JP6289702B2 - Air conditioner - Google Patents

Description

  The present invention relates to an air conditioner, and more particularly to an air conditioner that executes a refrigeration cycle using a refrigerant having a low global warming potential.

Conventionally, “HFC refrigerant” such as R410A, which is nonflammable, has been used as a refrigerant for a refrigeration cycle executed by an air conditioner. Unlike the conventional “HCFC refrigerant” like R22, this R410A has zero ozone depletion coefficient (hereinafter referred to as “ODP”) and does not destroy the ozone layer. (Hereinafter referred to as “GWP”).
Therefore, as part of the prevention of global warming, studies are underway to change from an HFC refrigerant with a high GWP such as R410A to a refrigerant with a low GWP.

As such low GWP refrigerant candidates, there are HC refrigerants such as R290 (C ₃ H ₈ ; propane) and R 1270 (C ₃ H ₆ ; propylene) which are natural refrigerants, but unlike R410A which is nonflammable. Because of its high flammability level, caution must be exercised against refrigerant leakage.

Further, as such a low GWP refrigerant candidate, there is, for example, R32 (CH ₂ F ₂ ; difluoromethane) having a lower GWP than R410A as an HFC refrigerant having no carbon double bond in the composition.
As a similar candidate refrigerant, there is a halogenated hydrocarbon which is a kind of HFC refrigerant as in R32 and has a carbon double bond in its composition. Examples of such a halogenated hydrocarbon include HFO-1234yf (CF ₃ CF═CH ₂ ; tetrafluoropropene) and HFO-1234ze (CF ₃ —CH═CHF). In order to distinguish from an HFC refrigerant having no carbon double bond in the composition such as R32, an HFC refrigerant having a carbon double bond is changed to an olefin (unsaturated hydrocarbon having a carbon double bond). It is often expressed as “HFO” using “O” (called olefin).

Such low GWP HFC refrigerants (including HFO refrigerants) are not as flammable as HC refrigerants such as natural refrigerant R290 (C ₃ H ₈ ; propane), but different from non-flammable R410A, It has flammability of a slight burn level. Therefore, it is necessary to pay attention to refrigerant leakage as in the case of R290. Henceforth, the refrigerant | coolant which has flammability even if it is a slight combustion level is called "flammable refrigerant | coolant."

In order to prevent the leakage of flammable refrigerant, the international standard (IEC 60335-2-40) is adopted to prevent the refrigerant concentration in the room from becoming higher than a certain value even if the refrigerant leaks. Refrigerant filling amount is defined.
That is, according to the international standard, the allowable refrigerant amount (Mmax) per room is expressed by an expression “Mmax = a function of the lower limit concentration of combustion (LFL), floor area (A), and installation height (H0) of the apparatus. 2.5 × (LFL) ^1.25 × H0 × A ^0.5 ”is specified. The installation height (H0) is defined as “0.6 m” for floor-standing type, “1.8 m” for wall-mounted type, “1.0 m” for window-standing type, and “2.2 m” for ceiling-mounted type. Has been.

  Therefore, in order to satisfy the above formula, the design floor area value stored in the device is compared with the actual installed floor area value (subtracting the installation area of furniture) that has been input. When the latter is narrower than the former (when the above formula is not satisfied), a split-type air conditioner that gives instructions for ventilating the room or stores part of the refrigerant in the refrigerant storage tank is disclosed. (For example, refer to Patent Document 1).

JP 2002-372317 A (page 3-4, FIG. 5)

However, the split-type air conditioner disclosed in Patent Document 1 only inputs the value of the installation floor area obtained by subtracting the installation area of furniture, and does not input the installation height. In other words, since there is a lack of attention about the installation height, if the actual installation height value is smaller (lower) than the specified value, it is determined that only the installation floor area value is input. Had the problem of losing validity.
In addition, it is disclosed that an instruction for prompting ventilation of a room by inputting a value of an installation floor area obtained by subtracting the installation floor area of furniture or the like, but in the first place air conditioning ( Encouraging extra ventilation while cooling or heating) impairs comfort and energy saving. That is, since there is no means for confirming the floor area that can be applied in advance before installing the air conditioner, there is a problem that comfort and energy saving are sacrificed.

