JP2024039536A - air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an arrangement form of a muffler for effectively reducing sounds generated at a plurality of bent parts.

SOLUTION: In an air conditioner 1, a first duct 61 changes a route to a second direction that is different from a first direction and along a right-side plate 52 of an outdoor machine 3 via one or more bent parts after progressing in the first direction along the right-side plate 52 of the outdoor machine 3. A muffler 72 is arranged at a downstream side in an intake air flow direction rather than a fourth bent part 614 being the last bent part of the first duct 61. Since a sound is liable to be generated at the bent part of the first duct 61, the muffler is connected to the downstream side of the fourth bent part 614 of the first duct 61, and a high muffling effect can be thereby obtained.

SELECTED DRAWING: Figure 6

COPYRIGHT: (C)2024,JPO&INPIT

Description

The present invention relates to an air conditioner in which air is conveyed between an outdoor unit and an indoor unit.

In recent years, air conditioners that supply outdoor air from an outdoor unit to an indoor unit via a cylindrical air passage have become widespread. For example, an air conditioner described in Patent Document 1 (Japanese Unexamined Patent Publication No. 2022-60874) includes a ventilation device that supplies outdoor air into the room using a fan to ventilate the room. The ventilation system and indoor unit are connected by a ventilation hose. The ventilation system also has a humidification function and can supply humidified air indoors.

In such an air conditioner, the air supply duct is routed so as to avoid the terminal block, the shutoff valve, etc., so it is configured to meander along the side surface of the outdoor unit. In such a case, the plurality of bent portions provided in the air supply duct may act as resistance and increase ventilation noise.

On the other hand, in order to reduce the sound propagating through the air supply duct, a muffler is sometimes provided in the air supply duct. However, the arrangement of a silencer in an air supply duct having a plurality of bends as described above has not been considered.

An object of the present disclosure is to provide a muffler arrangement that effectively reduces sound generated at multiple bends.

The air conditioner according to the first aspect is an air conditioner in which outdoor air is supplied from the outdoor unit to the indoor unit, and includes a fan, a first air supply duct, a muffler, and a second air supply duct. . The first air supply duct is a cylindrical duct through which air supplied by the fan passes. The muffler is connected to the first air supply duct and is disposed on a side surface of the outdoor unit to reduce sound propagating through the first air supply duct. The second air supply duct is a cylindrical duct that guides the air that has flowed into the muffler from the first air supply duct further downstream. The first air supply duct travels in a first direction along the side surface of the outdoor unit, and then travels in a second direction in a direction different from the first direction and along the side surface of the outdoor unit through one or more bends. change. The muffler is connected to a portion of the first air supply duct after being diverted in the second direction.

In this air conditioner, since noise is generated at the bent part of the first air supply duct, a silencer is connected to the part of the first air supply duct after changing its course to the second direction. A higher noise reduction effect can be obtained than when a silencer is connected upstream of the section.

The air conditioner according to the second aspect is the air conditioner according to the first aspect, and further includes a closing valve and a cover. The closing valve is provided on the side surface of the outdoor unit, and is connected to the refrigerant pipe. A cover covers the closure valve. The last bend of the first air supply duct and the muffler have a portion covered by a cover.

In this air conditioner, the protective cover for the first air supply duct and the silencer can also be used as the cover for the shutoff valve, so it is rational, and even when installed outdoors, depending on the outdoor environment, the first air supply duct and Deterioration of the constituent members of the silencer can be suppressed.

The air conditioner according to the third aspect is the air conditioner according to the second aspect, in which the muffler is arranged above the closing valve.

In this air conditioner, among the refrigerant piping connected to the closing valve, condensation occurs on the surface of the refrigerant piping through which the depressurized refrigerant passes and the condensed water falls, but the silencer is placed above the closing valve. This prevents condensed water from falling into the silencer.

The air conditioner according to the fourth aspect is the air conditioner according to any one of the first to third aspects, wherein the end of the first air supply duct in the supply air flow direction is the end of the first air supply duct. Above the lower point and above the horizontal. A silencer is connected to the end.

In this air conditioner, even if moisture in the humidified air passing through the first air supply duct condenses and the condensed water accumulates at the lowest point of the first duct, the condensed water is prevented from flowing into the silencer. Ru.

