is installed at a position suitable for supplying cooling air or heating air into a space to be air-conditioned, for example, in a room, and supplies cooling air or heating air into the air-conditioned space.
- the indoor unit 150 includes the indoor heat exchanger 151 that exchanges heat between air and refrigerant, and a blower 152 that supplies air to the indoor heat exchanger 151.
- the indoor heat exchanger 151, the four-way valve 8 and the expansion device 9 will be described.
- the indoor heat exchanger 151 exchanges heat between room air which is suctioned by the blower 152 into the indoor unit 150 and refrigerant so that refrigerant is condensed and liquefied during heating operation and refrigerant is evaporated and gasified during cooling operation.
- the four-way valve 8 switches a flow of refrigerant during heating operation and a flow of refrigerant during cooling operation and defrost operation. During heating operation, the four-way valve 8 allows a discharge side of the compressor 4 to communicate with the indoor heat exchanger 151 and allows a suction side of the compressor 4 to communicate with the outdoor heat exchanger 2.
- the four-way valve 8 allows the discharge side of the compressor 4 to communicate with the outdoor heat exchanger 2 and allows the suction side of the compressor 4 to communicate with the indoor heat exchanger 151.
- the expansion device 9 reduces the pressure of refrigerant which flows in the refrigerant circuit and allows the refrigerant to be expanded.
- the expansion device 9 is connected to the outdoor heat exchanger 2 at one end and to the indoor heat exchanger 151 at the other end.
- the expansion device 9 may be a device capable of variably controlling an opening degree such as an electronic expansion valve. Other configuration (such as the compressor 4) will be described later.
- a refrigeration cycle operation of a refrigerant circuit shown in the figure will be described.
- a flow of refrigerant during heating operation will be described.
- the four-way valve 8 switches the flow passage as shown in Fig. 1 (a) .
- Gas refrigerant which is compressed and discharge by the compressor 4 flows into the indoor heat exchanger 151 via the four-way valve 8. Then, the gas refrigerant which flows into the indoor heat exchanger 151 exchanges heat with the room air supplied by the blower 152 and is condensed, and then flows out from the indoor heat exchanger 151.
- the refrigerant which flows out from the indoor heat exchanger 151 flows into the expansion device 9, and is expanded and decompressed by the expansion device 9.
- the decompressed refrigerant flows into the outdoor heat exchanger 2, and exchanges heat with outside air supplied by the blower 3 and is gasified, and then flows out from the outdoor heat exchanger 2.
- the gas refrigerant which flows out from the outdoor heat exchanger 2 is suctioned into the compressor 4 via the four-way valve 8.
- Fig. 2 is a schematic view which shows a configuration of an outdoor unit 100 according to Embodiment.
- Fig. 3 is an explanatory view of a casing of the outdoor unit 100 according to Embodiment of the present invention.
- Fig. 4 is a top view of a bottom panel 1 E of the outdoor unit 100 according to Embodiment.
- Fig. 2(a) is a perspective view of the outdoor unit 100
- Fig. 2(b) is a front view of the outdoor unit 100
- Fig. 2(c) is a cross sectional view of the outdoor unit.
- Fig. 2 shows a state in which a cover 1 D is removed.
- Fig. 3(a) is a view of the outdoor unit 100 seen from the right side.
- Fig. 3(b) is a perspective view of the outdoor unit 100 with various components such as the outdoor heat exchanger 2 and the blower 3 having been removed from the casing.
- the outdoor unit 100 includes the outdoor heat exchanger 2 which serves as a condenser during cooling operation and as an evaporator during heating operation.
- the front panel 1 B is defined as a front surface (front side) of the outdoor unit, the side on which a first side panel 1 CC is located with respect to the front side is defined as left side, and the side on which a second side panel 1C is located with respect to the front side is defined as right side.
- the casing of the outdoor unit 100 includes a top panel 1A that forms the top surface of the outdoor unit 100, a front panel 1 B that forms the front surface of the outdoor unit 100, a first side panel 1 CC that forms the left side surface of the outdoor unit 100, a second side panel 1C that forms the right side surface of the outdoor unit 100, a fan grille 1 B2 that is disposed on the front panel 1 B and forms part of the front surface of the outdoor unit 100, and a bottom panel 1 E that forms the bottom of the outdoor unit 100.
- the first side panel 1 CC, the front panel 1 B and the second side panel 1C correspond to a peripheral panel. That is, the peripheral panel is disposed on a peripheral edge 1 E1 of the bottom panel 1 E and stands on the bottom panel 1 E.
- the outdoor unit 100 includes a partition 5 that separates an inner space of the outdoor unit 100 into the right and left spaces, the compressor 4 that compresses and discharges refrigerant, the outdoor heat exchanger 2 that has an L-shaped horizontal cross section, the blower 3 that supplies outside air to the outdoor heat exchanger 2, and a motor support 3A that holds the blower 3.
- the outdoor unit 100 further includes the four-way valve 8 and an electric component box (not shown in the figure) that accommodates a controller that controls the rotation speed of the compressor 4 and the like.
- the outdoor unit 100 further includes a fixed panel 1 F that is disposed at a corner C of the bottom panel 1 E so as to be located on the inner side of the peripheral panel and stands upright on the bottom panel 1E, a roof panel 1 FF that is connected to the fixed panel 1 F, a valve 7 that is fixed to the fixed panel 1 F and is connected to the refrigerant pipe P, and a cover 1 D that is mounted to cover the valve 7.
- the top panel 1 A forms the top surface of the outdoor unit 100.
- the top panel 1 A is mounted on the upper end portion of the peripheral panel so as to cover the upper part of the outdoor heat exchanger 2.
- the top panel 1 A is in contact with the top panel 1 A at the front end portion and the left end portion, respectively, so as to be supported by the front panel 1 B and the first side panel 1 CC, and is in contact with the second side panel 1C at the right end portion so as to be supported by the second side panel 1C.
- the top panel 1 A is formed of, for example, a metal plate.
- the front panel 1 B forms part of the front surface of the outdoor unit 100.
- the first side panel 1 CC is disposed on the left end portion of the front panel 1B, and the second side panel 1C is disposed on the right end portion of the front panel 1 B. Further, the cover 1 D is attached on the right end portion of the front panel 1 B.
- the first side panel 1 CC is integrally formed with the front panel 1 B.
- the front panel 1 B has a lower end portion disposed on the peripheral edge 1 E1 of the bottom panel 1E, and an upper end portion disposed on the top panel 1 A. Further, the right end portion of a front surface-forming portion of the front panel 1 B extends along the front end portion of the second side panel 1C. Moreover, the front panel 1 B has a circular opening 1 B1 which serves, for example, as an inlet for outside air. The fan grille 1 B2 is disposed so as to face a position of the opening 1 B1.
- the front panel 1 B is formed of, for example, a metal plate.
- the front panel 1 B has a front cutout portion 1 BH formed in the lower part on the end portion adjacent to the second side panel 1C.
- the cover 1 D is attached on the front cutout portion 1 BH.
- the first side panel 1 CC is disposed on the peripheral edge 1 E1 of the bottom panel 1 E.
- the first side panel 1 CC is disposed on a portion which corresponds to one of short sides of the bottom panel 1 E.
- the second side panel 1C is disposed at a position facing the first side panel 1 CC.
- the front end portion of the first side panel 1 CC extends along the left end portion of the front panel 1 B.
- the first side panel 1 CC has a plurality of openings through which air is supplied to the outdoor heat exchanger 2.
- the second side panel 1C forms part of the back surface and the right side surface of the outdoor unit 100.
- the second side panel 1C has a substantially L-shaped horizontal cross section and stands vertically upright on the bottom panel 1E, and is located on the lateral side and back side of the compressor 4.
- the second side panel 1C has a front end portion which is in contact with the front panel 1B, an upper end portion which is in contact with the top panel 1 A, and a lower end portion which is in contact with the bottom panel 1 E.
- the second side panel 1C is formed of, for example, a metal plate.
- the second side panel 1C is formed to extend along the peripheral edge 1 E1 of the bottom panel 1E, as described later, and has a tapered shape surface 1CT. Since the refrigerant pipe P gradually curves when being routed along the tapered shape surface 1CT, the refrigerant pipe P is prevented from being damaged.
- the second side panel 1C has a side cutout portion 1 CH formed in the lower part on the front end portion which is located adjacent to the front panel 1 B.