  The present invention has been made to solve the above-described problems. The first object of the present invention is that when the air conditioner is installed, the installation height is defined for each indoor unit. An object of the present invention is to provide an air conditioner installed at a specified installation height by notifying an operator. In addition, the second object is to provide a specified floor area by notifying a local worker that an applicable floor area is defined based on the refrigerant charge amount of the air conditioner when the air conditioner is installed. An object of the present invention is to provide an air conditioner to be installed in the factory.

An air conditioner according to the present invention is a split-type air conditioner including an indoor unit and an outdoor unit, and the indoor unit is disposed in a housing and a flammable refrigerant disposed in the housing. Display of at least one of supplied indoor heat exchanger, installation height when installed indoors according to the form of the indoor unit, and applicable indoor floor area based on the refrigerant charge amount of the air conditioner The display unit is provided at a position that is visible from the outside when the indoor unit is installed in the electrical equipment storage box.
The air conditioner according to the present invention is a split-type air conditioner including an indoor unit and an outdoor unit, and the indoor unit is disposed in the casing and the casing and has combustibility. At least one of an indoor heat exchanger to which a refrigerant is supplied, an installation height when installed indoors according to the form of the indoor unit, and an indoor floor area applicable based on the refrigerant charge amount of the air conditioner A display unit that displays the display, and the housing is installed on a wall surface via an installation plate, and the display unit is visible from the outside when the indoor unit is installed on the installation plate It is provided at various positions.

The air conditioner according to the present invention is a split-type air conditioner including an indoor unit and an outdoor unit, and the indoor unit is disposed in the housing and the housing and has combustibility. An indoor heat exchanger to which a refrigerant is supplied, a fan casing that is disposed in the housing and accommodates a blower fan, a suction port that sucks air into the housing, and a suction port cover that covers the suction port so as to be openable and closable And a display unit that displays at least one of an installation height when installed indoors according to the form of the indoor unit, and an applicable indoor floor area based on the refrigerant charge amount of the air conditioner. And the said display part is provided in the position which can be visually recognized from the outside through the said suction port, when the said suction port cover is opened among the said fan casings.
The air conditioner according to the present invention is a split-type air conditioner including an indoor unit and an outdoor unit, and the indoor unit is disposed in the housing and the housing and has combustibility. An indoor heat exchanger to which a refrigerant is supplied, an electrical component storage box disposed in the casing, a decorative panel installed to cover the lower surface of the casing, and a room according to the form of the indoor unit A display unit that displays at least one of an installation height and an indoor floor area that can be applied based on a refrigerant charge amount of the air conditioner, and the display unit is provided on the electrical component storage box. It is provided on the lower surface.

According to the present invention, the casing is provided with a display unit that displays “installation height when installed indoors (same as the minimum distance from the floor of the casing)” defined in the international standard. Therefore, when installing the air conditioner, the display unit draws the attention of the local worker (enters the eyes), so the local worker can set the installation height (minimum distance from the floor) required for the air conditioner. Recognize and install the air conditioner at the specified installation height.
In addition, since the casing is provided with a display unit that displays “applicable floor area based on the refrigerant charge amount” stipulated in the international standard, the display unit is used by local workers when installing the air conditioner. Therefore, the local worker can recognize the floor area (minimum floor area) applicable to the air conditioner and install the air conditioner in a room having a prescribed floor area.

FIG. 2 is a refrigerant circuit diagram for explaining the air-conditioning apparatus according to Embodiment 1 of the present invention and schematically showing the configuration of the refrigerant circuit. BRIEF DESCRIPTION OF THE DRAWINGS The air conditioning apparatus which concerns on Embodiment 1 of this invention is demonstrated, Comprising: (a) is a front view which shows the external appearance of an indoor unit, (b) is a bottom view which shows the external appearance of an indoor unit, (c) is The side view which shows the installation state of an indoor unit. The bottom view which shows a part (display part) of the air conditioning apparatus which concerns on Embodiment 1 of this invention. BRIEF DESCRIPTION OF THE DRAWINGS The air conditioning apparatus which concerns on Embodiment 1 of this invention is demonstrated, Comprising: (a) is a front view which shows a part (installation board), (b) is a front view which shows a part (display part). The air conditioning apparatus which concerns on Embodiment 2 of this invention is demonstrated, Comprising: (a) is a perspective view which shows the external appearance of an indoor unit, (b) is a side view which shows the installation state of an indoor unit. The bottom view which shows a part (display figure) of the air conditioning apparatus which concerns on Embodiment 2 of this invention. The air conditioning apparatus which concerns on Embodiment 3 of this invention is demonstrated, Comprising: (a) is a perspective view which shows the external appearance of an indoor unit, (b) is a side view which shows the installation state of an indoor unit.