FIG. 1 is an external view of an air conditioner according to the present embodiment. FIG. 2 is a system diagram of a refrigerant circuit used in an air conditioner. It is an exploded perspective view showing the composition of an outdoor unit. It is a schematic block diagram of a humidification unit. FIG. 3 is a diagram schematically showing the flow of air flowing through a moisture absorption rotor. It is a side view of the outdoor unit in which the silencer is arranged. It is an external perspective view of a silencer. FIG. 7 is a right side view of an outdoor unit of an air conditioner according to a modification.

(1) Schematic configuration of air conditioner 1 FIG. 1 is an external view of air conditioner 1 according to the present embodiment. In FIG. 1, an air conditioner 1 includes an indoor unit 2 and an outdoor unit 3. The indoor unit 2 is attached to a wall or the like indoors, and the outdoor unit 3 is installed outdoors.

FIG. 2 is a system diagram of a refrigerant circuit used in the air conditioner 1, and for convenience of explanation, an outline of air flow is added. In FIG. 2, the indoor unit 2 has an indoor heat exchanger 11, and the outdoor unit 3 has an outdoor heat exchanger 24. Each heat exchanger and refrigerant pipes 31 and 32 connecting these heat exchangers constitute a refrigerant circuit.

(1-1) Indoor unit 2
The indoor heat exchanger 11 of the indoor unit 2 includes a heat exchanger tube and a plurality of fins. The heat exchanger tube is folded back multiple times at both longitudinal ends. A heat exchanger tube is inserted through the fins. The indoor heat exchanger 11 exchanges heat with the air it comes into contact with.

In addition, the indoor unit 2 further includes a cross-flow fan 12 and an indoor fan motor 13 that rotationally drives the cross-flow fan 12. The cross flow fan 12 has a cylindrical shape, and has a large number of blades provided on its peripheral surface. The crossflow fan 12 generates airflow in a direction intersecting the rotation axis. The cross flow fan 12 sucks indoor air into the indoor unit 2, exchanges heat with the indoor heat exchanger 11, and then blows the air indoors.

(1-2) Outdoor unit 3
The outdoor unit 3 has an air-conditioned outdoor unit 5, a humidifying unit 4, and an air supply/exhaust path including a muffler 70. A supply/exhaust hose 6 is provided between the outdoor unit 3 and the indoor unit 2. The supply/exhaust hose 6 is used when supplying outdoor air or humidified air from the humidifying unit 4 to the indoor unit 2 side, and when exhausting indoor air to the outdoors.

The supply/exhaust hose 6 includes a first duct 61 provided so as to straddle the inside and outside of the outdoor unit 3, a muffler 70 disposed on the side surface of the outdoor unit 3, and a second duct connecting the muffler 70 and the supply/exhaust hose 6. Together with the duct 62, it forms an air supply/exhaust path.

The muffler 70 is arranged on the side surface of the outdoor unit 3 while being connected to the first duct 61, as shown in FIG. The muffler 70 reduces the sound propagating through the first duct 61 or the sound propagating through the supply/exhaust hose 6 and the second duct 62.

(2) Configuration of air-conditioned outdoor unit 5 FIG. 3 is an exploded perspective view showing the configuration of the outdoor unit 3. In FIGS. 1 and 3, the air conditioned outdoor unit 5 includes refrigerant circuit components and a casing 50 that houses the refrigerant circuit components.

(2-1) Casing 50
The casing 50 is formed of a front panel 51, a right side plate 52, a left side plate 53, and a metal bottom plate 54.

The front panel 51 is a resin member that covers the front surface of the air conditioned outdoor unit 5. The front panel 51 is disposed on the downstream side of the outdoor heat exchanger 24 in the flow direction of air passing through the outdoor heat exchanger 24 . The front panel 51 has an air outlet 51a. The air outlet 51a is a plurality of slit-shaped openings. The air that has passed through the outdoor heat exchanger 24 is blown out from the inside of the air-conditioned outdoor unit 5 to the outside of the outdoor unit 3 through the outlet 51a. Further, a first bell mouth 56 and a partition plate 57 are attached to the rear of the front panel 51.

The right side plate 52 and the left side plate 53 are metal members that cover the sides of the unit 5 outside the air conditioned room. Here, the right side plate 52 is provided on the right side of the outdoor unit 3 when viewed from the front. The left side plate 53 is provided on the left side of the outdoor unit 3 when viewed from the front.

