JP2022047153A - Outdoor unit of air conditioner - Google Patents

Abstract

To provide an outdoor unit of an air conditioner capable of easily positioning an electric component box and a refrigerant cooling heat sink.SOLUTION: An outdoor unit of an air conditioner comprises an electric component box, and a waterproof cover that stores the electric component box while covering an upper surface, a side surface, and a back surface of the electric component box. The electric component box is provided with a claw portion hooking to a structure portion of the outdoor unit on an upper end side, and is provided with a box side projecting portion formed so as to extend in a vertical direction and projecting outward from the side surface, on the side surface. The waterproof cover has a cover side projecting portion formed so as to extend in the vertical direction and projecting inward from the side surface, on the side surface. The electric component box is disposed in the waterproof cover from a front surface side while the claw portion hooks to the structure portion of the outdoor unit, and is temporarily fixed while the box side projecting portion gets over the cover side projecting portion to suppress movement in a fore-and-aft direction, when being disposed in the waterproof cover.SELECTED DRAWING: Figure 11

Description

An embodiment of the present invention relates to an outdoor unit of an air conditioner.

The outdoor unit of the outdoor unit of the air conditioner is provided with various parts inside, including the electric parts box for accommodating the electric parts. Therefore, for example, Patent Document 1 proposes to improve maintenance efficiency.

China Utility Model Announcement No. 205137734

It is considered that the electric component box can be fixed by using the structure of the outdoor unit as in Patent Document 1.

However, in order to fix the upper end side and the lower end side of the electric component box, it is necessary to arrange structures above and below the electric component box, which requires space for that and limits the arrangement of other components. There is a risk of
Therefore, an outdoor unit of an air conditioner capable of temporarily fixing an electric component box is provided.

The outdoor unit of the air conditioner of the embodiment includes an electric parts box and a waterproof cover for accommodating the electric parts box so as to cover the upper surface, the side surface and the back surface of the electric parts box, and the electric parts box is the upper end thereof. On the side, a claw portion that hooks on the structural portion of the outdoor unit is provided, and on the side surface thereof, a box-side convex portion that is formed to extend in the vertical direction and protrudes outward from the side surface is provided. The waterproof cover has a cover-side convex portion formed on its side surface extending in the vertical direction and projecting inward from the side surface, and the electric parts box pulls the claw portion to the structural portion of the outdoor unit. It is placed in the waterproof cover from the front side in the hung state, and when it is placed in the waterproof cover, the box side convex part gets over the cover side convex part and the movement in the front-back direction is suppressed temporarily. It is fixed.

The figure which shows typically the structure of the outdoor unit in 1st Embodiment The figure which shows the composition of the electric component box and the waterproof cover schematically. A diagram schematically showing a state in which an electric component box is housed in a waterproof cover. The figure which shows the mounting state of the refrigerant cooling heat sink schematically. Schematic diagram of alignment of electrical component box and refrigerant cooling heat sink The figure which shows typically the structure of the waterproof cover in 2nd Embodiment The figure which shows the assembly mode of the waterproof cover schematically. The figure which shows the mounting state of the upper end side of an electric component box schematically. The figure which shows typically the structure of the electric component box in 3rd Embodiment The figure which shows typically the mounting mode of the electric component when the capacity is different. The figure which shows the assembly mode of the electric parts box schematically. The figure which shows typically the temporary fixing mode of an electric part.

Hereinafter, a plurality of embodiments will be described with reference to the drawings. Further, for the sake of simplification of the description, the same reference numerals are given to the parts common to each embodiment. Further, each embodiment is not limited to so-called air conditioning that adjusts the temperature in the room, but is also applied to applications that can be supported by a refrigerating cycle device such as a refrigerator for cooling equipment or cooling articles in a showcase. Can be done.
(First Embodiment)

Hereinafter, the first embodiment will be described. As shown in FIG. 1 as a front view, the outdoor unit 1 of the air conditioner of the present embodiment is formed in a substantially vertically long rectangular parallelepiped shape, and covers the electric parts box 2 and the electric parts box 2. The waterproof cover 3 and various pipes and parts constituting the refrigeration cycle are arranged inside the waterproof cover 3. These parts are compressors, heat exchangers, liquid receivers, accumulators, oil separators, fan devices, etc. that make up the refrigeration cycle, and utilize structures such as beams, pillars, and floors of the outdoor unit 1. Have been placed.

Further, as shown in FIG. 1 as a cross-sectional bottom view showing a cross-sectional view taken along the line AA, other parts and pipes are arranged on the side surface side and the back surface side of the electric component box 2 and the waterproof cover 3. It has become. That is, the electric component box 2 and the waterproof cover 3 are arranged in a state where the available space around them is relatively small. Although the inside of the outdoor unit 1 and the inside of the electric component box 2 are shown in FIG. 1 in a state where the inside of the outdoor unit 1 and the inside of the electric component box 2 can be seen, the front side of the outdoor unit 1 and the front side of the electric component box 2 are each closed by panels during operation. ing.

As shown in FIGS. 2 and 3, the electric component box 2 has a housing 4 formed of sheet metal in a substantially box shape, and various electric circuits constituting a control circuit, a drive circuit, and the like are contained therein. Contains parts. In the case of the present embodiment, in the electric component box 2, the right side in the front view is relatively short in the vertical direction, the left side is relatively long in the vertical direction, and the depth on the right side is relatively long, and the left side is relatively long. It is formed in a deformed box shape with a relatively short depth. Further, the electric component box 2 of the present embodiment is formed in a state where the lower surface is open.

