Outdoor unit of an air conditioner
The air conditioner outdoor unit addresses wire sagging and insulation issues by using a divided housing with holding parts to keep wires parallel and above potential contact points, preventing insulation deterioration and breakage.
Patent Information
- Authority / Receiving Office
- JP · JP
- Patent Type
- Patents
- Current Assignee / Owner
- GENERAL CO LTD
- Filing Date
- 2025-03-28
- Publication Date
- 2026-06-30
Smart Images

Figure 0007882383000001_ABST
Abstract
Description
Technical Field
[0001] The present invention relates to an outdoor unit of an air conditioner.
Background Art
[0002] There is known an outdoor unit of an air conditioner in which an electric wire is drawn from an electric component box disposed above a machine room and is connected to a device or the like disposed below the machine room (Patent Document 1).
Prior Art Documents
Patent Documents
[0003]
Patent Document 1
Summary of the Invention
Problems to be Solved by the Invention
[0004] However, in the above technique, the electric wire hangs down from the electric component box, causing sag in the electric wire, and there is a risk that the electric wire may contact other members than the device to which the electric wire is connected. In the lower part of the machine room, there are devices or members that become hot, or devices or members that vibrate. If the sagging part of the electric wire contacts a device or member that becomes hot, the coating of the electric wire may deteriorate due to heat. Also, if the sagging part of the electric wire contacts a device or member that vibrates, the electric wire may hit the device or member with each vibration, causing the coating to break or the wire to break.
[0005] The disclosed technique has been made in view of the above, and an object thereof is to provide an outdoor unit of an air conditioner that suppresses deterioration of the coating of an electric wire due to heat, breakage of the coating of an electric wire due to contact, and disconnection of the electric wire.
Means for Solving the Problems
[0006] One embodiment of the outdoor unit of an air conditioner disclosed in this application comprises a housing whose interior is divided into a blower room and a machine room, a compressor located in the machine room, an electrical unit located above the compressor, a lower unit located below the machine room, and a plurality of holding parts for holding electric wires connecting the electrical unit and the lower unit. Multiple holding parts hold the same electric wire. The machine room contains vibrating members and high-temperature members. That is The target member is positioned. Multiple holding parts are positioned above the target member, and the distance between the holding parts positioned at both ends in the direction of arrangement of the multiple holding parts is greater than the distance between the ends of the upper proximity portion of the target member, which is the part of the target member closest to the electric wire held by the multiple holding parts. [Effects of the Invention]
[0007] According to one embodiment of the outdoor unit of an air conditioner disclosed in this application, deterioration of the wire insulation due to heat, tearing of the wire insulation due to contact, and breakage of the wire can be suppressed. [Brief explanation of the drawing]
[0008] [Figure 1] Figure 1 is a refrigerant circuit diagram for an air conditioner. [Figure 2] Figure 2 is an exploded view showing a portion of the outdoor unit disassembled. [Figure 3] Figure 3 is a right side view of the outdoor unit with a portion of the casing removed. [Figure 4] Figure 4 is a front view of the machine room of the outdoor unit with part of the casing removed. [Figure 5] Figure 5 is a cross-sectional view of the VV section of Figure 4. [Figure 6] Figure 6 is a perspective view showing the area around the holding part. [Modes for carrying out the invention]
[0009] The following describes in detail, with reference to the drawings, an embodiment of the outdoor unit of the air conditioner disclosed in this application. However, the following embodiment does not limit the outdoor unit of the air conditioner disclosed in this application.
[0010] <Air Conditioner Configuration> Figure 1 is a refrigerant circuit diagram of air conditioner 1. Air conditioner 1 comprises an outdoor unit 2 and an indoor unit 3. Air conditioner 1 cools or heats the room in which the indoor unit 3 is located by circulating the refrigerant between the indoor unit 3 and the outdoor unit 2.
[0011] The indoor unit 3 comprises an indoor heat exchanger 4 and an indoor fan 5. The outdoor unit 2 comprises a compressor 7, a four-way valve 8, an outdoor heat exchanger 9, an outdoor fan 10, an expansion valve 11, and an accumulator 12. The air conditioner 1 has the compressor 7, four-way valve 8, outdoor heat exchanger 9, expansion valve 11, indoor heat exchanger 4, and accumulator 12 connected by refrigerant piping 13 to form a refrigerant circuit 14.