The right side plate 52 and the left side plate 53 are provided so as to be generally parallel to the blowing direction of air from the blowing outlet 51a. Further, a cover 55 is attached to the right side plate 52. Cover 55 protects liquid shut-off valve 27 and gas shut-off valve 28.

(2-2) Refrigerant circuit components The casing 50 houses a compressor 21, a four-way switching valve 22, an accumulator 23, an outdoor heat exchanger 24, and an electric valve 25 as refrigerant circuit components. (See Figure 2). The compressor 21, the four-way switching valve 22, the accumulator 23, and the electric valve 25 are arranged in the machine room between the partition plate 57 and the right side plate 52.

As shown in FIG. 2, the four-way switching valve 22 is connected to the discharge side of the compressor 21. The accumulator 23 is connected to the suction side of the compressor 21.

The outdoor heat exchanger 24 has a substantially L-shape in plan view. The outdoor heat exchanger 24 is arranged in front of a protective wire mesh (not shown) that covers the back surface of the air-conditioned outdoor unit 5.

The electric valve 25 has one end connected to the outdoor heat exchanger 24 and the other end connected to one end of the indoor heat exchanger 11 via the filter 26, the liquid shutoff valve 27, and the refrigerant pipe 32.

Further, the four-way switching valve 22 is connected to the other end of the indoor heat exchanger 11 via a gas shutoff valve 28 and a refrigerant pipe 31. These refrigerant pipes 31 and 32 together with the supply/exhaust hose 6 form a collective communication pipe 7.

The unit 5 outside the air conditioned room further includes a propeller fan 29. The propeller fan 29 is provided in the ventilation space between the partition plate 57 and the left side plate 53 in front of the outdoor heat exchanger 24 . The propeller fan 29 is rotationally driven by an outdoor fan motor 30. The propeller fan 29 brings the air taken into the air-conditioned outdoor unit 5 into contact with the outdoor heat exchanger 24, and then exhausts the air to the front of the front panel 51 from the air outlet 51a.

As shown in FIG. 3, the air conditioned outdoor unit 5 further includes an electrical component unit 58. The electrical component unit 58 is arranged at the upper part of the unit 5 outside the air-conditioned room. The electrical component unit 58 includes an electrical component box and a printed circuit board on which a CPU 81 (see FIG. 2) for controlling each part is mounted. A flameproof plate 59 is attached above the electrical component unit 58.

(3) Configuration of humidifying unit 4 The humidifying unit 4 has a humidifying function, an air supply function, and an exhaust function. As shown in FIG. 3, the humidifying unit 4 includes a housing 40, a moisture absorption rotor 41, a heater 42, an air supply/exhaust fan 43, a switching damper 44, a suction duct 45, a suction fan 46, a rotor drive motor 47, and a rotor drive gear 48. , and a heater support plate 49.

(3-1) Housing 40
The housing 40 covers the front, rear, and both sides of the humidifying unit 4. The upper part of the housing 40 is covered by a top plate 66.

The housing 40 is arranged so as to be in contact with the upper part of the unit 5 outside the air-conditioned room. The housing 40 has an adsorption outlet 40a on its front surface. The adsorption outlet 40a is a plurality of slit-shaped openings. The air is blown out to the outside of the outdoor unit 3 through the adsorption outlet 40a.

Further, on the back surface of the housing 40, an adsorption suction port 40b and an air supply/exhaust port 40c are arranged side by side in the left-right direction. The adsorption suction port 40b is arranged on the left side when viewed from the front side, and the supply/exhaust port 40c is arranged on the right side.

Outdoor air is taken in through the adsorption suction port 40b and guided to the moisture absorption rotor 41. Moisture contained in the outdoor air is adsorbed by the moisture absorption rotor 41. Air sent to the indoor unit 2 or air exhausted from the indoor unit 2 to the outdoors passes through the air supply/exhaust port 40c.

The housing 40 has two left and right spaces inside. The moisture absorption rotor 41 and the like are housed in the space on the right, and the suction fan 46 and the like are housed in the space on the left. The space on the left side is called a suction fan storage space SP1.

Inside the housing 40, a moisture absorption rotor 41, a heater 42, an air supply/exhaust fan 43, a switching damper 44, a suction duct 45, and a suction fan 46 are arranged.

(3-2) Moisture absorption rotor 41
The moisture absorption rotor 41 is a ceramic rotor with a honeycomb structure having a disc shape, and allows air to easily pass therethrough. The moisture absorption rotor 41 has a large number of polygonal cylindrical portions in a cross section taken perpendicular to the rotation axis, and air passes through the cylindrical portions.