Further, the electric component box 2 is used when assembling to the outdoor unit 1, and is provided with a claw portion 5 that is bent toward the rear. The details of the claw portion 5 will be described in the second embodiment described later, but the claw portion 5 is hooked on the claw engaging hole 6 which is a structural portion for mounting provided on the outdoor unit 1 side, whereby the electric component box is used. 2 is suspended and supported in a temporarily fixed state. Further, a barb portion 7 bent in the opposite direction to the claw portion 5 is formed at the tip of the claw portion 5, reducing the possibility that the claw portion 5 hooked when the electric component box 2 swings back and forth will come off. ing.

Further, the back surface of the electric component box 2 on the left side is closed by a heat-conducting sub-heat sink 8. The sub heat sink 8 will be described in detail in the third embodiment described later, but is configured to be replaceable according to the capacity of the outdoor unit 1. Therefore, the entire sub heat sink 8 can be attached to and detached from the housing 4, and electric components of different types and numbers are arranged according to the capacity of the outdoor unit 1.

Further, the electric component box 2 is provided with an air inlet 9 on the upper end side while the lower end side is open to serve as an air intake port. Therefore, when the electric parts generate heat during operation, the warmed air in the electric parts box 2 flows upward by natural convection and is discharged to the outside. In the present embodiment, the discharge port 9 is provided on the upper end side of the upper surface and the right side surface of the electric component box 2.

The electric component box 2 is arranged so that its upper surface, side surface, and back surface are covered with a waterproof cover 3 made of sheet metal. In the case of the present embodiment, the waterproof cover 3 is formed to be longer than the height of the electric component box 2, covers the entire upper surface, side surface, and back surface of the electric component box 2, and at least the upper surface, side surface, and back surface. On one side, it is arranged so that there is a gap between it and the electric component box 2.

Therefore, even if water invades the inner surface side of the waterproof cover 3, it is prevented from adhering to the electric component box 2 or entering the electric component box 2. Further, the waterproof cover 3 is provided with an exhaust port 10 for discharging the air warmed in the electric component box 2 to the outside, for example, on the back surface on the right side. Further, as shown in FIG. 4, the waterproof cover 3 has a plurality of fixing mounting holes 11 for fixing the waterproof cover 3 to the outdoor unit 1, and a plurality of parts used when mounting the electric component box 2. A box mounting hole 12 is provided. The arrangement and number of the fixing mounting holes 11 and the parts box mounting holes 12 shown in FIG. 4 are examples.

Then, the electric component box 2 is attached to the waterproof cover 3 in a predetermined positional relationship by using the component box attachment hole 12. In other words, the electric component box 2 is covered with the waterproof cover 3, and the position relative to the waterproof cover 3 is positioned, and the outdoor unit 1 is finally assembled. It is fixed in the position of.

Further, a refrigerant cooling heat sink 13 is attached to the waterproof cover 3 on the inner surface on the side on which the electric component box 2 is arranged so as to be in contact with the sub heat sink 8. Therefore, as will be described later, by attaching the electric component box 2 to the waterproof cover 3, the relative positions of the electric component box 2 and the refrigerant cooling heat sink 13 are finally positioned.

As shown in FIG. 4, the refrigerant cooling heat sink 13 is composed of a main body portion 13a formed in a plate shape and a refrigerant pipe 13b through which the refrigerant flows, and the waterproof cover is provided with the main body portion 13a vertically elongated. It is attached to 3. With the main body 13a arranged vertically, the refrigerant pipe 13b protrudes from below the main body 13a through the back surface of the main body 13a and from the upper end of the main body 13a, and then is bent into a U shape again to form the main body. It is arranged so as to extend below the main body portion 13a through the back surface of the portion 13a.

Then, in the refrigerant cooling heat sink 13, the refrigerant pipe 13b extending from below the main body portion 13a is attached to the waterproof cover 3 by the mounting member 14a, and the refrigerant pipe 13b is resinated at a portion bent above the main body portion 13a. It is attached to the waterproof cover 3 in a state of being temporarily fixed by the temporary fixing member 14b, which is a binding band made of the product. The mounting member 14a located below the refrigerant cooling heat sink 13 is composed of a rubber holding member 14a1 for holding the refrigerant pipe 13b and a metal binding band 14a2 wound around the outer periphery of the holding member, and the binding band is a screw 14a3. It is attached to the waterproof cover 3. On the other hand, the temporary fixing member 14b located above the refrigerant cooling heat sink 13 binds the mounting portion 14c provided on the waterproof cover 3 and the refrigerant pipe 13b together. Therefore, when the main body portion 13a is attached to the waterproof cover 3, the main body portion 13a is allowed to slightly tilt or move within the elastic range of the rubber of the refrigerant pipe 13b and the attachment member 14a.

The main body 13a is provided with a plurality of screw holes 13c in the central portion in the width direction along the longitudinal direction. Then, when the electric component box 2 is attached to the waterproof cover 3, the main body 13a is fixed to the electric component box 2 by being screwed from the inside of the electric component box 2 through the sub heat sink 8. In other words, the main body 13a of the refrigerant cooling heat sink 13 is not directly fixed to the waterproof cover 3.

Further, as shown in FIG. 5, the main body portion 13a is provided with a flat flat portion 13d in contact with the sub heat sink 8, and at both ends of the flat portion 13d in the width direction from the flat portion 13d to an electric component box. A chamfered portion 13e that is inclined to the opposite side to the second side is provided. The refrigerant pipe 13b is fixed to the main body portion 13a by being fitted into a groove 13f provided in the longitudinal direction on the side opposite to the flat portion 13d. As shown in FIG. 5, the main body portion 13a comes into contact with the guide portion 15 provided on the sub heat sink 8 when the electric component box 2 is assembled.