- the cover 1 D is attached to the side cutout portion 1 CH.
- the fan grille 1 B2 forms part of the front surface of the outdoor unit 100 and is provided for preventing a user from being injured by the blower 3.
- the fan grille 1 B2 is a grating member made up of, for example, vertical and lateral bars.
- the bottom panel 1 E forms part of the bottom of the outdoor unit 100.
- the bottom panel 1 E is a rectangular shaped member that is disposed under the compressor 4, the outdoor heat exchanger 2 and the like so as to support the compressor 4 and the outdoor heat exchanger 2.
- the bottom panel 1 E includes a corner C2 (which corresponds to the first corner) that corresponds to a position at which a projection J is formed, and a corner C (which corresponds to the second corner) that corresponds to a position at which the valve 7 is disposed.
- the vertically standing peripheral edge 1 E1 is formed on the periphery of the bottom panel 1 E. That is, the peripheral edge 1 E1 is a flange-like portion formed on the peripheral edge of the bottom panel 1 E.
- the outdoor heat exchanger 2, the compressor 4, the partition 5 and the like are disposed on the bottom panel 1 E.
- the bottom panel 1 E is formed of, for example, a metal plate.
- the bottom panel 1 E includes a projection J that is formed on the peripheral edge 1 E1 on which the second side panel 1C is disposed, and protrudes in the horizontal direction.
- the projection J is formed at a position corresponding to an end portion of the first heat exchange section 2A of the outdoor heat exchanger 2, and protrudes in the horizontal direction.
- the projection J horizontally protrudes in a direction from the first side panel 1 CC toward the second side panel 1C with respect to a position at which the valve 7 is located.
- a tapered shape surface J1 is formed on the edge of the projection J so as to extend toward a portion of bottom panel 1 E which is located under the valve 7.
- the second side panel 1C is formed to correspond to the shape of the projection J of the bottom panel 1 E. That is, the second side panel 1C is formed to extend along the edge of the projection J, and has a tapered shape surface parallel to the tapered shape surface J1.
- the partition 5 is disposed to divide a space into an area in which the compressor 4 and the valve 7 are located and an area in which the outdoor heat exchanger 2 and the blower 3 are located. That is, the partition 5 separates a space into a machine chamber R1 in which the compressor 4, the valve 7 and the like are located and a blower chamber R2 in which the outdoor heat exchanger 2, blower 3, motor support 3A and the like are located.
- the partition 5 is disposed, for example, on the bottom panel 1 E.
- the front end portion of the partition 5 is disposed on the front panel 1 B and the back end portion is fixed to the end portion of the outdoor heat exchanger 2.
- the compressor 4 suctions refrigerant and then compresses the refrigerant into high temperature and high pressure state and discharges it.
- the compressor 4 is connected via a pipe to the four-way valve 8 that switches cooling operation and heating operation by switching a flow of refrigerant.
- the partition 5, the front panel 1B, the fixed panel 1 F and the like are disposed around the compressor 4.
- An electric component box (which is not shown in the figure) used for various controls is disposed above the compressor 4.
- the compressor 4 may not be necessarily directly disposed on the bottom panel 1E, and may be placed on an installation table disposed on the bottom panel 1 E.
- the outdoor heat exchanger 2 exchanges heat between air suctioned by the blower 3 into the outdoor unit 100 and refrigerant so that refrigerant is condensed and liquefied during cooling operation and refrigerant is evaporated and gasified during heating operation.
- the outdoor heat exchanger 2 is disposed, for example, on the bottom panel 1 E.
- the outdoor heat exchanger 2 may not be necessarily directly disposed on the bottom panel 1E, and may be placed on an installation table disposed on the bottom panel 1 E.
- the motor support 3A is hung above the outdoor heat exchanger 2.
- the outdoor heat exchanger 2 is formed of, for example, a fin-and-tube heat exchanger that exchanges heat between refrigerant which flows in a heat transfer tube and air which passes through a fin.
- the outdoor heat exchanger 2 includes a first heat exchange section 2A that extends straight in a direction from the first side panel 1 CC toward the second side panel 1C, a curved second heat exchange section 2B, and a third heat exchange section 2C that is disposed to face the first side panel 1 CC.
- the first heat exchange section 2A and the second heat exchange section 2B are connected to each other, and the second heat exchange section 2B and the third heat exchange section 2C are connected to each other.
- a refrigerant distribution member 20 such as a header that distributes refrigerant to various pipes and heat transfer tubes is disposed on the end portion of the outdoor heat exchanger 2 adjacent to the second side panel 1C. That is, the refrigerant distribution member 20 is disposed on the end portion of the first heat exchange section 2A.
- a hairpin 2C1 which is a heat transfer tube bent in a semicircular shape is disposed on the third heat exchange section 2C.
- the fixed panel 1 F is formed to separate a space into a space (machine chamber R1) in which the compressor 4 is located and a space in which the valve 7 is located.
- the fixed panel 1 F is a plate member which extends in the up-down direction.
- the fixed panel 1 F extends from the bottom panel 1 E to a height position of the upper ends of the side cutout portion 1 CH of the front cutout portion 1 BH.
- One end portion (on the front side) of the fixed panel 1 F is disposed to face the inner surface of the front panel 1 B and the other end portion (on the back side) of the fixed panel 1 F is disposed along the front end portion of the second side panel 1C.
- the fixed panel 1 F is disposed to form an acute angle between the fixed panel 1 F and the front panel 1 B.
- the fixed panel 1 F is connected to the roof panel 1 FF.
- the roof panel 1 FF is connected to the upper end portion of the fixed panel 1 F, the front cutout portion 1 BH and the side cutout portion 1 CH, and is disposed above the valve 7. Since the fixed panel 1 F does not extend from the bottom panel 1 E to the top panel 1 A and the upper end portion of the fixed panel 1 F is disposed at the middle between the bottom panel 1 E to the top panel 1 A, the machine chamber R1 may have a large volume, thereby effectively using a limited space in the outdoor unit 100.
- the roof panel 1 FF is formed of, for example, a triangular shaped plate member.
- the roof panel 1 FF is disposed such that the apex of the corner C of the bottom panel 1 E is located under the apex of the roof panel 1 FF.
- the apex of the roof panel 1 FF as described herein is an apex located at the corner of the right end portion of the front panel 1 B and the front end portion of the second side panel 1C.
- the apex has an angle which is larger than those of the other two angles.
- the valve 7 is mounted on the fixed panel 1 F.
- the valve 7 is made up of a valve 7A and a valve 7B.
- the valve 7 is connected to the refrigerant pipe P.
- the valve 7 is disposed in a closed space formed by the outer surface of the fixed panel 1 F, the upper surface of the bottom panel 1 E and an inner surface of the cover 1 D. Accordingly, even if the refrigerant is burnt and the fire is spread to the refrigerant pipe P, the spread of fire can be prevented at a position of the valve 7. That is, fire is prevented from burning the compressor 4, the outdoor heat exchanger 2 and the like.
- the cover 1 D is disposed on the peripheral edge 1 E1 of the bottom panel 1 E and is detachably mounted at a position facing the fixed panel 1 F so as to cover the valve 7.
- the cover 1 D is attached at a position corresponding to the corner C of the bottom panel 1 E.
- the cover 1 D forms part of front surface and part of right side surface of the casing of the outdoor unit 100. That is, the cover 1 D is detachably attached to the front cutout portion 1 BH and the side cutout portion 1 CH.
- the cover 1 D includes a front surface 1 D1 which is parallel to the front panel 1B, a side surface 1 D2 which is perpendicular to the front surface 1 D1, a lead-out section 1 D3 used for leading out the refrigerant pipe P which is connected to the valve 7, and a terminal table protecting section 1 D4 which is formed to cover a mounting portion Q such as a terminal table connected to an electric component box 6.
- the cover 1 D is made up of the front surface 1 D1, the side surface 1 D2, the lead-out section 1 D3 and the terminal table protecting section 1 D4, which are integrally formed.
- the cover 1 D may be formed of, for example, a resin or a metal plate.
- the front surface 1 D1 is a plate shaped member which upwardly extends from the bottom panel 1 E.
- the left end portion of the front surface 1 D1 extends along the right end portion of the front panel 1 B. Further, the right end portion of the front surface 1 D1 is connected to the side surface 1 D2.
- the side surface 1 D2 is a plate shaped member which extends along the outer surface of the second side panel 1C.