The main portion of the moisture absorbing rotor 41 is calcined from an adsorbent such as zeolite, silica gel, or alumina. Adsorbents such as zeolite have the property of adsorbing moisture in the air with which they come into contact and releasing the adsorbed moisture when heated.

The moisture absorption rotor 41 is rotatably supported by a support shaft 40d provided on the housing 40 side. A gear is formed on the circumferential surface of the moisture absorption rotor 41 and meshes with a rotor drive gear 48 attached to a drive shaft of a rotor drive motor 47.

(3-3) Heater 42
The heater 42 is arranged to cover approximately half of the upper surface (the right half) of the moisture absorption rotor 41. A suction port and a discharge port are formed on the lower surface of the heater 42 . Air is sucked in through the suction port. The air heated by the heater 42 is discharged from the discharge port toward the moisture absorption rotor 41 side. This heater 42 is attached above the moisture absorption rotor 41 via a heater support plate 49.

(3-4) Supply/exhaust fan 43
The air supply/exhaust fan 43 is arranged on the side of the moisture absorption rotor 41. The air supply/exhaust fan 43 sends air taken in from outside to the indoor unit 2, or exhausts air taken in from the indoor unit 2 to the outside.

The air supply/exhaust fan 43 switches between air supply operation and exhaust operation by switching the switching damper 44 . When the air supply/exhaust fan 43 sends outdoor air to the indoor unit 2 , the air supply/exhaust fan 43 sends out air that has passed through the moisture absorption rotor 41 and descended from a predetermined portion of the moisture absorption rotor 41 to the first duct 61 .

The air supply/exhaust fan 43 and the indoor unit 2 are connected through an air supply/exhaust path including a first duct 61 , a muffler 70 , a second duct 62 , and an air supply/exhaust hose 6 . The air supply/exhaust fan 43 supplies air to the indoor unit 2 via the air supply/exhaust path.

When the air supply/exhaust fan 43 discharges indoor air to the outdoors, the air supply/exhaust fan 43 discharges the air sent from the first duct 61 to the outside from the supply/exhaust port 40c provided on the back surface of the housing 40.

(3-5) Switching damper 44
The switching damper 44 is a rotary air flow path switching means disposed below the air supply/exhaust fan 43, and is switched between a first state and a second state.

In the first state, air blown out from the air supply/exhaust fan 43 is supplied to the indoor unit 2 through the air supply/exhaust path. As a result, in the first state, air flows in the direction of the solid arrow A1 in FIG. 2, and humidified air or outdoor air is supplied to the indoor unit 2.

In the second state, air flows in the direction of the arrow indicated by the broken line arrow A2 in FIG. 2, and air from the indoor unit 2 is exhausted from the air supply/exhaust fan 43 to the outside through the air supply/exhaust port 40c.

(3-6) Adsorption duct 45
The suction duct 45 covers a portion of the upper surface of the moisture absorption rotor 41 where the heater 42 is not located. This suction duct 45, together with the second bell mouth 63, forms an air flow path leading from the upper surface of the left half of the moisture absorption rotor 41 to the upper part of the suction fan storage space SP1.

(3-7) Adsorption fan 46
The suction fan 46 is arranged in the suction fan storage space SP1. The suction fan 46 is a centrifugal fan. The suction fan 46 is rotated by a suction fan motor 65. The suction fan 46 sucks air from the opening 63a of the second bell mouth 63 disposed at the top, and generates an airflow that flows from the suction suction port 40b to the opening 63a via the moisture absorption rotor 41.

The adsorption fan 46 exhausts the dry air, which has absorbed moisture while passing through the moisture absorption rotor 41, toward the front of the housing 40 from the adsorption outlet 40a. The second bell mouth 63 is provided in the upper part of the suction fan storage space SP1, and guides the air passing through the suction duct 45 to the suction fan 46.

(4) Operation of the humidifying unit 4 Fig. 4 is a schematic diagram of the humidifying unit 4. Fig. 5 is a schematic diagram showing the flow of air through the moisture absorption rotor 41. In Fig. 4 and Fig. 5, for the sake of convenience, the air passage from the adsorption suction port 40b to the adsorption fan 46 is called the moisture absorption passage X, the air passage from the air supply/exhaust port 40c to the heater 42 is called the heat extraction passage Y, and the air passage from the heater 42 to the air supply/exhaust fan 43 is called the humidification passage Z.