In the present embodiment, the guide portion 15 is provided on the back surface of the sub heat sink 8, and rises from the contact surface 15a with which the refrigerant cooling heat sink 13 contacts and the end portion of the contact surface 15a and is inclined toward the contact surface 15a. It has an inclined surface 15b. The inclined surface 15b is formed in a shape in which the inclination angle coincides with the chamfered portion 13e of the refrigerant cooling heat sink 13 within a predetermined accuracy range, and the chamfered portion 13e is also in a state where the flat portion 13d is in contact with the contact surface 15a. It is in contact with the inclined surface 15b. As a result, a larger contact area with the refrigerant cooling heat sink 13 can be secured.

By the way, as described above, the electric component box 2 is in a state where the back surface side in contact with the refrigerant cooling heat sink 13 is closed by the sub heat sink 8. Therefore, when the electric component box 2 is attached to the waterproof cover 3, it is difficult to visually check the refrigerant cooling heat sink 13 from the front side. If the positional relationship with the refrigerant cooling heat sink 13 is not properly positioned, the contact area with the sub heat sink 8 cannot be secured and the cooling efficiency may decrease.

However, from a realistic point of view, since the outdoor unit 1 is relatively large, it is not possible to secure the accuracy of positioning the housing 4 and the waterproof cover 3 of the electric component box 2 without providing so-called play. It's not easy. Therefore, it is difficult to accurately position their positional relationship by simply assembling the electric component box 2. On the other hand, if the refrigerant cooling heat sink 13 is fixed in advance and the electric component box 2 is positioned and attached to the electric component box 2, if the electric component box 2 is displaced, the refrigerant cooling heat sink 13 is temporarily removed. , It is necessary to adjust the position and then reattach it, which may reduce work efficiency.

Further, if the electric component box 2 is attached with a structure in which the refrigerant cooling heat sink 13 is not fixed, it is difficult to visually check the refrigerant cooling heat sink 13 as described above, and there is a possibility that the work efficiency may be lowered because it takes time to attach the electric component box 2. In addition, a space is required to make the refrigerant cooling heat sink 13 visible or to be fixed later, which may limit the arrangement of other parts.

Therefore, in the present embodiment, the chamfered portion 13e is provided on the main body portion 13a of the refrigerant cooling heat sink 13, and the guide portion 15 is provided on the back surface of the electric component box 2, that is, the portion in contact with the main body portion 13a. As a result, as shown in the pre-mounting state and the post-mounting state in FIG. 5, in the state before the electric component box 2 is mounted, the center position of the refrigerant cooling heat sink 13 shown as the virtual line CL1 and the guide portion shown as the virtual line CL2. Even if the center position of the 15 is slightly displaced in the left-right direction in the drawing, the main body portion 13a can be mounted on the inclined surface 15b by mounting the electric component box 2 in accordance with the component box mounting hole 12 as shown by the virtual line CL3. Is inclined and guided to the contact surface 15a side.

Then, the main body portion 13a is fixed in a predetermined positional relationship with the guide portion 15 in a state of being in close contact with the contact surface 15a while being corrected in inclination by screwing in order from the lower end side. As a result, the positional relationship between the main body portion 13a and the guide portion 15, that is, the relative position between the electric component box 2 and the refrigerant cooling heat sink 13 is positioned. In this case, by making the hole for passing the screw provided in the sub heat sink 8 a vertically long hole or a diameter larger than that of the screw, it is possible to absorb the deviation in the height direction from the main body portion 13a.

In this way, the electric component box 2 and the refrigerant cooling heat sink 13 are positioned by attaching the electric component box 2 to the waterproof cover 3, and the electric component box 2 and the refrigerant are screwed by screwing the main body portion 13a of the refrigerant cooling heat sink 13. The cooling heat sink 13 is strictly positioned. That is, by providing the waterproof cover 3 and attaching the refrigerant cooling heat sink 13 to the waterproof cover 3, the positional relationship between the refrigerant cooling heat sink 13 and the electric component box 2 can be positioned.
According to the embodiment described above, the following effects can be obtained.

The outdoor unit 1 of the air conditioner of the embodiment includes a box-shaped electric component box 2, a waterproof cover 3 that covers the electrical component box 2, and a refrigerant cooling heat sink 13 that contacts the back surface of the electrical component box 2. It is equipped with. The refrigerant cooling heat sink 13 is attached to the inner surface of the waterproof cover 3, and the electrical component box 2 is attached to a predetermined position with respect to the waterproof cover 3 so that the position is relative to the refrigerant cooling heat sink 13. Is positioned.

As described above, by attaching the refrigerant cooling heat sink 13 to the waterproof cover 3 and attaching the electric component box 2 to the waterproof cover 3, the refrigerant cooling heat sink 13 is provided when it is difficult to directly see it. Even so, the relative positions of the electric component box 2 and the refrigerant cooling heat sink 13 can be positioned.

Further, the electric component box 2 rises from the contact surface 15a with which the refrigerant cooling heat sink 13 contacts and the end portion of the contact surface 15a on the side where the refrigerant cooling heat sink 13 contacts, and is inclined toward the contact surface 15a. A guide portion 15 having an inclined surface 15b is provided.