[Embodiment 1: Wall hanging type]
1 to 4 illustrate the air-conditioning apparatus according to Embodiment 1 of the present invention. FIG. 1 is a refrigerant circuit diagram schematically showing the configuration of the refrigerant circuit, and FIG. FIG. 2 (b) is a bottom view showing the exterior of the indoor unit, FIG. 2 (c) is a side view showing the installed state of the indoor unit, and FIG. 3 is a part (display unit). FIG. 4A is a front view showing a part (installation plate), and FIG. 4B is a front view showing a part (display unit). In addition, each figure is shown typically and this invention is not limited to the form shown in figure.

  In FIG. 1, an air conditioner 100 includes an indoor unit (same as the load side unit) 101 installed on a wall surface 91 (see (c) of FIG. 2) of an indoor 90 and an outdoor unit installed outside (not shown). (Same as the heat source side unit) 102 and a split type composed of extension pipes 10a and 10b connecting the indoor unit 101 and the outdoor unit 102.

(Refrigerant circuit of outdoor unit)
The outdoor unit 102 includes a compressor 3 that compresses and discharges the refrigerant, and a refrigerant flow path switching valve (hereinafter referred to as “four-way valve”) that changes the flow direction of the refrigerant in the refrigerant circuit between the cooling operation and the heating operation. 4), an outdoor heat exchanger 5 that is a heat source side heat exchanger that performs heat exchange between the outside air and the refrigerant, an electronically controlled expansion valve that can change the opening degree and depressurize the high-pressure refrigerant to a low pressure, etc. A decompression device (hereinafter referred to as an expansion valve) 6 that is an expansion means is arranged, and these are connected by an outdoor refrigerant pipe (same as the heat source side refrigerant pipe) 8.
An outdoor fan 5 f that supplies (blows) outside air to the outdoor heat exchanger 5 is installed to face the outdoor heat exchanger 5. By rotating the outdoor fan 5f, an air flow passing through the outdoor heat exchanger 5 is generated. In the outdoor unit 102, a propeller fan is used as the outdoor blower fan 5f, and in the form of sucking outside air through the outdoor heat exchanger 5, the air flow generated downstream of the outdoor heat exchanger 5 (the air flow generated by the outdoor blower fan 5f) It is arranged on the downstream side.

(Outdoor refrigerant piping)
The outdoor refrigerant pipe 8 connects the refrigerant pipe, the suction pipe 11, the discharge pipe 12, the four-way valve 4, and the outdoor heat exchanger 5 that connect the gas-side (cooling operation) extension pipe connection valve 13 a and the four-way valve 4. Refrigerant piping, refrigerant piping connecting the outdoor heat exchanger 5 and the expansion valve 6, and refrigerant piping connecting the expansion valve 6 and the extension piping connection valve 13 b on the liquid side (during cooling operation) are collectively referred to as such To call.

(Extended piping connection valve)
A gas-side extension pipe connection valve 13a is provided at the connection portion of the outdoor refrigerant pipe 8 with the gas-side extension pipe 10a, while a liquid-side extension pipe is provided at the connection portion with the liquid-side extension pipe 10b. A connection valve 13b is arranged.
The extension pipe connection valve 13a on the gas side is a two-way valve that can be switched between open and closed, and a flare joint 16a is attached to one end thereof.
The extension pipe connection valve 13b on the liquid side is a three-way valve that can be switched between open and closed, and is a service port 14b that is used for evacuation (before the refrigerant is supplied to the air conditioner 100). A flare joint 16b is attached.
A male thread is machined on the side of the outdoor refrigerant pipe 8 of the flare joints 16a and 16b attached to the extension pipe connection valves 13a and 13b (including the service port 14b). When the outdoor unit 102 is shipped (including when the air conditioner 100 is shipped), a flare nut (not shown) in which a female screw that engages with the male screw is processed is attached.