(4-1) Humidifying operation The humidifying unit 4 takes in outdoor air into the moisture absorption passage X through the suction suction port 40b by operating the suction fan 46. The air Ax flowing through the moisture absorption passage X passes through the first region Rx of the moisture absorption rotor 41 facing the moisture absorption passage X, and the moisture in the air Ax is absorbed into the first region Rx.

The air Ax passes through the suction fan 46 and is discharged from the suction fan storage space SP1 to the front of the outdoor unit 3 through the suction outlet 40a.

Furthermore, the humidifying unit 4 takes in outdoor air into the heat collecting passageway Y through the air supply/exhaust port 40c as the air supply/exhaust fan 43 rotates. After the air Ay flowing through the heat collecting passage Y passes through the second region Ry of the moisture absorption rotor 41 facing the heat collecting passage Y, it is heated by the heater 42 . The air Ay is heated by the heater 42 to become high temperature air Az and flows into the humidification passage Z. The high temperature air Az passes through the third region Rz of the moisture absorption rotor 41 facing the humidification passage Z and flows into the first duct 61.

When the air Ay flowing through the heat collection passage Y passes through the second region Ry of the moisture absorption rotor 41, it collects heat from the second region Ry and rises in temperature, and is then further heated by the heater 42 and becomes high temperature air Az. Become. The high temperature air Az flowing through the humidification passage Z absorbs moisture from the third region Rz of the moisture absorption rotor 41 when passing through the third region Rz.

As shown in FIG. 5, the moisture absorption rotor 41 rotates in the direction shown by the arrow D and passes through the moisture absorption passage X, the humidification passage Z, and the heat collection passage Y in this order. As a result, in the moisture absorption rotor 41, the first area Rx of the moisture absorption rotor 41 facing the moisture absorption passage X, the third area Rz of the moisture absorption rotor 41 facing the humidification passage Z, and the moisture absorption rotor 41 facing the heat extraction passage Y. The second region Ry of the second region Ry moves sequentially.

Moisture adsorbed by the moisture absorption rotor 41 from the air Ax in the moisture absorption path X is released by the high temperature air Az heated by the heater 42, and the high temperature air Az is humidified.

The air supply/exhaust fan 43 sends the air that has passed through the moisture absorption rotor 41 to the indoor unit 2 via the air supply/exhaust path. The air sent to the indoor unit 2 contains moisture that has been adsorbed by the moisture absorption rotor 41.

The air thus supplied from the humidifying unit 4 to the indoor unit 2 passes through the indoor heat exchanger 11 and is blown into the room.

(4-2) Ventilation operation By not operating the suction fan motor 65 or heater 42, the air conditioner 1 can only take in outdoor air and supply air to the indoor unit 2 without humidifying it. You can also do it. Moreover, the air conditioner 1 can also perform only exhaustion to send indoor air to the outdoors.

(5) Details of supply/exhaust route including muffler 70 The supply/exhaust route includes a first duct 61 , a muffler 70 , a second duct 62 , and a supply/exhaust hose 6 . The humidifying unit 4 and the indoor unit 2 are connected by an air supply/exhaust path, and the air air supply/exhaust fan 43 supplies air to the indoor unit 2 via the air supply/exhaust path.

FIG. 6 is a right side view of the outdoor unit 3. In FIG. 6, for convenience of explanation, the cover 55 is indicated by an imaginary line (two-dot chain line), and the right side plate 52 can be seen through the cover 55. Furthermore, the humidifying unit 4 and its interior are also shown with virtual lines (two-dot chain lines). Furthermore, the silencer 70 shown in FIG. 6 is shown in a partially cutaway view so that the internal structure can be seen.

Further, the "directions" used in the explanation follow the directions indicated by four arrows of "top", "bottom", "front", and "back" in FIG. 6.

(5-1) First duct 61
The first duct 61 is a cylindrical air passage through which air supplied by the air supply/exhaust fan 43 flows. The first duct 61 has one end located inside the outdoor unit 3 and connected to a switching damper 44 arranged below the air supply/exhaust fan 43 .

In FIG. 6, the first duct 61 penetrates from the inside of the outdoor unit 3 to the outside at the upper part of the right side plate 52 and at a position behind the imaginary vertical center line C1 of the right side plate 52. The section 611 is reached.