As a result, when the electric component box 2 is attached to the waterproof cover 3, the refrigerant cooling heat sink 13 is guided to the contact surface 15a side by the guide portion 15 and comes into contact with the contact surface 15a at an appropriate position, that is, the cooling efficiency is improved. Can be secured.

Further, the refrigerant cooling heat sink 13 of the present embodiment is formed in a plate shape and has a flat portion 13d in contact with the contact surface 15a and chamfered portions 13e provided at both ends of the flat portion 13d in the width direction. is doing. As a result, the main body portion 13a is easily guided by the guide portion 15. At this time, since the inclination of the chamfered portion 13e is substantially the same as that of the inclined surface 15b of the guide portion 15, the chamfered portion 13e and the inclined surface 15b also come into contact with each other, and the cooling efficiency can be improved.

Further, the refrigerant cooling heat sink 13 has a main body portion 13a that contacts the electric component box 2 and a refrigerant pipe 13b through which the refrigerant flows. Then, the refrigerant pipe 13b is attached by fixing the refrigerant pipe 13b to the waterproof cover 3 by the attachment member 14a. As a result, the refrigerant cooling heat sink 13 can be attached to a predetermined position of the waterproof cover 3, and the positional relationship with the electric component box 2 can be made appropriate.

At this time, by providing a screw hole in the main body 13a and screwing it from the inside of the electric component box 2 as in the present embodiment, the position of the main body 13a may be slightly displaced or the main body 13a may be slightly tilted. Even in this case, the main body portion 13a can be arranged at an appropriate position while correcting the misalignment and inclination.

Further, the main body 13a of the refrigerant cooling heat sink 13 has a structure that is not directly fixed to the waterproof cover 3. As a result, it is possible to suppress the vibration from the compressor or the like during operation from being transmitted to the electric component box 2.

Further, the electric component box 2 is covered with a gap between it and the inner surface of the waterproof cover 3. As a result, even if water invades the inner surface of the waterproof cover 3, it can be prevented from invading the electric component box 2.
(Second Embodiment)

Hereinafter, the second embodiment will be described. In the second embodiment, the details of the structure of the waterproof cover 3 will be described. As described in the first embodiment, the waterproof cover 3 protects the electric component box 2 from the intrusion of water by covering the upper surface, the side surface, and the back surface of the electric component box 2 formed in a box shape. ..

At this time, around the electric component box 2 and the waterproof cover 3, other components and pipes are arranged on the side surface side and the back surface side thereof as described in the first embodiment. Since the electric component box 2 needs to be arranged in contact with the refrigerant cooling heat sink 13, when the waterproof cover 3 is arranged, the waterproof cover 3 is provided with the refrigerant cooling heat sink 13 and other parts and pipes. It is necessary to install it between.

However, as shown in FIG. 2, since the waterproof cover 3 is formed in a shape capable of accommodating the electric component box 2 although the front side is open, the waterproof cover 3 and the refrigerant cooling heat sink 13 remain in that shape. It is difficult to place it between other parts. Further, when the waterproof cover 3 has a shape capable of accommodating the electric parts box 2, since it blocks the upper side, the left side, and the right side of the refrigerant cooling heat sink 13, the refrigerant cooling heat sink 13 is installed after the waterproof cover 3 is installed. It is also difficult to install.

Therefore, as shown in FIG. 6, the waterproof cover 3 of the present embodiment covers the top plate 3a that covers the upper surface of the electric component box 2 and the left side surface to a part of the back surface of the electric component box 2. It is composed of a left side plate 3b and a right side plate 3c that covers from the right side surface of the electric component box 2 to a part of the back surface. That is, the waterproof cover 3 can be divided and assembled. At this time, each plate is formed of sheet metal.

Then, when assembling the waterproof cover 3 to the outdoor unit 1, first, the top plate 3a and the left side plate 3b are assembled in advance, that is, the right side portion of the waterproof cover 3 is released, as shown in FIG. As shown in the left assembled state, the left plate 3b is attached and fixed while being inserted between the refrigerant cooling heat sink 13 and other parts. After that, the right side plate 3c is fixed to the top plate 3a and the left side plate 3b as shown in FIG. 7 as the right side assembled state. As a result, the waterproof cover 3 can be easily assembled with the left side plate 3b arranged between the refrigerant cooling heat sink 13 and other parts.

By the way, in the waterproof cover 3, the end portions on the side surface side and the back surface side of the top plate 3a are bent downward, and the upper ends of the left side plate 3b and the right side plate 3c are in a state where the left side plate 3b and the right side plate 3c are assembled. It is covered from the outside by the top plate 3a. Further, the top plate 3a is inclined toward the back surface so that the water dropped on the top plate 3a flows to the back surface side. As a result, even if water drops on the top plate 3a, it is prevented from flowing down to the front side where the opening is provided.

Further, in the present embodiment, the exhaust port 10 is provided on the upper end side of the right side plate 3c, but the exhaust port 10 has an end portion on the back surface side of the top plate 3a as shown in a cross-sectional view in FIG. By bending downward at a position separated from the exhaust port 10, it is covered from the outside with a gap between the exhaust port 10 and the exhaust port 10. As a result, while allowing exhaust from the inside of the waterproof cover 3, water is suppressed from entering through the exhaust port 10.

Further, the fixing mounting holes 11 for fixing the waterproof cover 3 to the outdoor unit 1 and the left and right mounting holes for fixing the left side plate 3b and the right side plate 3c are both positions that can be screwed from the front side. It is provided in. As a result, when fixing the waterproof cover 3 to the outdoor unit 1 and when fixing the right side plate 3c after assembling in a divided state, screwing work can be performed from the front side, which greatly enhances workability. Can be done.