(Service unit)
For convenience of the following description, a range in the outdoor refrigerant pipe 8 that connects the compressor 3 to the four-way valve 4 inlet on the discharge side of the compressor 3 is referred to as a discharge pipe 12 and is sucked into the compressor 3. A range connecting the four-way valve 4 to the compressor 3 on the side is referred to as a suction pipe 11.
Then, the discharge pipe 12 can be used at any time during the cooling operation (operation for supplying the low-temperature and low-pressure refrigerant to the indoor heat exchanger 7) or the heating operation (operation for supplying the high-temperature and high-pressure refrigerant to the indoor heat exchanger 7). Always flows through a high-temperature and high-pressure gas refrigerant compressed by the compressor 3, and a low-temperature and low-pressure refrigerant through an evaporating action flows through the suction pipe 11.

The low-temperature and low-pressure refrigerant flowing through the suction pipe 11 may be a gas refrigerant or a two-phase state. The suction pipe 11 is provided with a service port 14a with a low-pressure side flare joint, and the discharge pipe 12 is provided with a service port 14c with a high-pressure side flare joint. A pressure gauge is installed during a trial operation during installation or repair. Used to connect and measure operating pressure.
The flare joints (not shown) of the service ports 14a and 14c are cut off with a male screw. When the outdoor unit 102 is shipped (including when the air conditioner 100 is shipped), the male screw has a flare nut. (Not shown) is attached.

(Indoor unit refrigerant circuit)
The indoor unit 101 is provided with an indoor heat exchanger 7 that is a use side heat exchanger that exchanges heat between indoor air and refrigerant, and an indoor refrigerant pipe (same as the use side refrigerant pipe) 9 is provided in the indoor heat exchanger 7. It is connected.
A flare joint 15a for connecting the gas-side extension pipe 10a is provided at a connection portion between the indoor refrigerant pipe 9 and the gas-side extension pipe 10a, while the liquid-side extension pipe of the indoor refrigerant pipe 9 is provided. A flare joint 15b for connecting the liquid-side extension pipe 10b is disposed at the connection portion with 10b.
The flare joints 15a and 15b are cut off with a male screw. When the indoor unit 101 is shipped (including when the air conditioner 100 is shipped), a female screw that is screwed into the male screw is processed. A flare nut (not shown) is attached.
Moreover, the indoor air blower fan 7f is installed facing the indoor heat exchanger 7, and the air flow which passes the indoor heat exchanger 7 is produced | generated by rotation of the indoor air blower fan 7f. Note that the indoor blower fan 7f may vary depending on the form of the indoor unit 101, such as a crossflow fan or a turbo fan. Further, the position may be downstream or upstream of the indoor heat exchanger 7 in the air flow generated by the indoor fan 7f.

(Refrigerant circuit of air conditioner)
Both ends of the gas-side extension pipe 10a are detachably attached to a flare joint 16a attached to the gas-side extension pipe connection valve 13a of the outdoor unit 102 and a flare joint 15a attached to the indoor refrigerant pipe 9 of the indoor unit 101, respectively. On the other hand, both ends of the liquid-side extension pipe 10 b are connected to the flare joint 16 b attached to the liquid-side extension pipe connection valve 13 b of the outdoor unit 102 and the flare joint attached to the indoor refrigerant pipe 9 of the indoor unit 101. 15b is detachably connected to each other.
That is, the refrigerant circuit is formed by connecting the outdoor refrigerant pipe 8 and the indoor refrigerant pipe 9 by the extension pipes 10 a and 10 b, and a compression heat pump cycle in which the refrigerant compressed by the compressor 3 is circulated is configured.