- the side surface 1 D2 has an L-shape in plan view.
- the lead-out section 1 D3 is formed on the side surface 1 D2 at a height position of the valve 7.
- the lead-out section 1 D3 is formed to protrude rightward from the side surface 1 D2. Accordingly, the side surface of the cover 1 D has a stepped portion at a position at which the lead-out section 1 D3 is formed. If the cover 1 D does not have the lead-out section 1 D3, although the refrigerant pipe P can be easily led out, rain water leaks into the casing of the outdoor unit 100. Since the cover 1 D has the lead-out section 1 D3 which protrudes from the side surface 1 D2, leaking of rain water into the casing of the outdoor unit 100 can be prevented while avoiding interference with the refrigerant pipe P.
- the terminal table protecting section 1 D4 is formed on the same plane as that of the lead-out section 1 D3, and protrudes rightward from the side surface 1 D2.
- the lower end portion of the terminal table protecting section 1 D4 is connected to the upper end portion of the lead-out section 1 D3. Further, the lower end portion of the terminal table protecting section 1 D4 is connected to the side surface 1 D2.
- the cover 1 D includes the front surface 1 D1, the side surface 1 D2, the lead-out section 1 D3 and the terminal table protecting section 1 D4 which are integrally formed, and can protect the terminal table as well as the valve 7.
- Fig. 5A is an explanatory view of and around the valve 7 of the outdoor unit 100 according to Embodiment.
- Fig. 5B is an explanatory view which shows the bottom panel 1E, the fixed panel 1 F, the valve 7, the refrigerant pipe P, and the cover 1 D of the outdoor unit 100 according to Embodiment.
- Fig. 5C is an explanatory view of a state in which the cover 1 D of Fig. 5B is removed.
- valve 7B is disposed under the valve 7A.
- the valve 7A and the valve 7B are connected to the respective refrigerant pipes P.
- the valve 7 is fixed to the fixed panel 1 F.
- the cover 1 D is attached at a position corresponding to the corner C of the bottom panel 1 E so as to prevent rainwater from leaking into a closed space SP in which the valve 7 is disposed.
- the lead-out section 1 D3 which protrudes from the side surface 1 D2 is formed on the cover 1D, the refrigerant pipe P can be easily led out from the outdoor unit 100.
- the lead-out section 1 D3 can prevent rainwater from leaking into the casing. Further, it also prevents the valve 7 from being exposed, thereby improving the design.
- the bottom panel 1 E includes the projection J.
- the projection J is formed at a position corresponding to the first heat exchange section 2A of the outdoor heat exchanger 2 and protrudes in the horizontal direction. This allows a larger outdoor heat exchanger 2 to be accommodated. That is, a width dimension of the first heat exchange section 2A of the outdoor heat exchanger 2 can be increased by the amount of the area on which the projection J is formed.
- Fig. 8 is a schematic view of a horizontal cross section of the outdoor unit of a conventional air-conditioning apparatus.
- the conventional outdoor unit which does not have the projection J as shown in Fig. 8 has a problem that, when housing a larger heat exchanger, the width of the front and back sides of the outdoor unit increases, leading to increase in size of the outdoor unit.
- the front side of a portion of the peripheral edge 1 E1 on which the projection J is formed does not protrude. That is, in the bottom panel 1E, the width dimension on the back side of the outdoor unit 100 is increased due to the projection J being formed, while the width dimension on the front side is relatively short since there is no structure corresponding to the projection J. As a result, the outdoor unit 100 can be prevented from being increased in size.
- the outdoor unit 100 of Embodiment 1 is capable of housing a larger heat exchanger (outdoor heat exchanger 2) while preventing the outdoor unit 100 from increasing in size.
- Fig. 6 shows a modified example 1 of the outdoor unit 100 according to Embodiment.
- Fig. 6(a) is a perspective view of the outdoor unit 100
- Fig. 6(b) is a front view of the outdoor unit 100.
- a front end of the roof panel 1 FF (apex of a right angle) comes on the front surface, and the apex of the corner C is located under the apex of the largest angle.
- the apex of the right angle of the roof panel 1 FF is located at a backward position. Accordingly, a folded portion 21 is formed on the front panel 1B, and a folded portion 22 is formed on the second side panel 1C.
- the front panel 1 B and the second side panel 1C are positioned such that a side end portion of the folded portion 21 and a side end portion of the folded portion 22 are along each other.
- the fixed panel 1 F, the cover 1 D and the second side panel 1C are positioned from the bottom panel 1 E to the top panel 1 A extending in the up-down direction.
- the outdoor unit 100 of modified example 1 has an effect as described below in addition to the same effect as that of the outdoor unit 100 of the above Embodiment. That is, the outdoor unit 100 of modified example 1 can be reduced in size, while reducing a volume of the machine chamber R1 since the outdoor unit 100 includes the folded portion 21 and the folded portion 22.
- Figs. 7A to 7E show modified examples 2 to 6 of the outdoor unit according to Embodiment of the present invention.
- the following modified examples 2 to 6 show various variations of the bottom panel 1 E.
- the second side panel 1C is formed to extend along the peripheral edge 1 E1 of the bottom panel 1E.
- the fixed panel 1 F is not provided inward of the peripheral edge 1 E1 of the bottom panel 1 E.
- valve 7 is mounted on the second side panel 1C.
- a cover 10D in modified examples 2 to 6 is mounted on the second side panel 1C such that the surface of the cover 1 D protrudes from the second side panel 1C.
- Figs. 7A(a), 7B(a), 7C(a), 7D(a) and 7E(a) show sectional views of the outdoor unit 100.
- Figs. 7A(b1), 7B(b1), 7C(b1), 7D(b1) and 7E(b1) show examples which adopts the roof panel 1 FF of Embodiment
- Figs. 7A(b2), 7B(b2), 7C(b2), 7D(b2) and 7E(b2) show examples which adopts the roof panel 1 FF of modified example 1. Accordingly, the fixed panel 1 F shown in Figs.
- 7A(b2), 7B(b2), 7C(b2), 7D(b2) and 7E(b2) has a height dimension larger than the fixed panel 1 F shown in Figs. 7A(b1), 7B(b1), 7C(b1), 7D(b1) and 7E(b1) .
- modified example 2 has a difference that the tapered shape surface J1 described in Embodiment is provided as a vertical surface.
- Modified example 2 may adopt the roof panel 1 FF of the outdoor unit 100 of Embodiment as shown in Fig. 7A(b1) , or may adopt the roof panel 1 FF of the outdoor unit 100 of modified example 1 as shown in Fig. 7A(b2) .
- modified example 3 is the same as the outdoor unit 100 of Embodiment except for the difference described above.
- Modified example 2 may adopt the roof panel 1 FF of the outdoor unit 100 of Embodiment as shown in Fig. 7B(b1) , or may adopt the roof panel 1 FF of the outdoor unit 100 of modified example 1 as shown in Fig. 7B(b2) .
- the bottom panel 1 E has a cutout portion J2 formed at a position of the corner C (which corresponds to the second corner). That is, in modified example 4, the bottom panel 1 E includes the cutout portion J2 which is formed by cutting the corner C in a tapered shape to decrease a volume of the machine chamber R1.
- the second side panel 1C may extend to a position of the cutout portion J2, or the front panel 1 B may extend to a position of the cutout portion J2.
- modified example 4 may adopt the roof panel 1 FF of the outdoor unit 100 of Embodiment as shown in Fig. 7C(b1) , or may adopt the roof panel 1 FF of the outdoor unit 100 of modified example 1 as shown in Fig. 7C(b2) .
- modified example 5 As shown in Fig. 7D(a) , in modified example 5, the bottom panel 1 E is formed such that the tapered shape surface J1 of the projection J extends to the corner C. Further, modified example 5 may adopt the roof panel 1 FF of the outdoor unit 100 of Embodiment as shown in Fig. 7D(b1) , or may adopt the roof panel 1 FF of the outdoor unit 100 of modified example 1 as shown in Fig. 7D(b2) .
- the bottom panel 1 E has the tapered shape surface J1 which is a vertical surface. Further, the bottom panel 1 E also has the projection J on a side on which the corner C is formed. In addition, another vertical surface is provided at a position facing the vertical surface. That is, in modified example 6, the bottom panel 1 E has a recess J3 formed of two projections J as seen from the above. The valve 7 is formed on the second side panel 1C at a position corresponding to the recess J3. Further, modified example 6 may adopt the roof panel 1 FF of the outdoor unit 100 of Embodiment as shown in Fig. 7E(b1) , or may adopt the roof panel 1 FF of the outdoor unit 100 of modified example 1 as shown in Fig. 7E(b2) .