[0012] The indoor heat exchanger 4 exchanges heat between the refrigerant and the indoor air drawn into the indoor unit 3. The indoor air is drawn into the indoor unit 3 by the rotation of the indoor fan 5. When the air conditioner 1 is in cooling operation, the indoor heat exchanger 4 functions as an evaporator. When the air conditioner 1 is in heating operation, the indoor heat exchanger 4 functions as a condenser.
[0013] The indoor fan 5 is positioned near the indoor heat exchanger 4. The indoor fan 5 rotates using a fan motor (not shown) to draw air into the indoor unit 3. As the fan motor rotates, the indoor fan 5 blows out the indoor air that has undergone heat exchange with the refrigerant by the indoor heat exchanger 4 into the room.
[0014] The compressor 7 is, for example, a variable-capacity compressor whose operating capacity can be changed. A four-way valve 8 is connected to the refrigerant discharge side of the compressor 7. An accumulator 12 is connected to the refrigerant suction side of the compressor 7.
[0015] The four-way valve 8 is a valve for switching the direction in which the refrigerant flows in the refrigerant circuit 14. The four-way valve 8 includes a first port 8a, a second port 8b, a third port 8c, and a fourth port 8d. The first port 8a is connected to the refrigerant discharge side of the compressor 7. The second port 8b is connected to one refrigerant inlet / outlet of the outdoor heat exchanger 9. The third port 8c is connected to the refrigerant inflow side of the accumulator 12. The fourth port 8d is connected to one refrigerant inlet / outlet of the indoor heat exchanger 4.
[0016] The outdoor heat exchanger 9 exchanges heat between the refrigerant and the outdoor air taken into the interior of the outdoor unit 2. The outdoor air is taken into the interior of the outdoor unit 2 by the rotation of the outdoor fan 10. When the air conditioner 1 performs a cooling operation, the outdoor heat exchanger 9 functions as a condenser. When the air conditioner 1 performs a heating operation, the outdoor heat exchanger 9 functions as an evaporator.
[0017] The outdoor fan 10 is disposed in the vicinity of the outdoor heat exchanger 9. The outdoor fan 10 takes in outside air into the interior of the outdoor unit 2 by rotating by means of a fan motor (not shown). The outdoor fan 10 discharges the outside air that has exchanged heat with the refrigerant by the outdoor heat exchanger 9 to the outside of the outdoor unit 2 by the rotation of the fan motor.
[0018] One refrigerant inlet / outlet of the expansion valve 11 is connected to the other refrigerant inlet / outlet of the outdoor heat exchanger 9, and the other refrigerant inlet / outlet is connected to the other refrigerant inlet / outlet of the indoor heat exchanger 4. The expansion valve 11 is, for example, an electronic expansion valve. The expansion valve 11 adjusts the valve opening degree to decompress (expand) the refrigerant passing through the expansion valve 11 and adjusts the amount of refrigerant flowing into the indoor unit 3.
[0019] The refrigerant inflow side of the accumulator 12 is connected to the third port 8c of the four-way valve 8, and the refrigerant outflow side of the accumulator 12 is connected to the refrigerant suction side of the compressor 7. The accumulator 12 is formed as a hollow pressure vessel. The accumulator 12 separates the refrigerant flowing into the interior into gas refrigerant and liquid refrigerant. The accumulator 12 allows only the separated gas refrigerant to be sucked into the compressor 7.
[0020] <Air conditioner operation> The operation of air conditioner 1 will now be explained. In Figure 1, the refrigerant flow when air conditioner 1 is operating in heating mode is shown by dashed arrows. The refrigerant flow when air conditioner 1 is operating in cooling mode is shown by solid arrows.
[0021] When the air conditioner 1 is operating in heating mode, the four-way valve 8 connects the first port 8a and the fourth port 8d, and also connects the second port 8b and the third port 8c. When the air conditioner 1 is operating in heating mode, the refrigerant discharged from the compressor 7 flows into the first port 8a of the four-way valve 8 and into the indoor heat exchanger 4 from the fourth port 8d of the four-way valve 8. The refrigerant that flows into the indoor heat exchanger 4 condenses by exchanging heat with the indoor air taken into the indoor unit 3. The indoor air, warmed by the heat exchange with the refrigerant, is blown into the room from the indoor unit 3.