(Refrigerant flow during cooling operation)
In FIG. 1, a solid line arrow indicates the flow direction of the refrigerant during the cooling operation. In the cooling operation, the four-way valve 4 is switched to a refrigerant circuit as indicated by a solid line, and the high-temperature and high-pressure gas refrigerant discharged from the compressor 3 first flows into the outdoor heat exchanger 5 through the four-way valve 4.
The outdoor heat exchanger 5 acts as a condenser. That is, when the air flow generated by the rotation of the outdoor fan 5f passes through the outdoor heat exchanger 5, the outdoor air passing therethrough exchanges heat with the refrigerant flowing through the outdoor heat exchanger 5, and the heat of condensation of the refrigerant Is added to the outdoor air. In this way, the refrigerant is condensed in the outdoor heat exchanger 5 to become a high-pressure medium-temperature liquid refrigerant.
Next, the high-pressure and intermediate-temperature liquid refrigerant flows into the expansion valve 6 and adiabatically expands in the expansion valve 6 to become a low-pressure and low-temperature two-phase refrigerant.

Subsequently, the low-pressure and low-temperature two-phase refrigerant is supplied to the indoor unit 101 via the liquid-side extension pipe 10 b and flows into the indoor heat exchanger 7. This indoor heat exchanger 7 acts as an evaporator. That is, when the flow of indoor air generated by the rotation of the indoor blower fan 7f passes through the indoor heat exchanger 7, the indoor air passing therethrough exchanges heat with the refrigerant flowing through the indoor heat exchanger 7, so that the refrigerant becomes room air. It evaporates by taking the heat of evaporation (warm heat) from it, and it becomes a low-temperature and low-pressure gas refrigerant or two-phase refrigerant state. On the other hand, the passing indoor air takes the cold from the refrigerant and is cooled to cool the room.
Further, the refrigerant that has evaporated in the indoor heat exchanger 7 to become a low-temperature and low-pressure gas refrigerant or a two-phase refrigerant is supplied to the outdoor unit 102 via the gas-side extension pipe 10 a and passes through the four-way valve 4. Then, it is sucked into the compressor 3. Then, it is compressed again into a high-temperature and high-pressure gas refrigerant in the compressor 3. This cycle is repeated in the cooling operation.

(Refrigerant flow during heating operation)
In FIG. 1, a dotted line arrow indicates the flow direction of the refrigerant during the heating operation. If the four-way valve 4 is switched to a refrigerant circuit as indicated by a dotted line, the refrigerant flows in the opposite direction to that during the cooling operation, and first flows into the indoor heat exchanger 7, and this indoor heat exchanger 7 is connected to the condenser, and The outdoor heat exchanger 5 is caused to act as an evaporator, and the indoor air passing through the indoor heat exchanger 7 is heated by condensing heat (warm heat) to be in a heating operation.

(Refrigerant)
In the air conditioner 100, as the refrigerant flowing in the refrigerant circuit, the GWP is smaller than the HFC refrigerant R410A that is widely used in the air conditioner at present, and has relatively little influence on global warming. R32 (CH ₂ F ₂ ; difluoromethane) which is a refrigerant is used. Refrigerant is shipped in a state in which a certain amount is enclosed in the outdoor unit 102 in advance, and when the air conditioner 100 is installed, if shortage occurs due to the length of the extension pipes 10a and 10b, additional filling is performed in the field work. Is done.

Note that the refrigerant is not limited to R32, and is a kind of HFC refrigerant as described above, which is slightly flammable like R32, but is a halogenated hydrocarbon having a carbon double bond in the composition. And an HFO refrigerant such as HFO-1234yf (CF ₃ CF═CH ₂ ; tetrafluoropropene) or HFO-1234ze (CF ₃ —CH═CHF), which has a smaller GWP than the R32 refrigerant.
Also, R290 having a strong retardant may be; (propylene _C 3 _{H 6)} HC refrigerant such as _(C 3 _{H 8} propane) and R1270. Moreover, the mixed refrigerant | coolant which mixed 2 or more types of these refrigerant | coolants may be sufficient.

(Appearance of indoor unit)
2A to 2C, the indoor unit 101 includes a suction port 112 formed on the upper surface 111 and a blower port 115 formed across the front surface 113 and the lower surface 114. 110, a decorative panel 120 detachably installed on the front surface 113 of the housing 110, and air conditioned by the indoor heat exchanger 7 (see FIG. 1) (hereinafter referred to as “conditioned air”) A vertical wind direction plate 130 that adjusts the vertical blow direction, and a left and right wind direction plate 140 that is installed in the casing 110 (upstream side) from the blower outlet 115 and adjusts the horizontal direction of the conditioned air. ,have. A name part 150 and a display part 160 are provided on the lower surface 114.
The casing 110 is installed on the wall surface 91 of the room 90, and the lower surface 114 is positioned higher than 1.8 m which is the installation height (H0) from the floor surface 92.