- the outdoor unit 100 according to modified examples 2 to 6 has the same effect as that of the outdoor unit 100 of the above Embodiment.
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Abstract
Description
- The present invention relates to an outdoor unit of a refrigeration cycle apparatus.
- Conventionally, an outdoor unit of refrigeration cycle apparatus such as air-conditioning apparatus has a casing that accommodates, for example, a compressor, a heat exchanger, a blower and the like. The outdoor unit of air-conditioning apparatus is connected via a refrigerant pipe to an indoor unit that accommodates a heat exchanger, a blower and the like. When the blower is actuated, outside air is supplied to the heat exchanger so that heat is exchanged between air and refrigerant which flows in the heat exchanger. The capability of the refrigeration cycle apparatus such as heating and cooling depends on the amount of heat exchange between air and refrigerant. That is, the larger the size of heat exchanger is, the larger heating capacity and cooling capacity can be obtained.
- According to
Patent Literature 1, the outdoor unit has a rectangular shaped bottom panel and the heat exchanger is disposed, for example, to extend in a long side direction of the bottom panel. This allows a large sized heat exchanger to be accommodated in the casing of the outdoor unit. - Patent Literature 1:
Japanese Unexamined Patent Application Publication No. 5-133571 - In general, the outdoor unit of air-conditioning apparatus is installed outside the building. For example, when the outdoor unit is installed in an apartment building, the outdoor unit is installed in a balcony. Compared to an individual house that usually has an available space for installation of the outdoor unit such as a garden, an installation space in a balcony of an apartment building is relatively small and is often limited. Accordingly, besides the indoor unit which is installed inside the building, the outdoor unit which is installed outside the building is also required to be reduced in size.
- Increasing the size of outdoor unit allows a larger sized heat exchanger to be accommodated in the casing, thereby obtaining larger heating capacity and cooling capacity. However, as the outdoor unit increases in size, there may be a problem for the outdoor unit in installation outside the building.
- The present invention has been made to overcome the above problem, and an object of the invention is to provide an outdoor unit capable of housing a larger heat exchanger (outdoor heat exchanger) while preventing increasing in size of the outdoor unit.
- According to an aspect of the invention, there is provided an outdoor unit configured to accommodate a compressor and connected to a refrigerant pipe used for circulating refrigerant between an indoor unit and the outdoor unit, the outdoor unit comprising: a bottom panel disposed under the compressor to support the compressor; a first side panel disposed on a peripheral edge of the bottom panel; a second side panel disposed at a position facing the first side panel on the peripheral edge of the bottom panel; and an outdoor heat exchanger supported above the bottom panel and extending in a direction from the first side panel toward the second side panel, wherein the outdoor heat exchanger has an end portion facing one of side end portions of the second side panel, and the bottom panel includes a projection formed at a position corresponding to the end portion of the outdoor heat exchanger, the projection protruding in a direction from the first side panel toward the second side panel. Advantageous Effects of Invention
- According to an outdoor unit of the present invention having the above configuration, a larger heat exchanger (outdoor heat exchanger) can be used while preventing increasing in size of the outdoor unit.
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Fig. 1] Fig. 1 is a schematic view of a refrigeration cycle apparatus having an outdoor unit according to Embodiment of the present invention. - [
Fig. 2] Fig. 2 is a schematic view which shows a configuration of the outdoor unit according to Embodiment of the present invention. - [
Fig. 3] Fig. 3 is an explanatory view of a casing of the outdoor unit according to Embodiment of the present invention. - [
Fig. 4] Fig. 4 is a top view of a bottom panel of the outdoor unit according to Embodiment of the present invention. - [
Fig. 5A] Fig. 5A is an explanatory view of and around a valve of the outdoor unit according to Embodiment of the present invention. - [
Fig. 5B] Fig. 5B is an explanatory view which shows a bottom panel, a fixed panel, a valve, a refrigerant pipe and a cover of the outdoor unit according to Embodiment of the present invention. - [
Fig. 5C] Fig. 5C is an explanatory view of a state in which the cover ofFig. 5B is removed. - [
Fig. 6] Fig. 6 is a modified example 1 of the outdoor unit according to Embodiment of the present invention. - [
Fig. 7A] Fig. 7A is a modified example 2 of the outdoor unit according to Embodiment of the present invention. - [
Fig. 7B] Fig. 7B is a modified example 3 of the outdoor unit according to Embodiment of the present invention. - [
Fig. 7C] Fig. 7C is a modified example 4 of the outdoor unit according to Embodiment of the present invention. - [
Fig. 7D] Fig. 7D is a modified example 5 of the outdoor unit according to Embodiment of the present invention. - [
Fig. 7E] Fig. 7E is a modified example 6 of the outdoor unit according to Embodiment of the present invention. - [
Fig. 8] Fig. 8 is a schematic view of a horizontal cross section of the outdoor unit of a conventional air-conditioning apparatus. Description of Embodiments - With document to the drawings, an
outdoor unit 100 according to Embodiment of the invention will be described. In the accompanying drawings includingFig. 1 , the same reference signs refer to the same or corresponding elements throughout the entire disclosure herein. -
Fig. 1 is a schematic view of an air-conditioning apparatus 200 having anoutdoor unit 100 according to Embodiment.Fig. 1 (a) is an example of a refrigerant circuit configuration of the air-conditioning apparatus 200, andFig. 1 (b) shows that theoutdoor unit 100 and anindoor unit 150 are connected via a refrigerant pipe P. The following Embodiment shows an example in which a refrigeration cycle apparatus is the air-conditioning apparatus 200. - The air-
conditioning apparatus 200 includes theindoor unit 150 and theoutdoor unit 100 which are connected via the refrigerant pipe P. Theindoor unit 150 includes anindoor heat exchanger 151 which serves as an evaporator during cooling operation and a condenser during heating operation. Cooling energy or heating energy is generated in theoutdoor unit 100 and is delivered to theindoor unit 150 via the refrigerant pipe P. - The
outdoor unit 100 is disposed, for example, outside of a building, an apartment house or an individual house, and supplies cooling energy or heating energy to theindoor unit 150 via the refrigerant pipe P. Theoutdoor unit 100 includes acompressor 4 that compresses refrigerant, a four-way valve 8 that switches flow passages, anexpansion device 9 that reduces the pressure of refrigerant, anoutdoor heat exchanger 2 that exchanges heat between air and refrigerant and ablower 3 that supplies air to theoutdoor heat exchanger 2. - The
indoor unit 150 is installed at a position suitable for supplying cooling air or heating air into a space to be air-conditioned, for example, in a room, and supplies cooling air or heating air into the air-conditioned space. Theindoor unit 150 includes theindoor heat exchanger 151 that exchanges heat between air and refrigerant, and ablower 152 that supplies air to theindoor heat exchanger 151. - The
indoor heat exchanger 151, the four-way valve 8 and theexpansion device 9 will be described. Theindoor heat exchanger 151 exchanges heat between room air which is suctioned by theblower 152 into theindoor unit 150 and refrigerant so that refrigerant is condensed and liquefied during heating operation and refrigerant is evaporated and gasified during cooling operation. The four-way valve 8 switches a flow of refrigerant during heating operation and a flow of refrigerant during cooling operation and defrost operation. During heating operation, the four-way valve 8 allows a discharge side of thecompressor 4 to communicate with theindoor heat exchanger 151 and allows a suction side of thecompressor 4 to communicate with theoutdoor heat exchanger 2. Further, during cooling operation and defrost operation, the four-way valve 8 allows the discharge side of thecompressor 4 to communicate with theoutdoor heat exchanger 2 and allows the suction side of thecompressor 4 to communicate with theindoor heat exchanger 151. Theexpansion device 9 reduces the pressure of refrigerant which flows in the refrigerant circuit and allows the refrigerant to be expanded. Theexpansion device 9 is connected to theoutdoor heat exchanger 2 at one end and to theindoor heat exchanger 151 at the other end. Theexpansion device 9 may be a device capable of variably controlling an opening degree such as an electronic expansion valve. Other configuration (such as the compressor 4) will be described later. - Next, with document to