[0022] The refrigerant, condensed by the indoor heat exchanger 4, passes through the expansion valve 11, is depressurized, and then flows into the outdoor heat exchanger 9. The refrigerant that flows into the outdoor heat exchanger 9 evaporates by exchanging heat with the outside air that flows into the outdoor unit 2. The refrigerant evaporated by the outdoor heat exchanger 9 flows into the second port 8b of the four-way valve 8, flows out from the third port 8c of the four-way valve 8, passes through the accumulator 12, is drawn into the compressor 7, and is compressed again.
[0023] When the air conditioner 1 is in cooling operation, the four-way valve 8 connects the first port 8a and the second port 8b, and also connects the third port 8c and the fourth port 8d. When the air conditioner 1 is in cooling operation, the refrigerant discharged from the compressor 7 flows into the first port 8a of the four-way valve 8 and flows into the outdoor heat exchanger 9 from the second port 8b of the four-way valve 8. The refrigerant that flows into the outdoor heat exchanger 9 condenses by exchanging heat with the outside air taken in by the outdoor unit 2.
[0024] The refrigerant condensed by the outdoor heat exchanger 9 passes through the expansion valve 11, is depressurized, and then flows into the indoor heat exchanger 4. The refrigerant that flows into the indoor heat exchanger 4 evaporates by exchanging heat with the indoor air taken in by the indoor unit 3. The indoor air cooled by the heat exchange with the refrigerant is then blown out into the room from the indoor unit 3.
[0025] The refrigerant evaporated by the indoor heat exchanger 4 flows into the fourth port 8d of the four-way valve 8, flows out from the third port 8c of the four-way valve 8, passes through the accumulator 12, is drawn into the compressor 7, and is compressed again.
[0026] <Outdoor unit configuration> Next, the configuration of the outdoor unit 2 will be described. Figure 2 is an exploded view showing a part of the outdoor unit 2. The outdoor unit 2 houses the compressor 7, four-way valve 8 (see Figure 3), outdoor heat exchanger 9, outdoor fan 10, expansion valve 11 (see Figure 3), and accumulator 12 (see Figure 3) in the housing 20.
[0027] In the following, when the outdoor unit 2 is placed on a horizontal mounting surface G (see Figure 3), the vertical direction will be defined as downward, and the direction opposite to the vertical direction will be defined as upward. Furthermore, the direction in which air is blown out by the outdoor fan 10 of the outdoor unit 2 will be defined as forward, and the direction opposite to forward will be defined as backward. In addition, the direction perpendicular to the vertical and backward directions will be defined as the left-right direction. When viewing the outdoor unit 2 from the front, the right side will be defined as the right direction, and the left side will be defined as the left direction.
[0028] The enclosure 20 is formed in the shape of a rectangular box, with its width (left-right) dimension being greater than its depth (front-to-back) dimension. The enclosure 20 comprises a bottom plate 21, a top panel 22, a first side panel 23, and a second side panel 24. The bottom plate 21 is positioned facing the mounting surface G. The top panel 22 is positioned above the bottom plate 21. The top panel 22 is positioned facing the bottom plate 21.
[0029] The first side panel 23 connects the bottom plate 21 and the top panel 22. The first side panel 23 is formed to bend in an L-shape when viewed from above. The first side panel 23 comprises a left side panel 23a and a front panel 23b. The left side panel 23a forms the left side of the outdoor unit 2.
[0030] The front panel 23b forms the front of the outdoor unit 2. An air outlet 23c is formed on the front panel 23b. The air outlet 23c is positioned in front of the outdoor fan 10. The air outlet 23c is designed to blow out outside air that has undergone heat exchange by the outdoor heat exchanger 9 to the outside of the outdoor unit 2. A fan guard 25 is provided on the front panel 23b. The fan guard 25 is provided so as to cover the air outlet 23c.
[0031] The first side panel 23 is detachably fixed to the bottom plate 21 and the top panel 22, and can be removed during maintenance and replacement of the outdoor fan 10, outdoor heat exchanger 9, compressor 7, etc. With the first side panel 23 removed, the outdoor fan 10, outdoor heat exchanger 9, compressor 7, etc. can be accessed from the front during maintenance.