In this case, the fixing mounting hole 11 may be a hole for passing a screw depending on the mounting position or portion, or may be a so-called screw hole in which a screw groove is formed. For example, in the case of the present embodiment, the fixing mounting hole 11 for fixing the top plate 3a is formed of a screw hole, and the fixing mounting hole 11 for fixing the left side plate 3b and the right side plate 3c is formed. It is formed with holes for passing screws.

The fixing mounting hole 11 is provided in a seal structure portion formed by bending the front end of each of the top plate 3a, the left side plate 3b, and the right side plate 3c into a flange shape. For example, in the case of the top plate 3a, as shown in FIG. 8, the front end of the top plate 3a is bent upward to form a seal structure portion, and the angle member 17 attached to the beam 16 as a structure at that portion. It is fixed from the back side. The fixing itself can be performed from the front side. By providing the fixing mounting holes 11 in the seal structure portion in this way, even when the fixing mounting holes 11 penetrating the front surface and the back surface of each plate are provided, water invades the inner surface of the waterproof cover 3. Can be suppressed.

Similarly, the left side plate 3b and the right side plate 3c are also fixed to the structure of the outdoor unit 1 at the seal structure portion. Further, the left side plate 3b and the right side plate 3c are assembled with their ends overlapping each other on the back surface side, and are screwed at the overlapping portions. As a result, it is possible to prevent water from entering between the left side plate 3b and the right side plate 3c. That is, the portion where the left side plate 3b and the right side plate 3c overlap each other serves as a seal structure portion to suppress the intrusion of water.

By the way, in the present embodiment, in order to improve workability, the electric component box 2 can also be screwed and fixed from the front side. In that case, water may seep into the holes through which the screws are passed or the screw holes. Therefore, the electric component box 2 is provided with a hole for fixing the upper end side in the duct portion 18 formed between the upper surface of the electric component box 2 and the top plate 3a, and is fixed such as a screw or a bolt. It is fixed by the tool 25. The duct portion 18 is a portion where the air discharged from the discharge port 9 of the electric component box 2 flows to the exhaust port 10 of the waterproof cover 3.

At this time, the top plate 3a forming the ceiling of the duct portion 18 is provided with its front end bent upward to form a seal structure portion and inclined toward the back surface. Therefore, even if water drops on the top plate 3a, the water is prevented from flowing to the front side. In this way, the position for fixing the upper end side of the electric component box 2 is set to the position outside the electric component box 2 and the upper portion thereof is covered by the top plate 3a. It is possible to suppress the intrusion of water into the inside.

Further, since the discharge port 9 provided on the upper surface of the electric component box 2 is provided so as to project upward from the upper surface, even if water should enter the upper surface of the electric component box 2, the discharge port 9 is provided. It is suppressed from entering the electric component box 2 from the above. Further, the exhaust port 10 provided in the waterproof cover 3 is covered with an eave portion in which the end portion on the back surface side of the top plate 3a is bent downward from the outside and in a state where a gap exists at a distance thereof. ing. As a result, it is possible to prevent the air warmed by the heat generated by the electric parts from staying in the waterproof cover 3, and it is also possible to prevent water from entering through the exhaust port 10.
According to the embodiment described above, the following effects can be obtained.

The outdoor unit 1 includes a box-shaped electric component box 2 and a waterproof cover 3 that covers the electrical component box 2. The waterproof cover 3 includes a top plate 3a that covers the upper surface of the electric component box 2, a left side plate 3b that covers a part of the back surface from the left side surface of the electric component box 2, and a right side surface to the back surface of the electric component box 2. It is composed of a right side plate 3c that covers up to a part, and can be divided and assembled.

As a result, when the waterproof cover 3 is provided so as to cover the electric component box 2, the waterproof cover 3 can be disassembled and assembled into each plate, and other parts constituting the refrigeration cycle, for example, can be attached to the surroundings. The waterproof cover 3 can be easily assembled even in a place where the waterproof cover 3 is arranged.

Further, the top plate 3a, the left side plate 3b, and the right side plate 3c of the waterproof cover 3 can be individually attached to the outdoor unit 1. As a result, an appropriate assembly procedure can be adopted in view of the space that can be used when the waterproof cover 3 is attached and in view of workability. For example, as illustrated in the embodiment, the top plate 3a and the left side plate 3b can be assembled in advance and then attached to the outdoor unit 1, the top plate 3a is attached first, and then the left side plate 3b and the right side plate 3c are attached. It can be installed and assembled in a procedure that is easy to work with, such as installing.

Further, the left side plate 3b and the right side plate 3c of the waterproof cover 3 are assembled with their ends overlapping each other on the back side. The waterproof cover 3 has a split structure, which causes a gap between the plates, unlike the case of an integrated configuration, but the waterproof cover 3 can be assembled so that the ends of the waterproof covers overlap with each other. It is possible to seal between them, and it is possible to prevent water from entering the inside of the waterproof cover 3. At this time, by bending the end portion of the top plate 3a to cover the upper ends of the left side plate 3b and the right side plate 3c as in the embodiment, it is possible to suppress the intrusion of water from above.

Further, a duct portion 18 through which the air discharged from the electric parts box 2 flows is formed between the electric parts box 2 and the waterproof cover 3, and a screw position for attaching the waterproof cover 3 to the outdoor unit 1 is provided. It is set in the duct portion 18. As a result, even when the structure of screwing the electric component box 2 from the front side is adopted, it is possible to suppress the intrusion of water into the electric component box 2 and screw it from the front side. Therefore, the workability of assembly can be greatly improved.