The first duct 61 is bent downward by approximately 90° at the first bent portion 611 and proceeds vertically downward along the right side plate 52 to reach the second bent portion 612 .

At the second bent portion 612, the first duct 61 changes its course forward and downward, proceeds along the right side plate 52, and reaches the third bent portion 613.

More specifically, in the outdoor unit 3, the side on which the front panel 51 (see FIG. 3) is arranged is referred to as the "front side", and the elongated portion of the approximately L-shaped outdoor heat exchanger 24 (see FIG. 3) is referred to as the "front side". The side where is arranged is defined as the "back side", and the first duct 61 changes its course from the back side to the front side and downward along the right side plate 52 of the outdoor unit 3 by the second bending part 612. Then, the third bent portion 613 is reached. The third bent portion 613 is located forward of the virtual vertical center line C1 of the right side plate 52.

At the third bent portion 613 , the first duct 61 changes its course vertically downward, proceeds along the right side plate 52 , and reaches the fourth bent portion 614 . The lowest point of the fourth bent portion 614 is the lowest point of the first duct 61.

At the fourth bent portion 614, the first duct 61 changes its course rearward and upward, proceeds along the right side plate 52, and reaches its end. Therefore, the terminal end of the first duct 61 is above the lowest point of the first duct 61 and above the horizontal.

A muffler 70 is connected to the end of the first duct 61 . Therefore, even if moisture in the humidified air passing through the first duct 61 condenses and the condensed water stays at the lowest point of the first duct 61, the condensed water is prevented from flowing into the muffler 70.

(5-2) Silencer 70
As shown in FIGS. 1 and 6, the silencer 70 is connected to the end of the first duct 61, and the first duct 61 and the silencer 70 are housed between the right side plate 52 and the cover 55. . As a result, the first duct 61 and the muffler 70 are covered with the cover 55, so that even when installed outdoors, the components of the first duct 61 and the muffler 70 can be prevented from deteriorating due to the outdoor environment.

However, the first duct 61 and the muffler 70 do not need to be completely housed between the right side plate 52 and the cover 55, and may partially protrude. This is because, compared to a case where the first duct 61 and the muffler 70 are not completely covered by the cover 55, deterioration of the constituent members is suppressed.

When outdoor air is supplied from the outdoor unit 3 to the indoor unit 2, the muffler 70 reduces the sound propagating through the first duct 61. Moreover, when air is exhausted from the indoor unit 2 to the outdoor unit 3, the muffler 70 reduces the sound propagating through the second duct 62.

Since sound is likely to be generated at the bent portion of the first duct 61, the muffler 70 is connected downstream of the fourth bent portion 614, which is the last bent portion of the first duct 61. Thereby, a higher noise reduction effect can be obtained than when the silencer 70 is connected to the upstream side of the fourth bent portion 614.

Further, as shown in FIG. 6, the muffler 70 is arranged above the liquid shut-off valve 27 and the gas shut-off valve 28.

Condensation occurs on the surface of the refrigerant pipe 32 through which the decompressed refrigerant passes and the condensed water falls, but since the muffler 70 is placed above the liquid shutoff valve 27, the condensed water does not fall onto the muffler 70. is avoided.

The muffler 70 includes a muffler main body 700, a first connecting portion 701, and a second connecting portion 702.

(5-2-1) Silencer body 700
The muffler main body 700 has a casing 700a that is a rectangular parallelepiped outer shell. The muffler main body 700 has a sound absorbing material 700b and a cavity 700c surrounded by the sound absorbing material 700b inside a casing 700a.

As the material for the sound absorbing material 700b, felt, urethane foam, etc. can be used. Since the cavity 700c is connected to the first duct 61, air sent to the indoor unit 2 or air sent from the indoor unit 2 passes through this cavity 700c.

In the air conditioner 1 , the sound generated by the air supply/exhaust fan 43 is reduced by the muffler 70 connected to the first duct 61 of the outdoor unit 3 before being sent to the indoor unit 2 . Therefore, in this air conditioner 1, the sound transmitted from the outdoor unit 3 to the indoor unit 2 is reduced.

Further, when air is sent from the indoor unit 2 to the outdoor unit 3 for exhaust, the noise propagating through the air supply/exhaust hose 6 and the second duct 62 is also reduced by the muffler 70.