[0032] The second side panel 24 connects the bottom plate 21 and the top panel 22. The second side panel 24 is formed to bend in an L-shape when viewed from above. The second side panel 24 comprises a right side panel 24a and a rear panel 24b. The right side panel 24a forms the right side of the outdoor unit 2. The rear panel 24b forms a part of the rear of the outdoor unit 2.
[0033] The second side panel 24 is detachably fixed to the bottom plate 21 and the top panel 22, and is removed during maintenance and replacement of the four-way valve 8 and the expansion valve 11. With the second side panel 24 removed, the four-way valve 8 and the expansion valve 11 can be accessed from the right side during maintenance.
[0034] The interior of the enclosure 20 is divided into a blower room 28 and a machine room 29 by a partition plate 26. The blower room 28 and the machine room 29 are aligned in the left-right direction. An electrical unit 30 (electrical section) is installed above the partition plate 26. Specifically, the electrical unit 30 is installed between the upper end of the partition plate 26 and the top panel 22. The electrical unit 30 is installed across both the blower room 28 and the machine room 29.
[0035] The electrical unit 30 includes a power supply board (not shown) that supplies drive power to each device of the outdoor unit 2, and a control board 31 (see Figure 5) that controls each device of the outdoor unit 2 and communicates with the indoor unit 3. The electrical unit 30 is provided with multiple connectors 33 to which multiple wires 32 (hereinafter referred to as "electric wires 32") such as power lines (connecting the external AC power supply to the power supply board) and control lines (connecting each device to the control board 31) are connected. Each connector 33 is provided in such a way that it can be easily accessed when the first side panel 23 is removed. The connectors 33 are provided on one end in the front-to-back direction. Specifically, the connectors 33 are provided on the front side of the electrical unit 30.
[0036] The fan room 28 houses the outdoor heat exchanger 9 and the outdoor fan 10, etc. The machine room 29 houses a part of the outdoor heat exchanger 9, the compressor 7, the four-way valve 8, the expansion valve 11, the accumulator 12, the terminal block 35, the terminal block fixing part 36, etc., as shown in Figure 3. Figure 3 is a right side view of the outdoor unit 2 with a part of the housing 20 removed.
[0037] The compressor 7 is located on the front side of the machine room 29. The compressor 7 is mounted on the bottom plate 21. An electrical unit 30 is located above the compressor 7. The accumulator 12 is located behind the compressor 7. The four-way valve 8 is located above the compressor 7 and the accumulator 12.
[0038] The expansion valve 11 is positioned behind the accumulator 12. The expansion valve 11 is positioned on the rear side of the machine room 29. The expansion valve 11 is positioned at the bottom (downward side) of the machine room 29.
[0039] The terminal block 35 is positioned above the compressor 7. The terminal block 35 is positioned below the electrical unit 30. In other words, the terminal block 35 is positioned between the compressor 7 and the electrical unit 30 in the vertical direction. The terminal block 35 is connected to an external AC power supply (not shown) via a power cable (not shown). The terminal block 35 is connected to the power supply board of the electrical unit 30 via a high-voltage cable (not shown).
[0040] The terminal block fixing portion 36 is positioned above the compressor 7. The terminal block fixing portion 36 is attached, for example, to the electrical unit 30. The terminal block fixing portion 36 is formed, for example, by pressing a metal plate.
[0041] A terminal block 35 is fixed to the terminal block fixing portion 36. Specifically, the terminal block 35 is fixed to the surface 36a of the terminal block fixing portion 36. That is, the surface 36a is the mounting surface to which the terminal block 35 is attached. The surface 36a is positioned to face the right side panel 24a of the second side panel 24 (see Figure 4). When the second side panel 24 is not attached, the surface 36a is formed such that the terminal block 35 faces forward when the terminal block fixing portion 36 is viewed from the right side of the housing 20. The surface 36a is inclined so that its upper end is located to the left of its lower end.
[0042] The terminal block 35 is fixed to the surface 36a of the terminal block fixing portion 36 by a screw member 38. The screw member 38 penetrates the terminal block fixing portion 36 from the surface 36a to the back surface 36b (see Figure 4). The back surface 36b is the surface opposite to the surface 36a.