Fig. 1 (a) , a refrigeration cycle operation of a refrigerant circuit shown in the figure will be described. Here, a flow of refrigerant during heating operation will be described. At the start of heating operation, the four-way valve 8 switches the flow passage as shown inFig. 1 (a) . Gas refrigerant which is compressed and discharge by thecompressor 4 flows into theindoor heat exchanger 151 via the four-way valve 8. Then, the gas refrigerant which flows into theindoor heat exchanger 151 exchanges heat with the room air supplied by theblower 152 and is condensed, and then flows out from theindoor heat exchanger 151. The refrigerant which flows out from theindoor heat exchanger 151 flows into theexpansion device 9, and is expanded and decompressed by theexpansion device 9. The decompressed refrigerant flows into theoutdoor heat exchanger 2, and exchanges heat with outside air supplied by theblower 3 and is gasified, and then flows out from theoutdoor heat exchanger 2. The gas refrigerant which flows out from theoutdoor heat exchanger 2 is suctioned into thecompressor 4 via the four-way valve 8. -
Fig. 2 is a schematic view which shows a configuration of anoutdoor unit 100 according to Embodiment.Fig. 3 is an explanatory view of a casing of theoutdoor unit 100 according to Embodiment of the present invention.Fig. 4 is a top view of abottom panel 1 E of theoutdoor unit 100 according to Embodiment.Fig. 2(a) is a perspective view of theoutdoor unit 100,Fig. 2(b) is a front view of theoutdoor unit 100, andFig. 2(c) is a cross sectional view of the outdoor unit.Fig. 2 shows a state in which acover 1 D is removed.Fig. 3(a) is a view of theoutdoor unit 100 seen from the right side.Fig. 3(b) is a perspective view of theoutdoor unit 100 with various components such as theoutdoor heat exchanger 2 and theblower 3 having been removed from the casing. - The
outdoor unit 100 includes theoutdoor heat exchanger 2 which serves as a condenser during cooling operation and as an evaporator during heating operation. In the following description, thefront panel 1 B is defined as a front surface (front side) of the outdoor unit, the side on which afirst side panel 1 CC is located with respect to the front side is defined as left side, and the side on which asecond side panel 1C is located with respect to the front side is defined as right side. - The casing of the
outdoor unit 100 includes atop panel 1A that forms the top surface of theoutdoor unit 100, afront panel 1 B that forms the front surface of theoutdoor unit 100, afirst side panel 1 CC that forms the left side surface of theoutdoor unit 100, asecond side panel 1C that forms the right side surface of theoutdoor unit 100, afan grille 1 B2 that is disposed on thefront panel 1 B and forms part of the front surface of theoutdoor unit 100, and abottom panel 1 E that forms the bottom of theoutdoor unit 100. In this configuration, thefirst side panel 1 CC, thefront panel 1 B and thesecond side panel 1C correspond to a peripheral panel. That is, the peripheral panel is disposed on aperipheral edge 1 E1 of thebottom panel 1 E and stands on thebottom panel 1 E. - Further, the
outdoor unit 100 includes apartition 5 that separates an inner space of theoutdoor unit 100 into the right and left spaces, thecompressor 4 that compresses and discharges refrigerant, theoutdoor heat exchanger 2 that has an L-shaped horizontal cross section, theblower 3 that supplies outside air to theoutdoor heat exchanger 2, and amotor support 3A that holds theblower 3. Theoutdoor unit 100 further includes the four-way valve 8 and an electric component box (not shown in the figure) that accommodates a controller that controls the rotation speed of thecompressor 4 and the like. - The
outdoor unit 100 further includes a fixedpanel 1 F that is disposed at a corner C of thebottom panel 1 E so as to be located on the inner side of the peripheral panel and stands upright on thebottom panel 1E, aroof panel 1 FF that is connected to the fixedpanel 1 F, avalve 7 that is fixed to the fixedpanel 1 F and is connected to the refrigerant pipe P, and acover 1 D that is mounted to cover thevalve 7. - The
top panel 1 A forms the top surface of theoutdoor unit 100. Thetop panel 1 A is mounted on the upper end portion of the peripheral panel so as to cover the upper part of theoutdoor heat exchanger 2. Thetop panel 1 A is in contact with thetop panel 1 A at the front end portion and the left end portion, respectively, so as to be supported by thefront panel 1 B and thefirst side panel 1 CC, and is in contact with thesecond side panel 1C at the right end portion so as to be supported by thesecond side panel 1C. Thetop panel 1 A is formed of, for example, a metal plate. - The
front panel 1 B forms part of the front surface of theoutdoor unit 100. Thefirst side panel 1 CC is disposed on the left end portion of thefront panel 1B, and thesecond side panel 1C is disposed on the right end portion of thefront panel 1 B. Further, thecover 1 D is attached on the right end portion of thefront panel 1 B. In Embodiment, thefirst side panel 1 CC is integrally formed with thefront panel 1 B. - The
front panel 1 B has a lower end portion disposed on theperipheral edge 1 E1 of thebottom panel 1E, and an upper end portion disposed on thetop panel 1 A. Further, the right end portion of a front surface-forming portion of thefront panel 1 B extends along the front end portion of thesecond side panel 1C. Moreover, thefront panel 1 B has acircular opening 1 B1 which serves, for example, as an inlet for outside air. Thefan grille 1 B2 is disposed so as to face a position of theopening 1 B1. Thefront panel 1 B is formed of, for example, a metal plate. - The
front panel 1 B has afront cutout portion 1 BH formed in the lower part on the end portion adjacent to thesecond side panel 1C. Thecover 1 D is attached on thefront cutout portion 1 BH. - The
first side panel 1 CC is disposed on theperipheral edge 1 E1 of thebottom panel 1 E. Thefirst side panel 1 CC is disposed on a portion which corresponds to one of short sides of thebottom panel 1 E. Thesecond side panel 1C is disposed at a position facing thefirst side panel 1 CC. The front end portion of thefirst side panel 1 CC extends along the left end portion of thefront panel 1 B. Thefirst side panel 1 CC has a plurality of openings through which air is supplied to theoutdoor heat exchanger 2. - The
second side panel 1C forms part of the back surface and the right side surface of theoutdoor unit 100. Thesecond side panel 1C has a substantially L-shaped horizontal cross section and stands vertically upright on thebottom panel 1E, and is located on the lateral side and back side of thecompressor 4. Thesecond side panel 1C has a front end portion which is in contact with thefront panel 1B, an upper end portion which is in contact with thetop panel 1 A, and a lower end portion which is in contact with thebottom panel 1 E. Thesecond side panel 1C is formed of, for example, a metal plate. - The
second side panel 1C is formed to extend along theperipheral edge 1 E1 of thebottom panel 1E, as described later, and has a tapered shape surface 1CT. Since the refrigerant pipe P gradually curves when being routed along the tapered shape surface 1CT, the refrigerant pipe P is prevented from being damaged. - The
second side panel 1C has aside cutout portion 1 CH formed in the lower part on the front end portion which is located adjacent to thefront panel 1 B. Thecover 1 D is attached to theside cutout portion 1 CH. - The
fan grille 1 B2 forms part of the front surface of theoutdoor unit 100 and is provided for preventing a user from being injured by theblower 3. Thefan grille 1 B2 is a grating member made up of, for example, vertical and lateral bars. - The
bottom panel 1 E forms part of the bottom of theoutdoor unit 100. Thebottom panel 1 E is a rectangular shaped member that is disposed under thecompressor 4, theoutdoor heat exchanger 2 and the like so as to support thecompressor 4 and theoutdoor heat exchanger 2. Thebottom panel 1 E includes a corner C2 (which corresponds to the first corner) that corresponds to a position at which a projection J is formed, and a corner C (which corresponds to the second corner) that corresponds to a position at which thevalve 7 is disposed. - The vertically standing
peripheral edge 1 E1 is formed on the periphery of thebottom panel 1 E. That is, theperipheral edge 1 E1 is a flange-like portion formed on the peripheral edge of thebottom panel 1 E. Theoutdoor heat exchanger 2, thecompressor 4, thepartition 5 and the like are disposed on thebottom panel 1 E. Thebottom panel 1 E is formed of, for example, a metal plate. - The
bottom panel 1 E includes a projection J that is formed on theperipheral edge 1 E1 on which thesecond side panel 1C is disposed, and protrudes in the horizontal direction. The projection J is formed at a position corresponding to an end portion of the firstheat exchange section 2A of theoutdoor heat exchanger 2, and protrudes in the horizontal direction. The projection J horizontally protrudes in a direction from thefirst side panel 1 CC toward thesecond side panel 1C with respect to a position at which thevalve 7 is located. Further, a tapered shape surface J1 is formed on the edge of the projection J so as to extend toward a portion ofbottom panel 1 E which is located under thevalve 7. Accordingly, thesecond side panel 1C is formed to correspond to the shape of the projection J of thebottom panel 1 E. That is, thesecond side panel 1C is formed to extend along the edge of the projection J, and has a tapered shape surface parallel to the tapered shape surface J1. - The