Further, at least one of the left side plate 3b or the right side plate 3c is provided with an exhaust port 10 on the upper end side, and the exhaust port 10 is formed by bending the end portion of the top plate 3a downward. The part is covered from the outside through a gap. It is possible to suppress the exhaust heat in the waterproof cover 3 and the intrusion of water from the exhaust port 10.
(Third Embodiment)

Hereinafter, the third embodiment will be described. In the third embodiment, the details of the electric component box 2 will be described. For example, when the outdoor unit 1 has the same outer shape but different cooling capacities, it may be serialized as a series of products in which internal parts are replaced. In that case, the number and types of electric parts housed in the electric parts box 2 differ depending on the required capacity, the number of fan devices required for the capacity, and the like. Further, the position where the electric component is mounted may be different depending on the required capacity and the number of fan devices required for the capacity.

Therefore, in the past, it was necessary to prevent unnecessary holes from being provided in order to suppress the ingress of water, so even if the series is made, only the electrical parts that are needed each time are required. It was an individual design that was implemented. As a result, even in the series of products, the number of parts and the mold for sheet metal have increased. And the more I tried to enhance the product lineup, the more remarkable the situation became.

On the other hand, it is not desirable to have a common design in which a large number of component mounting holes for mounting components are provided in advance in the electrical component box 2. This is not necessary depending on the product if it is a common design because some of the mounted electrical components have a certain weight and it is necessary to make through holes to securely fix the electrical components. This is because holes are formed and water easily enters.

In other words, in order to share the parts and molds of the electrical parts box 2, it is necessary to solve the problem that different parts mounting holes are required depending on the capacity of the air conditioner, which is contrary to the shared design. be. Therefore, in the present embodiment, as described below, in the outdoor unit 1 which is serialized as a product group having the same outer shape, the parts and molds required for the electric component box 2 are shared.

In the case of the outdoor unit 1, it can be considered that the mechanical structure thereof is common. That is, it can be considered that the outdoor unit 1 has enough space for arranging the electric component box 2 capable of accommodating the electric component required at the maximum capacity. In other words, it is considered that the size of the housing 4 of the electric component box 2 can be the same regardless of the capacity.

Further, it is considered that the electric parts housed in the electric parts box 2 include common parts that are common regardless of the capacity of the air conditioner and unique parts that differ depending on the capacity of the air conditioner. For example, a control circuit, a noise filter circuit, an external interface circuit, a thermistor circuit, a magnet switch circuit, or a board on which they are mounted is considered to be commonly used regardless of the capability of the air conditioner.

On the other hand, for example, a fan device drive circuit, a compressor drive circuit, a rectifier circuit, or a substrate on which they are mounted may be of different types and numbers depending on the capacity of the air conditioner. Therefore, if the unique parts can be replaced according to the capacity of the air conditioner, it is considered that the housing 4 can be standardized.

Therefore, in the present embodiment, the housing 4 of the electric component box 2 is formed of sheet metal as shown in an exploded perspective view in FIG. 9, and the upper surface plate 4a and the electric component forming the upper surface of the electric component box 2 are formed. It is formed by a left side surface plate 4b forming from the left side surface to a part of the back surface of the box 2 and a right side surface plate 4c forming from the right side surface to a part of the back surface of the electric component box 2. Hereinafter, for convenience, in the internal space of the electrical component box 2, the space surrounded by the left side plate 4b is referred to as the left internal space, and the space surrounded by the right side plate 4c is referred to as the right internal space.

The upper surface plate 4a is arranged inside the outer plate 4a1 formed in a size covering the entire upper surface of the electric component box 2 in FIG. 3 and the outer plate 4a1 thereof, and covers about the lower half of the drawing in FIG. It has a double structure formed by an inner plate 4a2 formed in a size. The outer plate 4a1 is provided with an outer opening 4a3 in a manner that is located approximately in the center in the width direction and protrudes upward from the upper surface, and the inner plate 4a2 is located at a position deviated from the outer opening 4a3 and is on the left side. Two inner openings 4a4 are provided so as to be located above the internal space on the right side and above the internal space on the right side and project upward from the upper surface. These outer openings 4a3 and inner openings 4a4 form a discharge port 9 from which air from the inside of the electric component box 2 is discharged.

Further, in the case of the present embodiment, the inner opening 4a4 of the internal space on the right side is provided at a position in front of the board mounting plate 19 in a manner of partitioning the internal space back and forth, and is provided behind the board mounting plate 19. On the side, a discharge port 9 is provided on the side surface side. As a result, even when the substrate mounting plate 19 is provided so as to partition the internal space on the right side, the air in the internal space can be discharged as a whole and efficiently.

The right side plate 4c is formed in a shape that reaches the left side plate 4b on the back side while surrounding the internal space on the right side having a relatively large depth, and in the present embodiment, the discharge port 9 is provided on the upper end side of the right side. Has been done. Further, the front end side of the right side plate 4c is a seal structure portion bent outward, and a parts box mounting hole 4e is formed in the seal structure portion. Therefore, even if the component box mounting hole 4e that penetrates the seal structure portion is provided, when water droplets adhere to the side surface of the electrical component box 2, it is suppressed from wrapping around forward and entering the electrical component box 2. There is. Although not shown, the left side plate 4b has the same structure.