[0043] A holding portion 40 is provided on the terminal block fixing portion 36, as shown in Figure 4. Specifically, the holding portion 40 is attached to the back surface 36b of the terminal block fixing portion 36. The holding portion 40 holds the electric wires 32a and 32b that connect the electrical unit 30 and the lower device 41 of the machine room 29. Figure 4 is a front view of the machine room 29 of the outdoor unit 2 with a part of the housing 20 removed.
[0044] The lower device 41 is located on the opposite side of the connector 33 of the electrical unit 30 in the front-rear direction. Specifically, as shown in Figure 3, the lower device 41 is located on the rear side of the machine room 29. Furthermore, the lower device 41 is located below the machine room 29. For example, the lower device 41 is located below the target member 44, which will be described later.
[0045] The lower device 41 includes, for example, an expansion valve 11 and a temperature sensor 42. The temperature sensor 42 is installed in the refrigerant piping 13a connecting the expansion valve 11 and the outdoor heat exchanger 9. The temperature sensor 42 detects the temperature of the refrigerant flowing from the expansion valve 11 to the outdoor heat exchanger 9, or from the outdoor heat exchanger 9 to the expansion valve 11. The wire 32a connects the control board 31 of the electrical unit 30 to the expansion valve 11. The wire 32b connects the control board 31 of the electrical unit 30 to the temperature sensor 42. However, the lower device 41 is not limited to these. The lower device 41 includes various devices depending on the arrangement of each component in the machine room 29.
[0046] As shown in Figure 4, the holding portion 40 is provided on the back surface 36b of the terminal block fixing portion 36. The holding portion 40 is formed in a C-shape when viewed from, for example, the front or back direction. However, the shape of the holding portion 40 is not limited to a C-shape; it can be a U-shape, a J-shape, or any other shape that can hold the electric wires 32a and 32b.
[0047] Multiple holding parts 40 are provided. The multiple holding parts 40 are arranged in the front-to-back direction, as shown in Figure 5. Two holding parts 40 are provided in the front-to-back direction. The number of holding parts 40 is not limited to two. Three or more holding parts 40 may be provided. Figure 5 is a cross-sectional view of Figure 4, VV.
[0048] Multiple holding parts 40 hold the electric wires 32a and 32b. The multiple holding parts 40 hold the electric wires 32a and 32b such that the electric wires 32a and 32b between the multiple holding parts 40 are parallel to the installation surface G (see Figure 4) of the outdoor unit 2. Parallel to the installation surface G means that the electric wires 32a and 32b do not sag between the multiple holding parts 40. By holding the electric wires 32a and 32b parallel to the installation surface G with spacing between the multiple holding parts 40 in this way, even if the electric wires 32a and 32b shift slightly in the front-rear direction due to vibration, the electric wires 32a and 32b can maintain a state of not sagging, and contact between the electric wires 32a and 32b and the target member 44 can be suppressed.
[0049] Multiple holding parts 40 are positioned above the target member 44. The target member 44 is a member that, when the electric wires 32a and 32b become slack, may come into contact with the electric wires 32a and 32b, potentially causing deterioration or tearing of the insulation of the electric wires 32a and 32b, or causing the electric wires 32a and 32b to break. The target member 44 includes at least one of a vibrating member and a high-temperature member.
[0050] A vibrating member is a component that, when it comes into contact with the electric wires 32a and 32b, may cause the insulation of the electric wires 32a and 32b to tear or the electric wires 32a and 32b to break due to beating caused by its own vibration. A vibrating member is, for example, a component that vibrates when the air conditioner 1 is operating, or a component that is directly connected to a vibrating member. A vibrating member may also be a component that comes into contact with the electric wires 32a and 32b due to vibrations when the outdoor unit 2 is being transported, and may cause the insulation of the electric wires 32a and 32b to tear or the electric wires 32a and 32b to break.
[0051] High-temperature components are components that may degrade the electric wires 32a and 32b due to heat. High-temperature components are components that reach a predetermined temperature or higher when the air conditioner 1 is operating. The predetermined temperature is a temperature that has been set in advance. The insulation of the electric wires 32a and 32b has a predetermined heat resistance temperature, and the predetermined temperature is a temperature that is equal to or higher than the heat resistance temperature of the electric wires 32a and 32b.