FIG. 7 is an external perspective view of the silencer 70. 6 and 7, the casing 700a has a first connecting portion 701 connected to the first duct 61 and a second connecting portion 702 connected to the second duct 62.

Further, as shown in FIG. 6, the casing 700a further includes a flange 703 for fastening the muffler main body 700 to the right side plate 52.

(5-2-2) First connection part 701
The first connecting portion 701 protrudes from the center of one side of the rectangular parallelepiped casing 700a. However, it does not necessarily have to protrude from the center, and may be biased either above, below, or to the front or back of the one side in FIG.

The first connecting portion 701 is a connecting portion configured to receive the terminal end of the first duct 61, as shown in FIG. However, it is not limited to this, and may be inserted into the terminal end of the first duct 61.

(5-2-3) Second connection part 702
The second connecting portion 702 protrudes from the center of the other side surface of the rectangular parallelepiped casing 700a that is opposite to the one side surface from which the first connecting portion 701 protrudes. However, like the first connecting part 701, it does not necessarily have to protrude from the center, and may be biased either above or below or to the front or back of the side surface in FIG.

The second connecting portion 702 is a connecting portion that is inserted into one end of the second duct 62, as shown in FIG. However, the present invention is not limited to this, and a configuration may be adopted in which the one end of the second duct 62 is received.

(5-2-4) Flange 703
As shown in FIG. 6, the flange 703 protrudes along the right side plate 52 from the side surface of the casing 700a where the first connecting portion 701 and the second connecting portion 702 are not provided.

Furthermore, as shown in FIG. 7, the flange 703 is provided with a through hole 703a. A small hole (not shown) into which a tapping screw is inserted is formed in the right side plate 52 at a position corresponding to the through hole 703a. The casing 700a is fixed to the right side plate 52 by fastening the flange 703 to the right side plate 52 via the through hole 703a and the tapping screw. Although two flanges 703 are provided in FIGS. 6 and 7, one flange 703 may be provided.

(5-3) Second duct 62
The second duct 62 is a cylindrical air passage, and is connected to the second connection portion 702 of the muffler 70 . The second duct 62 guides the air that has flowed into the muffler 70 from the first duct 61 further downstream.

Further, the second connecting portion 702 is spaced apart above the liquid shut-off valve 27 and the gas shut-off valve 28 along the right side plate 52 of the outdoor unit 3. Therefore, a space is secured between the second connecting portion 702 and the liquid shutoff valve 27 and the gas shutoff valve 28 in which the second duct 62 is disposed.

In this embodiment, the direction in which the second duct 62 extends is along the direction in which the refrigerant pipes 31 and 32 extend.

(5-4) Supply and exhaust hose 6
The supply/exhaust hose 6 is connected to the second duct 62 and allows air to be conveyed between the outdoor unit 3 and the indoor unit 2. When outdoor air is supplied from the outdoor unit 3 , the supply/exhaust hose 6 guides the outdoor air to the indoor unit 2 . Furthermore, when air is exhausted from the indoor unit 2 to the outdoor unit 3, the supply/exhaust hose 6 guides the air to the outdoor unit 3.

The second duct 62 and the supply/exhaust hose 6 are like hoses routed to connect the outdoor unit 3 and the indoor unit 2, and the second duct 62 includes the supply/exhaust hose 6, or It may be considered that the hose 6 includes a second duct 62. In this embodiment, the second duct 62 and the supply/exhaust hose 6 are provided as separate bodies, but the second duct 62 and the supply/exhaust hose 6 may be integrally formed.

Further, since the muffler 70 is disposed above the liquid shut-off valve 27 and the gas shut-off valve 28, the second duct 62 is connected to the refrigerant pipes 31 and 32 connected to the liquid shut-off valve 27 and the gas shut-off valve 28. This makes it easier to align the refrigerant pipes 31 and 32 with the second duct 62 and/or the supply/exhaust hose 6 when installing the product. In this embodiment, the angle formed by the refrigerant pipes 31 and 32 and the straight pipe portion of the second duct 62 adjacent to the refrigerant pipes 31 and 32 is 20 degrees or less.

(6) Features (6-1)
In the air conditioner 1, since noise is generated at the bent portion of the first duct 61, the silencer 70 is connected downstream of the fourth bent portion 614, which is the last bent portion of the first duct 61. , a higher muffling effect can be obtained than that in which the muffler 70 is connected to the upstream side of the fourth bent portion 614.