partition 5 is disposed to divide a space into an area in which thecompressor 4 and thevalve 7 are located and an area in which theoutdoor heat exchanger 2 and theblower 3 are located. That is, thepartition 5 separates a space into a machine chamber R1 in which thecompressor 4, thevalve 7 and the like are located and a blower chamber R2 in which theoutdoor heat exchanger 2,blower 3,motor support 3A and the like are located. Thepartition 5 is disposed, for example, on thebottom panel 1 E. The front end portion of thepartition 5 is disposed on thefront panel 1 B and the back end portion is fixed to the end portion of theoutdoor heat exchanger 2. - The
compressor 4 suctions refrigerant and then compresses the refrigerant into high temperature and high pressure state and discharges it. Thecompressor 4 is connected via a pipe to the four-way valve 8 that switches cooling operation and heating operation by switching a flow of refrigerant. Thepartition 5, thefront panel 1B, the fixedpanel 1 F and the like are disposed around thecompressor 4. An electric component box (which is not shown in the figure) used for various controls is disposed above thecompressor 4. Thecompressor 4 may not be necessarily directly disposed on thebottom panel 1E, and may be placed on an installation table disposed on thebottom panel 1 E. - The
outdoor heat exchanger 2 exchanges heat between air suctioned by theblower 3 into theoutdoor unit 100 and refrigerant so that refrigerant is condensed and liquefied during cooling operation and refrigerant is evaporated and gasified during heating operation. Theoutdoor heat exchanger 2 is disposed, for example, on thebottom panel 1 E. Theoutdoor heat exchanger 2 may not be necessarily directly disposed on thebottom panel 1E, and may be placed on an installation table disposed on thebottom panel 1 E. Themotor support 3A is hung above theoutdoor heat exchanger 2. Theoutdoor heat exchanger 2 is formed of, for example, a fin-and-tube heat exchanger that exchanges heat between refrigerant which flows in a heat transfer tube and air which passes through a fin. - The
outdoor heat exchanger 2 includes a firstheat exchange section 2A that extends straight in a direction from thefirst side panel 1 CC toward thesecond side panel 1C, a curved secondheat exchange section 2B, and a third heat exchange section 2C that is disposed to face thefirst side panel 1 CC. The firstheat exchange section 2A and the secondheat exchange section 2B are connected to each other, and the secondheat exchange section 2B and the third heat exchange section 2C are connected to each other. Arefrigerant distribution member 20 such as a header that distributes refrigerant to various pipes and heat transfer tubes is disposed on the end portion of theoutdoor heat exchanger 2 adjacent to thesecond side panel 1C. That is, therefrigerant distribution member 20 is disposed on the end portion of the firstheat exchange section 2A. Further, a hairpin 2C1 which is a heat transfer tube bent in a semicircular shape is disposed on the third heat exchange section 2C. - The fixed
panel 1 F is formed to separate a space into a space (machine chamber R1) in which thecompressor 4 is located and a space in which thevalve 7 is located. The fixedpanel 1 F is a plate member which extends in the up-down direction. The fixedpanel 1 F extends from thebottom panel 1 E to a height position of the upper ends of theside cutout portion 1 CH of thefront cutout portion 1 BH. One end portion (on the front side) of the fixedpanel 1 F is disposed to face the inner surface of thefront panel 1 B and the other end portion (on the back side) of the fixedpanel 1 F is disposed along the front end portion of thesecond side panel 1C. The fixedpanel 1 F is disposed to form an acute angle between the fixedpanel 1 F and thefront panel 1 B. - The fixed
panel 1 F is connected to theroof panel 1 FF. Theroof panel 1 FF is connected to the upper end portion of the fixedpanel 1 F, thefront cutout portion 1 BH and theside cutout portion 1 CH, and is disposed above thevalve 7. Since the fixedpanel 1 F does not extend from thebottom panel 1 E to thetop panel 1 A and the upper end portion of the fixedpanel 1 F is disposed at the middle between thebottom panel 1 E to thetop panel 1 A, the machine chamber R1 may have a large volume, thereby effectively using a limited space in theoutdoor unit 100. Theroof panel 1 FF is formed of, for example, a triangular shaped plate member. Theroof panel 1 FF is disposed such that the apex of the corner C of thebottom panel 1 E is located under the apex of theroof panel 1 FF. The apex of theroof panel 1 FF as described herein is an apex located at the corner of the right end portion of thefront panel 1 B and the front end portion of thesecond side panel 1C. The apex has an angle which is larger than those of the other two angles. - The
valve 7 is mounted on the fixedpanel 1 F. Thevalve 7 is made up of avalve 7A and avalve 7B. Thevalve 7 is connected to the refrigerant pipe P. Thevalve 7 is disposed in a closed space formed by the outer surface of the fixedpanel 1 F, the upper surface of thebottom panel 1 E and an inner surface of thecover 1 D. Accordingly, even if the refrigerant is burnt and the fire is spread to the refrigerant pipe P, the spread of fire can be prevented at a position of thevalve 7. That is, fire is prevented from burning thecompressor 4, theoutdoor heat exchanger 2 and the like. - The
cover 1 D is disposed on theperipheral edge 1 E1 of thebottom panel 1 E and is detachably mounted at a position facing the fixedpanel 1 F so as to cover thevalve 7. Thecover 1 D is attached at a position corresponding to the corner C of thebottom panel 1 E. Thecover 1 D forms part of front surface and part of right side surface of the casing of theoutdoor unit 100. That is, thecover 1 D is detachably attached to thefront cutout portion 1 BH and theside cutout portion 1 CH. - The
cover 1 D includes afront surface 1 D1 which is parallel to thefront panel 1B, aside surface 1 D2 which is perpendicular to thefront surface 1 D1, a lead-outsection 1 D3 used for leading out the refrigerant pipe P which is connected to thevalve 7, and a terminaltable protecting section 1 D4 which is formed to cover a mounting portion Q such as a terminal table connected to an electric component box 6. Thecover 1 D is made up of thefront surface 1 D1, theside surface 1 D2, the lead-outsection 1 D3 and the terminaltable protecting section 1 D4, which are integrally formed. Thecover 1 D may be formed of, for example, a resin or a metal plate. - The
front surface 1 D1 is a plate shaped member which upwardly extends from thebottom panel 1 E. The left end portion of thefront surface 1 D1 extends along the right end portion of thefront panel 1 B. Further, the right end portion of thefront surface 1 D1 is connected to theside surface 1 D2. - The
side surface 1 D2 is a plate shaped member which extends along the outer surface of thesecond side panel 1C. Theside surface 1 D2 has an L-shape in plan view. The lead-outsection 1 D3 is formed on theside surface 1 D2 at a height position of thevalve 7. - The lead-out
section 1 D3 is formed to protrude rightward from theside surface 1 D2. Accordingly, the side surface of thecover 1 D has a stepped portion at a position at which the lead-outsection 1 D3 is formed. If thecover 1 D does not have the lead-outsection 1 D3, although the refrigerant pipe P can be easily led out, rain water leaks into the casing of theoutdoor unit 100. Since thecover 1 D has the lead-outsection 1 D3 which protrudes from theside surface 1 D2, leaking of rain water into the casing of theoutdoor unit 100 can be prevented while avoiding interference with the refrigerant pipe P. - The terminal
table protecting section 1 D4 is formed on the same plane as that of the lead-outsection 1 D3, and protrudes rightward from theside surface 1 D2. The lower end portion of the terminaltable protecting section 1 D4 is connected to the upper end portion of the lead-outsection 1 D3. Further, the lower end portion of the terminaltable protecting section 1 D4 is connected to theside surface 1 D2. Thecover 1 D includes thefront surface 1 D1, theside surface 1 D2, the lead-outsection 1 D3 and the terminaltable protecting section 1 D4 which are integrally formed, and can protect the terminal table as well as thevalve 7. -
Fig. 5A is an explanatory view of and around thevalve 7 of theoutdoor unit 100 according to Embodiment.Fig. 5B is an explanatory view which shows thebottom panel 1E, the fixedpanel 1 F, thevalve 7, the refrigerant pipe P, and thecover 1 D of theoutdoor unit 100 according to Embodiment.Fig. 5C is an explanatory view of a state in which thecover 1 D ofFig. 5B is removed. - As shown in
Fig. 5A , thevalve 7B is disposed under thevalve 7A. Thevalve 7A and thevalve 7B are connected to the respective refrigerant pipes P. Thevalve 7 is fixed to the fixedpanel 1 F. As shown inFig. 5B , thecover 1 D is attached at a position corresponding to the corner C of thebottom panel 1 E so as to prevent rainwater from leaking into a closed space SP in which thevalve 7 is disposed. - Since the lead-out