The left side plate 4b is formed in a shape that reaches the right side plate 4c while surrounding the internal space on the left side, and is connected to the right side plate 4c on the back side. At this time, the left side face plate 4b is connected by a seal structure portion in which the front end of the right side face plate 4c on the left side face plate 4b side is bent outward. Therefore, it is suppressed that rainwater enters the electric component box 2 from the connection point between the left side plate 4b and the right side plate 4c.

Further, the left side surface plate 4b is formed on the back surface side in a frame shape having a large opening portion 20, and the sub heat sink 8 is detachably fixed to the frame portion in a manner of closing the opening portion 20. The sub heat sink 8 is formed in a plate shape, and has a plurality of fixing holes 21 for fixing to the left side plate 4b and a plurality of mountings for mounting different electric components depending on the capacity of the air conditioner. A hole 22 is provided. The positions and numbers of the fixing hole 21 and the mounting hole 22 shown in the figure are examples.

At this time, the fixing hole 21 of the left side plate 4b is provided at a common position regardless of the capacity of the air conditioner. That is, the left side plate 4b can be attached to another sub heat sink 8 on which different electric components are mounted without changing the size of the housing 4. As a result, the electric component box 2 can be attached by selecting a sub heat sink 8 according to the capacity of the air conditioner, and the housing 4 can be shared.

Further, the sub heat sink 8 is provided with a mounting hole 22 at a position where necessary electric components are mounted according to the capacity of the air conditioner. In other words, the sub-heat sink 8 is provided with mounting holes 22 for mounting electrical components required by a certain capacity at unique positions, and holes unnecessary for the capacity are provided. It has no structure.

Then, by mounting the above-mentioned unique components on the sub heat sink 8, as shown in FIG. 10 as a high output side type and a medium output type, the size and structure of the housing 4 are standardized, and the electric components together with the sub heat sink 8 are used. By replacing the circuit board or the circuit board, it is possible to arrange electric components according to the capacity of the air conditioner. In addition, the high output type or the medium output type means a series having a high output relative to a relative machine and a relatively low output type.

Further, although the sub heat sink 8 is mainly mounted with unique parts, common parts can also be mounted. That is, the sub heat sink 8 is not always mounted with only unique parts. For example, in the example of FIG. 10, since the high output type outdoor unit 1 is provided with two fan devices, two drive circuit boards are mounted, while the low output type outdoor unit 1 has a fan device. There may be one, in which case one drive circuit board will be mounted. Therefore, although one fan device can be said to be a common component because it is used regardless of its capacity, in the present embodiment, it is mounted on the sub heat sink 8.

In the present embodiment, the guide portion 15 described above is provided on the back surface of the sub heat sink 8 and comes into contact with the refrigerant cooling heat sink 13 in a state where the electric component box 2 is housed. Therefore, among the electrical components mounted on the sub heat sink 8, the components having a relatively large heat generation amount are arranged vertically side by side along the refrigerant cooling heat sink 13. As a result, the electric parts can be efficiently cooled, and the temperature rise in the electric parts box 2 can be suppressed.

It should be noted that different types of components depending on the capacity of the air conditioner are mounted on the sub heat sink 8, and for example, electric components having a large calorific value are mounted on the sub heat sink 8 which can be cooled by the refrigerant cooling heat sink 13. It is possible to appropriately design whether to mount the component or the unique component.

As described above, in the electric component box 2 of the present embodiment, a sub heat sink 8 corresponding to the capacity of the air conditioner may be attached each time, so that the housing 4 can be shared and unnecessary holes are provided. It will be possible to accommodate different types and numbers of electrical components without the need for installation.

By the way, such an electric component box 2 is arranged so as to be covered by the waterproof cover 3. In that case, as shown in FIG. 11, the electric component box 2 is placed in a state where the claw portion 5 is hooked on the claw engaging hole 6 and suspended on the upper end side, and the lower end side is pushed backward to push the outdoor unit backward. It is assembled to 1. At this time, although it is necessary to align the electric component box 2 with the refrigerant cooling heat sink 13 and the waterproof cover 3 as described above, there is a possibility that the electric component box 2 will be disengaged by the barb portion 7 when the upper end side is suspended. Even if it is reduced, the electric component box 2 may shake back and forth, resulting in deterioration of workability and deterioration of worker safety.

Therefore, the electrical component box 2 of the present embodiment is provided with a box-side convex portion 23 extending in the vertical direction and projecting outward from the side surface on the side surface thereof, and the waterproof cover 3 is provided. Is provided with a cover-side convex portion 24 which is formed so as to extend in the vertical direction and faces inward from the inner surface, that is, protrudes toward the electric component box 2. Each convex portion is provided by drawing the left side plate 4b of the electric component box 2 and the left side plate 3b of the waterproof cover 3 made of sheet metal without the need for additional parts.

Further, each convex portion does not extend to the upper end and the lower end of the electric component box 2 and the waterproof cover 3, and is arranged so as not to be connected to the front end and the rear end. That is, each convex portion is provided at a position separated from the edge of the surface on which each is formed. As a result, each convex portion, more strictly speaking, the surface provided with each convex portion becomes bent when the electric component box 2 is pushed in, as described below.

Then, as shown in FIG. 12 as before and after pushing, when the electric component box 2 is pushed into the waterproof cover 3, the box-side convex portion 23 gets over the cover-side convex portion 24, so that the electric component box 2 is moved forward. Movement to is suppressed. Then, by temporarily fixing the electric component box 2 in this state, it is possible to suppress the electric component box 2 from swinging back and forth, and it is possible to reduce the possibility that the workability is deteriorated and the safety of the operator is deteriorated. In addition, in the configuration of the first embodiment and the second embodiment, the box-side convex portion 23 and the cover-side convex portion 24 can be provided.
According to the embodiment described above, the following effects can be obtained.