(6-2)
In the air conditioner 1, the fourth bent portion 614, which is the last bent portion of the first duct 61, and the muffler 70 are covered by the cover 55, and the protective covers of the first duct 61 and the muffler 70 are closed with a closing valve. Since the cover 55 can be used for both purposes, it is not only rational, but also prevents the constituent members of the first duct 61 and the silencer 70 from deteriorating due to the outdoor environment even when installed outdoors.

(6-3)
In the air conditioner 1, the muffler 70 is arranged above the liquid shutoff valve 27 and the gas shutoff valve 28, so even if the dew water generated on the surface of the refrigerant piping through which the refrigerant passes after depressurization falls, , condensed water is prevented from falling onto the silencer 70.

(6-4)
In the air conditioning device 1, the end of the first duct 61 in the supply air flow direction is above the lowest point of the first duct 61 and is upwardly oriented relative to the horizontal, and the silencer 70 is connected to this end. Therefore, even if moisture in the humidified air passing through the first duct 61 condenses and the condensed water accumulates at the lowest point of the first duct 61, the condensed water is prevented from flowing into the silencer 70.

(6-5)
In the air conditioner 1, a muffler 70 is fastened to the right side plate 52 of the outdoor unit 3.

(7) Modification In the above embodiment, the muffler 70 is disposed between the right side plate 52 and the cover 55, but the muffler 70 is not limited thereto.

FIG. 8 is a right side view of the outdoor unit 3 of the air conditioner 1 according to a modification. In FIG. 8, the first duct 61 has a longer extension from the fourth bent portion 614 than in the above embodiment (FIG. 6), and its terminal end is located further back than the space between the right side plate 52 and the cover 55. do.

Therefore, the muffler 70 connected to the terminal end of the first duct 61 is located at the rear of the space between the right side plate 52 and the cover 55.

The muffler 70 is fastened to the right side plate 52 by screwing through one flange 703 provided on the muffler 70.

In the case of this modification, the muffler 70 does not need to be accommodated in the space between the right side plate 52 and the cover 55, so the size of the muffler 70 can be increased to enhance the muffling effect. Further, the silencer 70 can also be used as a flameproof wall.

Although the embodiments of the present disclosure have been described above, it will be understood that various changes in form and details can be made without departing from the spirit and scope of the present disclosure as described in the claims. .

1 Air conditioner 2 Indoor unit 3 Outdoor unit 27 Liquid shutoff valve 28 Gas shutoff valve 31 Refrigerant piping 32 Refrigerant piping 43 Supply/exhaust fan (fan)
55 Cover 60 Terminal board 61 First duct (first air supply duct)
611 First bending part (bending part)
612 Second bending part (bending part)
613 Third bending part (bending part)
614 Fourth bending part (last bending part)
62 Second duct (second air supply duct)
70 Silencer 700 Silencer main body 701 First connection part 702 Second connection part

JP2022-60874A

Claims (4)

An air conditioner in which outdoor air is supplied from an outdoor unit (3) to an indoor unit (2),
Fan (43) and
a cylindrical first air supply duct (61) through which air supplied by the fan (43) passes;
a muffler (70) that is connected to the first air supply duct (61) and arranged on a side surface of the outdoor unit (3) to reduce sound propagating through the first air supply duct (61);
a cylindrical second air supply duct (62) that guides air that has flowed into the muffler (70) from the first air supply duct (61) further downstream;
Equipped with
The first air supply duct (61) travels in a first direction along the side surface of the outdoor unit (3), passes through one or more bends, and then exits the outdoor unit in a direction different from the first direction. changing course in a second direction along the side of the aircraft (3);
The muffler (70) is connected to a portion of the first air supply duct (61) after changing its course to the second direction.
Air conditioner. a closing valve (27, 28) provided on the side surface of the outdoor unit (3) and to which a refrigerant pipe is connected;
a cover (55) covering the closing valve (27, 28);
Furthermore,
the last bend of the first air supply duct (61) and the muffler (70) have a portion covered by the cover (55);
The air conditioner according to claim 1. The muffler (70) is located above the closing valve (27, 28).
The air conditioner according to claim 2. The end of the first air supply duct (61) in the air supply flow direction is above the lowest point of the first air supply duct (61) and above the horizontal,
the muffler (70) is connected to the end;
The air conditioner according to any one of claims 1 to 3.

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