section 1 D3 which protrudes from theside surface 1 D2 is formed on thecover 1D, the refrigerant pipe P can be easily led out from theoutdoor unit 100. In addition to that, the lead-outsection 1 D3 can prevent rainwater from leaking into the casing. Further, it also prevents thevalve 7 from being exposed, thereby improving the design. - In the
outdoor unit 100 according to Embodiment, thebottom panel 1 E includes the projection J. The projection J is formed at a position corresponding to the firstheat exchange section 2A of theoutdoor heat exchanger 2 and protrudes in the horizontal direction. This allows a largeroutdoor heat exchanger 2 to be accommodated. That is, a width dimension of the firstheat exchange section 2A of theoutdoor heat exchanger 2 can be increased by the amount of the area on which the projection J is formed. -
Fig. 8 is a schematic view of a horizontal cross section of the outdoor unit of a conventional air-conditioning apparatus. The conventional outdoor unit which does not have the projection J as shown inFig. 8 has a problem that, when housing a larger heat exchanger, the width of the front and back sides of the outdoor unit increases, leading to increase in size of the outdoor unit. - In the
bottom panel 1 E of theoutdoor unit 100 of Embodiment, the front side of a portion of theperipheral edge 1 E1 on which the projection J is formed does not protrude. That is, in thebottom panel 1E, the width dimension on the back side of theoutdoor unit 100 is increased due to the projection J being formed, while the width dimension on the front side is relatively short since there is no structure corresponding to the projection J. As a result, theoutdoor unit 100 can be prevented from being increased in size. - Accordingly, the
outdoor unit 100 ofEmbodiment 1 is capable of housing a larger heat exchanger (outdoor heat exchanger 2) while preventing theoutdoor unit 100 from increasing in size. -
Fig. 6 shows a modified example 1 of theoutdoor unit 100 according to Embodiment.Fig. 6(a) is a perspective view of theoutdoor unit 100, andFig. 6(b) is a front view of theoutdoor unit 100. In the above embodiment, in order to increase a volume of the machine chamber R1, a front end of theroof panel 1 FF (apex of a right angle) comes on the front surface, and the apex of the corner C is located under the apex of the largest angle. - In modified example 1, the apex of the right angle of the
roof panel 1 FF is located at a backward position. Accordingly, a foldedportion 21 is formed on thefront panel 1B, and a foldedportion 22 is formed on thesecond side panel 1C. Thefront panel 1 B and thesecond side panel 1C are positioned such that a side end portion of the foldedportion 21 and a side end portion of the foldedportion 22 are along each other. - Further, in modified example 1, the fixed
panel 1 F, thecover 1 D and thesecond side panel 1C are positioned from thebottom panel 1 E to thetop panel 1 A extending in the up-down direction. - The
outdoor unit 100 of modified example 1 has an effect as described below in addition to the same effect as that of theoutdoor unit 100 of the above Embodiment. That is, theoutdoor unit 100 of modified example 1 can be reduced in size, while reducing a volume of the machine chamber R1 since theoutdoor unit 100 includes the foldedportion 21 and the foldedportion 22. -
Figs. 7A to 7E show modified examples 2 to 6 of the outdoor unit according to Embodiment of the present invention. The following modified examples 2 to 6 show various variations of thebottom panel 1 E. Thesecond side panel 1C is formed to extend along theperipheral edge 1 E1 of thebottom panel 1E. - Difference between the
outdoor unit 100 according to the above embodiment and theoutdoor unit 100 according to modified examples 2 to 6 will be described. - In modified examples 2 to 6, the fixed
panel 1 F is not provided inward of theperipheral edge 1 E1 of thebottom panel 1 E. - Further, in modified examples 2 to 6, the
valve 7 is mounted on thesecond side panel 1C. - Although the surface of the
cover 1 D in Embodiment and modified example 1 is provided along the surface of thesecond side panel 1C, acover 10D in modified examples 2 to 6 is mounted on thesecond side panel 1C such that the surface of thecover 1 D protrudes from thesecond side panel 1C. -
Figs. 7A(a), 7B(a), 7C(a), 7D(a) and 7E(a) show sectional views of theoutdoor unit 100.Figs. 7A(b1), 7B(b1), 7C(b1), 7D(b1) and 7E(b1) show examples which adopts theroof panel 1 FF of Embodiment, whileFigs. 7A(b2), 7B(b2), 7C(b2), 7D(b2) and 7E(b2) show examples which adopts theroof panel 1 FF of modified example 1. Accordingly, the fixedpanel 1 F shown inFigs. 7A(b2), 7B(b2), 7C(b2), 7D(b2) and 7E(b2) has a height dimension larger than the fixedpanel 1 F shown inFigs. 7A(b1), 7B(b1), 7C(b1), 7D(b1) and 7E(b1) . - As shown in
Fig. 7A(a) , in addition to the difference described above, modified example 2 has a difference that the tapered shape surface J1 described in Embodiment is provided as a vertical surface. Modified example 2 may adopt theroof panel 1 FF of theoutdoor unit 100 of Embodiment as shown inFig. 7A(b1) , or may adopt theroof panel 1 FF of theoutdoor unit 100 of modified example 1 as shown inFig. 7A(b2) . - As shown in
Fig. 7B(a) , modified example 3 is the same as theoutdoor unit 100 of Embodiment except for the difference described above. Modified example 2 may adopt theroof panel 1 FF of theoutdoor unit 100 of Embodiment as shown inFig. 7B(b1) , or may adopt theroof panel 1 FF of theoutdoor unit 100 of modified example 1 as shown inFig. 7B(b2) . - As shown in
Fig. 7C(a) , in modified example 4, thebottom panel 1 E has a cutout portion J2 formed at a position of the corner C (which corresponds to the second corner). That is, in modified example 4, thebottom panel 1 E includes the cutout portion J2 which is formed by cutting the corner C in a tapered shape to decrease a volume of the machine chamber R1. Thesecond side panel 1C may extend to a position of the cutout portion J2, or thefront panel 1 B may extend to a position of the cutout portion J2. Further, modified example 4 may adopt theroof panel 1 FF of theoutdoor unit 100 of Embodiment as shown inFig. 7C(b1) , or may adopt theroof panel 1 FF of theoutdoor unit 100 of modified example 1 as shown inFig. 7C(b2) . - As shown in
Fig. 7D(a) , in modified example 5, thebottom panel 1 E is formed such that the tapered shape surface J1 of the projection J extends to the corner C. Further, modified example 5 may adopt theroof panel 1 FF of theoutdoor unit 100 of Embodiment as shown inFig. 7D(b1) , or may adopt theroof panel 1 FF of theoutdoor unit 100 of modified example 1 as shown inFig. 7D(b2) . - As shown in
Fig. 7E(a) , in modified example 6, thebottom panel 1 E has the tapered shape surface J1 which is a vertical surface. Further, thebottom panel 1 E also has the projection J on a side on which the corner C is formed. In addition, another vertical surface is provided at a position facing the vertical surface. That is, in modified example 6, thebottom panel 1 E has a recess J3 formed of two projections J as seen from the above. Thevalve 7 is formed on thesecond side panel 1C at a position corresponding to the recess J3. Further, modified example 6 may adopt theroof panel 1 FF of theoutdoor unit 100 of Embodiment as shown inFig. 7E(b1) , or may adopt theroof panel 1 FF of theoutdoor unit 100 of modified example 1 as shown inFig. 7E(b2) . - The
outdoor unit 100 according to modified examples 2 to 6 has the same effect as that of theoutdoor unit 100 of the above Embodiment. Document Signs List - 1A
top panel 1B front panel 1B1 opening1B2 fan grille 1 BHfront cutout portion 1Csecond side panel 1 CCfirst side panel 1 CHside cutout portion 1 CT taperedshape surface 1D cover 1 D1front surface 1D2 side surface 1 D3 lead-outsection 1 D4 terminaltable protecting section 1E bottom panel 1 E1peripheral edge 1 F fixedpanel 1FF roof panel 2outdoor heat exchanger 2A firstheat exchange section 2B second heat exchange section 2C third heat exchangesection 2C1 hairpin 3blower 3A motor support 4compressor 5 partition 6electric component box 7valve 7Avalve 7B valveway valve 9expansion device 10D cover 20refrigerant distribution member 21 foldedportion 22 foldedportion 100outdoor unit 150indoor unit 151indoor heat exchanger 152blower 200 air-conditioning apparatus C corner C2 corner J projection J1 tapered shape surface J2 cutout portion J3 recess P refrigerant pipe Q mounting portion R1 machine chamber R2 blower chamber SP closed space
Claims (8)
- An outdoor unit accommodating a compressor and connected to a refrigerant pipe used for circulating refrigerant between an indoor unit and the outdoor unit, the outdoor unit comprising:a bottom panel disposed under the compressor to support the compressor;a first side panel disposed on a peripheral edge of the bottom panel;a second side panel disposed at a position facing the first side panel on the peripheral edge of the bottom panel; andan outdoor heat exchanger supported above the bottom panel and extending in a direction from the first side panel toward the second side panel, whereinthe outdoor heat exchanger has an end portion facing one of side end portions of the second side panel, andthe bottom panel includes a projection formed at a position corresponding to the end portion of the outdoor heat exchanger, the projection protruding in a direction from the first side panel toward the second side panel.