[0052] The target component 44 is positioned between the front side of the electrical unit 30 and the lower device 41. The target component 44 is, for example, a compressor 7, which is a vibrating component, and a refrigerant pipe 13b through which the refrigerant discharged from the compressor 7 flows. The compressor 7 vibrates when it is driven, and the refrigerant pipe 13b connected to the compressor 7 also vibrates as the vibration of the compressor 7 is transmitted to it. Furthermore, the target component 44 is, for example, a high-temperature component, the compressor 7, and a refrigerant pipe 13b through which the refrigerant discharged from the compressor 7 flows. Since the refrigerant discharged from the compressor 7 is at a high temperature, the refrigerant pipe 13b also becomes hot along with the compressor 7.
[0053] As shown in Figure 5, the holding portion 40 is configured such that the distance L1 between the holding portions 40 located at both ends in the front-rear direction is greater than the distance L2 between the ends of the upper adjacent portion 44a of the target member 44.
[0054] The upper proximity portion 44a is a portion of the target member 44 that is close to the electric wires 32a and 32b held by multiple holding portions 40. Specifically, the upper proximity portion 44a is a portion of the target member 44 that protrudes upward and is a portion that is highly likely to come into contact with the electric wires 32a and 32b if they become slack. For example, the upper proximity portion 44a includes portions of the refrigerant piping 13b near the vertices 13c and 13d of the upwardly curved portion.
[0055] The distance L2 between the two ends of the upper adjacent portion 44a in the target member 44 is the distance between the two ends of the upper adjacent portion 44a in the direction of arrangement of the multiple holding portions 40. That is, the distance L2 between the two ends of the upper adjacent portion 44a in the target member 44 is the distance between the two ends of the upper adjacent portion 44a in the front-rear direction. Specifically, the distance L2 between the two ends of the upper adjacent portion 44a in the target member 44 is the distance between the frontmost upper adjacent portion 44a and the rearmost upper adjacent portion 44a. For example, the distance L2 between the two ends of the upper adjacent portion 44a in the target member 44 is the distance between the vertices 13c and 13d of the refrigerant piping 13b.
[0056] Of the multiple holding parts 40, the holding parts 40 located at both ends are positioned outside the upper adjacent portion 44a in the arrangement direction of the holding parts 40. Specifically, the holding part 40 located at the front end is positioned forward of the apex 13c of the refrigerant pipe 13b. The holding part 40 located at the rear end is positioned behind the apex 13d of the refrigerant pipe 13b.
[0057] As shown in Figure 6, the multiple holding parts 40 are arranged so that the fixed electric wires 32a and 32b do not come into contact with the screw members 38 that fix the terminal block 35 (see Figure 3) to the terminal block fixing part 36. Specifically, the multiple holding parts 40 are arranged so that the protruding part 38a of the screw member 38, which protrudes from the back surface 36b of the terminal block fixing part 36, does not come into contact with the electric wires 32a and 32b. For example, the multiple holding parts 40 are arranged so that the distance between the electric wires 32a and 32b, which are parallel to the installation surface G, and the protruding part 38a of the screw member 38 is greater than or equal to a predetermined distance. The predetermined distance is a distance set in advance, which is the distance at which the electric wires 32a and 32b and the protruding part 38a of the screw member 38 do not come into contact, for example, 4 mm. Figure 6 is a perspective view showing the vicinity of the holding parts 40. Furthermore, if the distance between the electric wires 32a and 32b and the protruding portion 38a of the screw member 38 is greater than or equal to a predetermined distance, the electric wires 32a and 32b do not necessarily have to be parallel to the installation surface G between the multiple holding portions 40.
[0058] As shown in Figure 5, the electric wires 32a and 32b are connected from the connector 33 (see Figure 4) of the electrical unit 30, through a plurality of holding parts 40, to the lower device 41 (see Figure 3). One end of the electric wires 32a and 32b is connected to the front side of the electrical unit 30. The other end of the electric wires 32a and 32b is connected to the lower device 41 (see Figure 3). The electric wires 32a and 32b are routed so as to pass over the target member 44 and are connected to the connector 33 of the electrical unit 30 and the lower device 41.