The outdoor unit 1 includes an electric component box 2 and a refrigerant cooling heat sink 13 for cooling the electric component box 2. The electric component box 2 is formed in a plate shape and has a common component that is common to the housing 4 regardless of the capacity of the air conditioner, a unique component that differs depending on the capability of the air conditioner, and a unique component. It has a sub heat sink 8 to be arranged.

In the sub heat sink 8, the hole for attaching to the housing 4 is formed at a common position regardless of the ability of the air conditioning functional force, while the hole for arranging the unique component has the air conditioning functional force. It is formed in a unique position according to the capacity and is changed according to the capacity of the air conditioner. The housing 4 has an opening portion 20 formed on one surface thereof, and by attaching a sub heat sink 8. The opening portion 20 is closed and the unique parts are located inside the electric parts box 2, and can be shared regardless of the ability of the air conditioning function.

As a result, the sub-heat sink 8 on which the electric components corresponding to the capacity of the air conditioner are mounted can be replaced each time without changing the housing 4, and the housing 4 can be shared. At the same time, it is possible to accommodate different types and numbers of electric parts without providing unnecessary holes.

Further, the sub heat sink 8 is provided in a state of being in contact with the refrigerant cooling heat sink 13, and among the electric parts, the parts having a relatively large heat generation amount are arranged along the refrigerant cooling heat sink 13. As a result, the electric parts can be efficiently cooled, and the temperature rise in the electric parts box 2 can be suppressed.

Further, the outdoor unit 1 includes an electric parts box 2 and a waterproof cover 3 for accommodating the electric parts box 2 so as to cover the upper surface, side surfaces, and back surface of the electric parts box 2. The electric component box 2 is provided with a claw portion 5 hooked on the structural portion of the outdoor unit 1 on the upper end side thereof, and is formed on the side surface thereof so as to extend in the vertical direction and protrudes outward from the side surface. The box-side convex portion 23 is provided. Further, the waterproof cover 3 has a cover-side convex portion 24 on the side surface thereof, which is formed so as to extend in the vertical direction and protrudes inward from the side surface.

The electrical component box 2 is arranged in the waterproof cover 3 from the front side in a state where the claw portion 5 is hooked on the structural portion of the outdoor unit 1, and when arranged in the waterproof cover 3, the box side is convex. The portion 23 is temporarily fixed in a state where the movement in the front-rear direction is suppressed by getting over the convex portion 24 on the cover side.

As a result, when the electric parts box 2 is pushed into the waterproof cover 3, the box-side convex portion 23 gets over the cover-side convex portion 24, so that the electric parts box 2 is restrained from moving forward and is temporarily fixed in that state. By doing so, it is possible to suppress the electric parts box 2 from swinging back and forth, and it is possible to reduce the possibility that the workability is deteriorated and the safety of the operator is deteriorated.

Further, the box-side convex portion 23 and the cover-side convex portion 24 are each formed by drawing a member forming a side surface. As a result, the temporary fixing structure of the electric component box 2 is provided without the need for additional components. In this case, by providing each convex portion at a position separated from the edge of the surface on which each convex portion is formed, the convex portion, or more strictly speaking, the surface on which each convex portion is provided is bent. Therefore, the electric component box 2 can be easily arranged at the temporary fixing position without applying excessive force.

Although some embodiments of the present invention have been described above, these embodiments are presented as examples and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the gist of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are also included in the scope of the invention described in the claims and the equivalent scope thereof. Moreover, the configurations exemplified in each embodiment can be appropriately combined.

In the drawing, 1 is an outdoor unit, 2 is an electrical parts box, 3 is a waterproof cover, 3a is a top plate, 3b is a left plate, 3c is a right plate, 4 is a housing, 4a is a top plate, and 4b is a left side plate, 4c. Is the right side plate, 5 is the claw part, 8 is the sub heat sink, 9 is the discharge port, 10 is the exhaust port, 13 is the refrigerant cooling heat sink, 13a is the main body part, 13b is the refrigerant pipe, 13d is the flat part, and 13e is the chamfered part. 14a is a mounting member, 15 is a guide portion, 15a is a contact surface, 15b is an inclined surface, 18 is a duct portion, 20 is an opening portion, 23 is a box-side convex portion, and 24 is a cover-side convex portion.

Claims (2)

Electrical parts box and
A waterproof cover for accommodating the electric component box is provided so as to cover the upper surface, side surface, and back surface of the electric component box.
The electric component box is provided with a claw portion for hooking to the structural portion of the outdoor unit on the upper end side thereof, and is formed on the side surface thereof so as to extend in the vertical direction and protrudes outward from the side surface. A side convex part is provided,
The waterproof cover has a cover-side convex portion on its side surface, which is formed so as to extend in the vertical direction and protrudes inward from the side surface.
The electric parts box is arranged in the waterproof cover from the front side in a state where the claw portion is hooked on the structural portion of the outdoor unit, and when the claw portion is arranged in the waterproof cover, the box side convex portion is arranged. An outdoor unit of an air conditioner that is temporarily fixed in a state where movement in the front-rear direction is suppressed by overcoming the convex portion on the cover side. The outdoor unit of the air conditioner according to claim 1 or 2, wherein the box-side convex portion and the cover-side convex portion are formed by drawing a member forming a side surface, respectively.

Images