- The outdoor unit of claim 1, further comprising a valve disposed on a side on which the second side panel is located, the valve being connected to the refrigerant pipe, wherein
the projection is formed to protrude in the direction from the first side panel toward the second side panel with respect to a position at which the valve is disposed. - The outdoor unit of claim 1 or 2, wherein
a tapered shape surface is formed on an edge of the projection to extend toward a portion of the bottom panel located under the valve, and
the second side panel is formed to extend along the edge of the projection. - The outdoor unit of any one of claims 1 to 3, further comprising a fixed panel which is disposed on the bottom panel and on which the valve is mounted.
- The outdoor unit of claim 4, wherein
the bottom panel includesa first corner corresponding to a position at which the projection is formed anda second corner of the bottom panel located under the valve,the second side panel is disposed at the first corner, and
the fixed panel is disposed at the second corner. - The outdoor unit of claim 4 or 5, further comprising a cover disposed on the peripheral edge of the bottom panel and mounted at a position facing the fixed panel so as to cover the valve, wherein
the cover has a lead-out section used for leading out the refrigerant pipe connected to the valve. - The outdoor unit of claim 6, further comprising a top panel disposed on an upper end portion of the first side panel and the second side panel so as to cover an upper part of the outdoor heat exchanger, wherein
the fixed panel, the cover and the second side panel extend from the bottom panel to the top panel. - The outdoor unit of claim 6, further comprising a front panel which is disposed on the peripheral edge of the bottom panel and is provided with the first side panel at one end portion and the second side panel at the other end portion, wherein
the front panel has a front cutout portion formed in a lower part of the other end portion,
the second side panel has a side cutout portion formed in a lower part of the end portion adjacent to the front panel, and
the cover is disposed in the front cutout portion and the side cutout portion.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PCT/JP2014/084490 WO2016103442A1 (en) | 2014-12-26 | 2014-12-26 | Outdoor unit |
Publications (3)
Publication Number | Publication Date |
---|---|
EP3059507A1 true EP3059507A1 (en) | 2016-08-24 |
EP3059507A4 EP3059507A4 (en) | 2016-12-28 |
EP3059507B1 EP3059507B1 (en) | 2018-03-14 |
Family
ID=55944460
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP14898356.2A Active EP3059507B1 (en) | 2014-12-26 | 2014-12-26 | Outdoor unit |
Country Status (5)
Country | Link |
---|---|
US (1) | US20170314794A1 (en) |
EP (1) | EP3059507B1 (en) |
JP (1) | JP6227167B2 (en) |
CN (2) | CN107003018B (en) |
WO (1) | WO2016103442A1 (en) |
Family Cites Families (19)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6425635U (en) * | 1987-08-07 | 1989-02-13 | ||
JP3094578B2 (en) | 1991-11-15 | 2000-10-03 | 松下電器産業株式会社 | Outdoor unit of air conditioner |
JPH05296496A (en) * | 1992-04-22 | 1993-11-09 | Mitsubishi Electric Corp | Outside unit for air conditioner |
KR0132997B1 (en) * | 1994-08-20 | 1998-04-21 | 김광호 | Outlet machine of airconditioner |
JPH10205829A (en) * | 1997-01-20 | 1998-08-04 | Fujitsu General Ltd | Outdoor unit for air conditioner |
JP3831697B2 (en) * | 2001-12-27 | 2006-10-11 | 三洋電機株式会社 | Air conditioner |
JP2004251586A (en) * | 2003-02-21 | 2004-09-09 | Matsushita Electric Ind Co Ltd | Separation type air conditioner |
JP2004293955A (en) * | 2003-03-27 | 2004-10-21 | Sanyo Electric Co Ltd | Outdoor unit of air conditioner |
KR100988572B1 (en) * | 2003-08-14 | 2010-10-18 | 삼성전자주식회사 | Outdoor unit of air conditioner |
JP4507842B2 (en) * | 2004-11-11 | 2010-07-21 | パナソニック株式会社 | Compressor control unit and compressor control method |
JP4063296B2 (en) * | 2005-10-31 | 2008-03-19 | ダイキン工業株式会社 | Shut-off valve support member and outdoor unit of air conditioner having the same |
KR101346904B1 (en) * | 2006-07-03 | 2013-12-31 | 엘지전자 주식회사 | Air conditioner |
US20100011803A1 (en) * | 2008-07-15 | 2010-01-21 | Johnson Controls Technology Company | Horizontal discharge air conditioning unit |
JP2010112667A (en) * | 2008-11-10 | 2010-05-20 | Mitsubishi Electric Corp | Air conditioner |
CN102333996B (en) * | 2009-02-26 | 2014-03-12 | Lg电子株式会社 | Air conditioner and outdoor unit |
IT1400737B1 (en) * | 2009-05-20 | 2013-07-02 | Sanyo Electric Co | EXTERNAL UNIT FOR HEAT EXCHANGE, PARTICULARLY IN HEAT EXCHANGERS AND SIMILAR. |
CN101995057A (en) * | 2009-08-24 | 2011-03-30 | 乐金电子(天津)电器有限公司 | Water-cooled portable air conditioner |
JP5152351B2 (en) * | 2011-01-18 | 2013-02-27 | ダイキン工業株式会社 | Air conditioner |
JP6404546B2 (en) * | 2013-01-18 | 2018-10-10 | 三菱電機株式会社 | Air conditioner outdoor unit |
-
2014
- 2014-12-26 EP EP14898356.2A patent/EP3059507B1/en active Active
- 2014-12-26 CN CN201480083279.2A patent/CN107003018B/en active Active
- 2014-12-26 WO PCT/JP2014/084490 patent/WO2016103442A1/en active Application Filing
- 2014-12-26 US US15/520,664 patent/US20170314794A1/en not_active Abandoned
- 2014-12-26 JP JP2016565796A patent/JP6227167B2/en active Active
-
2015
- 2015-10-10 CN CN201520784932.XU patent/CN205245389U/en active Active
Also Published As
Publication number | Publication date |
---|---|
CN205245389U (en) | 2016-05-18 |
WO2016103442A1 (en) | 2016-06-30 |
EP3059507A4 (en) | 2016-12-28 |
US20170314794A1 (en) | 2017-11-02 |
JPWO2016103442A1 (en) | 2017-05-25 |
EP3059507B1 (en) | 2018-03-14 |
CN107003018A (en) | 2017-08-01 |
CN107003018B (en) | 2020-06-26 |
JP6227167B2 (en) | 2017-11-08 |
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