[0059] The outdoor unit 2 of the air conditioner 1 comprises a housing 20, a compressor 7, an electrical unit 30, a lower unit 41, and a plurality of holding parts 40. The housing 20 is divided internally into a blower room 28 and a machine room 29. The compressor 7 is located in the machine room 29. The electrical unit 30 is located above the compressor 7. The lower unit 41 is located below the machine room 29. The plurality of holding parts 40 hold the electric wires 32a and 32b that connect the electrical unit 30 and the lower unit 41. The machine room 29 houses a target member 44 which includes at least one of a vibrating member and a high-temperature member. The plurality of holding parts 40 are located above the target member 44. In the arrangement direction of the plurality of holding parts 40, the distance between the holding parts 40 located at both ends is greater than the distance between the ends of the upper proximity portion 44a, which is the part of the target member 44 closest to the electric wires 32a and 32b held by the plurality of holding parts 40.
[0060] As a result, the outdoor unit 2 of the air conditioner 1 can prevent the wires 32a and 32b from sagging and prevent the wires 32a and 32b, which are fixed by the multiple holding parts 40, from coming into contact with the upper adjacent part 44a. For example, since the wires 32a and 32b are held parallel to the installation surface G by the multiple holding parts 40 and do not sag, even if the target member 44 vibrates, it is possible to prevent the wires 32a and 32b from coming into contact with the target member 44. Therefore, the outdoor unit 2 can prevent the insulation of the wires 32a and 32b from deteriorating due to the heat of the target member 44. In addition, the outdoor unit 2 can prevent the insulation from tearing or the wires 32a and 32b from coming into contact with the target member 44.
[0061] The multiple holding parts 40 hold the electric wires 32a and 32b such that the electric wires 32a and 32b between the multiple holding parts 40 are parallel to the installation surface G of the outdoor unit 2.
[0062] This prevents the wires 32a and 32b from sagging and, because the wires 32a and 32b are parallel to the installation surface G of the outdoor unit 2, it prevents the wires 32a and 32b from slipping off the holding part 40. Furthermore, even if the wires 32a and 32b shift slightly in the front-to-back direction due to vibration, they can maintain a state where they do not sag. This prevents the wires 32a and 32b from coming into contact with the target member 44. Therefore, the outdoor unit 2 can prevent the insulation of the wires 32a and 32b from deteriorating due to heat. In addition, the outdoor unit 2 can prevent the wires 32a and 32b from coming into contact with the target member 44, which could cause the insulation to tear or the wires 32a and 32b to break.
[0063] The retaining parts 40 located at both ends of the multiple retaining parts 40 are positioned outside the upper adjacent part 44a in the front-to-back direction, which is the arrangement direction of the multiple retaining parts 40.
[0064] As a result, the outdoor unit 2 can prevent the electric wires 32a and 32b from coming into contact with the upper, adjacent portion 44a of the target component 44. Therefore, the outdoor unit 2 can prevent the insulation of the electric wires 32a and 32b from deteriorating due to heat. In addition, the outdoor unit 2 can prevent the electric wires 32a and 32b from coming into contact with the target component 44, which could cause the insulation to tear or the electric wires 32a and 32b to break.
[0065] The outdoor unit 2 includes a terminal block 35 and a terminal block fixing part 36. The terminal block 35 is positioned vertically between the compressor 7 and the electrical unit 30. The terminal block fixing part 36 is used to fix the terminal block 35. Multiple retaining parts 40 are provided on the terminal block fixing part 36.
[0066] Multiple holding parts 40 provided on the terminal block fixing part 36 can hold the electric wires 32a and 32b. Therefore, contact between the electric wires 32a and 32b and the upper adjacent part 44a of the target member 44 can be suppressed. Consequently, the outdoor unit 2 can suppress deterioration of the insulation of the electric wires 32a and 32b due to heat. In addition, the outdoor unit 2 can suppress contact between the electric wires 32a and 32b and the target member 44, which could cause tearing of the insulation or breakage of the electric wires 32a and 32b.
[0067] The terminal block 35 is fixed to the surface 36a of the terminal block fixing portion 36 by a screw member 38. Multiple holding portions 40 are provided on the back surface 36b opposite to the surface 36a. The screw member 38 penetrates the terminal block fixing portion 36 from the surface 36a to the back surface 36b. The distance between the protruding portion 38a of the screw member 38 protruding from the back surface 36b and the electric wires 32a, 32b between the multiple holding portions 40 is greater than or equal to a predetermined distance.