(Name part)
In the name part 150, the model and manufacturer name of the air conditioner 100, the name of the refrigerant to be used, and the like are described.
In the present invention, the content (characters, symbols, etc.) displayed on the name mark unit 150 and the display form (displayed by providing irregularities on the lower surface 114, printed on the lower surface 114, or displayed) It is not limited to attaching a plate).

(Display section)
In FIG. 3, the display unit 160 has a description “1) Install this indoor unit at a height of 1.8 m or more. 2) Install it in a room with a floor area of 35 m ² or more.” That is, the “installation height (H0) value” of the following formula of the international standard (IEC 60335-2-40) defined for the wall-mounted indoor unit installed on the wall surface of the room and the air conditioner 100 The “floor area” corresponding to the refrigerant charge amount is described.
Note that the form of the display unit 160 is not limited, and may be displayed with unevenness directly on the lower surface 114 or may be displayed on the lower surface 114 by color coding (printing). Further, a strip or a plate (plate) whose contents are displayed by unevenness or color coding may be attached so as not to be removed, or attached so that it can be removed after the housing 110 is installed.
Although the display unit 160 is provided on the lower surface 114 in the above, the present invention is not limited to this, and may be provided on the side surface 116 or the side surface 117 instead.
Furthermore, the display unit 160 may display only “the value of the installation height (H0)” or only “the value of the minimum floor area”.

(International standard)
The international standard defines the allowable refrigerant amount (Mmax) per room as an expression “Mmax = 2.5 × (LFL) ^1.25 × H0 × A ^0.5 ” for the room, “LFL” is the lower combustion limit concentration of refrigerant, “A” is the area of the floor surface 92, and “H0” is the minimum distance between the lower surface 114 and the floor surface 92 (same as “installation height”). And as the installation height (H0), the floor-standing type is “0.6 m”, the wall-mounted type is “1.8 m”, the window-standing type is “1.0 m”, and the ceiling-mounted type is “2.2 m”. .

(Function and effect)
Accordingly, when the indoor unit 101 of the air conditioner 100 is installed on the wall surface 91, the display unit 160 draws attention to the local worker (not shown). Therefore, the indoor unit 101 (housing 110) can be installed at a prescribed installation height. (Since the minimum distance between the lower surface 114 of the housing 110 and the floor surface 92).
That is, inadvertent attachment to a low position is avoided, and a situation where international standards are not satisfied can be avoided.
In addition, since the display unit 160 that displays “applicable floor area based on the refrigerant charge amount” defined in the international standard is provided in the casing 110, the display unit 160 is installed when the air conditioner 100 is installed. Since the local worker's attention is drawn to the eyes, the local worker notices the floor area (minimum floor area) applicable to the air conditioner 100 and installs the air conditioner 100 in a room with a prescribed floor area. Can do. That is, careless installation of the air conditioner 100 in a room with a small floor area (narrow room) is avoided, so that situations that do not satisfy international standards are avoided, and there is no need for extra ventilation. No more sacrificing comfort and energy savings.

(Installation plate)
In FIG. 4A, the installation plate 170 is directly installed on the wall surface 91, and the indoor unit 101 is attached to the installation plate 170. That is, the indoor unit 101 is not installed directly on the wall surface 91 but is installed indirectly via the installation plate 170. At this time, the display unit 180 is provided on the installation plate 170.
In FIG. 4B, the display unit 180 indicates that “this indoor unit should be installed at a height of 1.8 m or more.” However, as with the display unit 160, the floor area is also displayed. May be added.
Accordingly, when the indoor unit 101 is installed on the wall surface 91, the installation plate 170 is installed on the wall surface 91 in advance, and the installation plate 170 is provided with the display unit 180, and the display unit 180 is a caution for a local operator (not shown). Therefore, the local worker notices the installation height necessary for the indoor unit 101 (minimum distance between the lower surface 114 of the housing 110 and the floor surface 92). The indoor unit 101 (housing 110) can be installed at a predetermined installation height via the installation plate 170.