[0068] This prevents the outdoor unit 2 from coming into contact with the screw member 38 and the electric wires 32a and 32b, and prevents the insulation of the electric wires 32a and 32b from being torn by the screw member 38.
[0069] The electric wires 32a and 32b are connected at one end to the front side of the electrical unit 30 and at the other end to the lower device 41 located at the rear of the machine room 29. The target member 44 is positioned between the front side of the electrical unit 30 and the lower device 41. The electric wires 32a and 32b are routed so as to pass over the target member 44.
[0070] By routing the electric wires 32a and 32b so as to avoid the target member 44, it is possible to connect the lower device 41 located at the rear of the machine room 29 with the front of the control board 31 using the electric wires 32a and 32b, while preventing the electric wires 32a and 32b from coming into contact with the target member 44.
[0071] In the above embodiment, an example was described in which the terminal block 35 is fixed to the terminal block fixing part 36 by a screw member 38, but the invention is not limited to this. The terminal block 35 may also be fixed to the terminal block fixing part 36 by an engagement mechanism such as a claw. In this case, the plurality of holding parts 40 are provided so that the protruding parts such as claws do not come into contact with the electric wires 32a and 32b.
[0072] The air conditioner 1 described in the above embodiment may be an air conditioner that adjusts the room temperature by circulating a liquid that exchanges heat with a refrigerant, such as water.
[0073] Although examples have been described above, the examples are not limited to those described above. Furthermore, the components described above include those that can be easily imagined by a person skilled in the art, those that are substantially the same, and those that fall within the so-called equivalent range. Moreover, the components described above can be combined as appropriate. Furthermore, at least one of various omissions, substitutions, and modifications of the components can be made without departing from the gist of the examples. [Explanation of symbols]
[0074] 1. Air conditioner 2 Outdoor unit 3 Indoor unit 7 Compressor 8. Four-way valve 11 Expansion valve 13, 13a, 13b Refrigerant piping 20 cabinets 26 partition plates 28 Blower room 29 Machine room 30. Electrical Unit (Electrical Section) 32, 32a, 32b electric wire (wiring) 33 Connectors 35 Terminal block 36 Terminal block fixing part 36a surface 36b back side 38 Screw member 38a Protrusion 40 Holding part 41 Lower device 42 Temperature Sensor 44 Target components 44a Upper proximity area
Claims
1. The enclosure is divided into a blower room and a machine room, A compressor located in the aforementioned machine room, An electrical unit located above the compressor, A lower device located below the machine room, Multiple holding parts for holding the wires connecting the electrical equipment unit and the lower device. Equipped with, The aforementioned multiple holding parts hold the same electric wire, The machine room contains a vibrating member and a high-temperature member, which is the target member. The plurality of holding parts are arranged above the target member, An outdoor unit for an air conditioner, wherein the distance between the holding parts located at both ends in the arrangement direction of the plurality of holding parts is greater than the distance between the ends of the upper proximity portion, which is the part of the target member that is close to the electric wire held by the plurality of holding parts.
2. The outdoor unit of an air conditioner according to claim 1, wherein the plurality of holding parts are provided such that the electric wires held by the plurality of holding parts are parallel to the installation surface of the outdoor unit.
3. The outdoor unit of an air conditioner according to claim 1, wherein the retaining parts located at both ends of the plurality of retaining parts are located outside the upper adjacent parts in the arrangement direction of the plurality of retaining parts.
4. A terminal block positioned between the compressor and the electrical equipment unit in the vertical direction, The terminal block fixing part to which the terminal block is fixed and Equipped with, The plurality of holding parts are provided on the terminal block fixing part, as described in claim 1, for the outdoor unit of an air conditioner.
5. The terminal block is fixed to the surface of the terminal block fixing portion by a screw member. The plurality of holding parts are provided on the back surface opposite to the front surface, The screw member penetrates the terminal block fixing portion from the front surface to the back surface, The outdoor unit of an air conditioner according to claim 4, wherein the distance between the protruding portion of the screw member protruding from the back surface and the electric wire between the plurality of holding portions is greater than or equal to a predetermined distance.
6. The electric wire has one end connected to the front side of the electrical equipment unit and the other end connected to the lower device located at the rear of the machine room. The target member is positioned between the front side of the electrical component and the lower device. The outdoor unit of the air conditioner according to claim 1, wherein the electric wire is routed so as to pass over the target member.