[Embodiment 2: Ceiling type]
5 and 6 illustrate an air conditioner according to Embodiment 2 of the present invention. FIG. 5 (a) is a perspective view showing the appearance of the indoor unit, and FIG. The side view which shows the installation state of an apparatus, FIG. 6 is a bottom view which shows a part (display part). In addition, each figure is shown typically and this invention is not limited to the form shown in figure. In addition, the same reference numerals are given to the same or corresponding parts as in the first embodiment, and a part of the description is omitted.

5A and 5B, an air conditioner 200 (not shown) including the indoor unit 201 according to the second embodiment includes an indoor unit (load side) suspended from the ceiling surface 93 of the room 90. (Same as the unit) 201, an outdoor unit (not shown) installed outside (not shown), and an extension pipe (not shown) connecting the indoor unit 201 and the outdoor unit.
In addition, about the structure of the apparatus and refrigerant circuit for performing the refrigerating cycle of the air conditioning apparatus 200, and the flow method of a refrigerant | coolant are the same as the air conditioning apparatus 100 (Embodiment 1), description is abbreviate | omitted.

(Indoor unit)
5 (a) and 5 (b), an indoor unit 201 includes a housing 210 having a suction port 212 formed near the rear surface 215 of the lower surface 211 and a blower port 214 formed on the front surface 213. An up-and-down wind direction plate that covers the suction port 212 so that it can be freely opened and closed, and is installed in the suction port covers 220a and 220b in which a plurality of slits are formed and a blow-out port 214 to adjust the blow-out direction of the conditioned air. 230.
The indoor blower fan 7f (not shown) is covered with casings 240a, 240b, 240c, and 240d. The range of the casings 240a, 240b, 240c, and 240d located at the suction port 212 faces the suction port covers 220a and 220b with the suction port 212 closed, and the suction port covers 220a and 220b open the suction port 212. When this is done, it can be visually recognized from the outside of the indoor unit 201.
Further, a name mark portion 250 and a display portion 260 are provided in a range facing the suction port 212 on the lower surface of the casing 240a and the lower surface of the casing 240b, respectively.
In FIG. 5A, the casings 240a and the like are arranged in four rows, and the name portion 250 is provided in the row closer to the end, and the display portion 260 is provided in the row closer to the center. The present invention is not limited to this, and the name mark portion 250 and the display portion 260 may be provided in any column, respectively, and the name mark portion 250 and the display portion 260 may be provided in the same column. The number of columns is not limited to four.

(Display section)
In FIG. 6, the display unit 260 describes “1) Install this indoor unit at a height of 2.2 m or higher. 2) Install it in a room with a floor area of 35 m ² or higher.” That is, in the above-mentioned formula of the international standard (IEC 60335-2-40) defined for the wall-mounted indoor unit installed on the wall surface in the room, the “installation height (H0) value” of the ceiling suspension type A certain “2.2 m” and “floor area” corresponding to the refrigerant charging amount of the air conditioner 200 are described.
The form of the display unit 260 conforms to the display unit 160. In the above description, the display unit 260 is provided on the lower surface of the casing 240a. However, the present invention is not limited to this. Instead, the display unit 260 is provided on the side surface 216, the side surface 217, or the lower surface 211 of the housing 210. May be.

(Function and effect)
Accordingly, when the indoor unit 201 of the air conditioner 200 is suspended from the ceiling surface 93, a local worker (not shown) opens the suction port covers 220a and 220b, so that the display unit 260 can be visually recognized from the outside through the suction port 212. Will be exposed to. Then, the display unit 260 draws the attention of a local worker (not shown) (enters the eyes), so that the local worker can set the installation height required for the indoor unit 201 (the lower surface 211 and the floor surface 92 of the casing 210). Therefore, the indoor unit 201 (housing 210) can be installed at a predetermined installation height.
That is, inadvertent attachment to a low position is avoided, and a situation where international standards are not satisfied can be avoided.
In addition, since the display unit 260 that displays “applicable floor area based on the refrigerant charge amount” defined in the international standard is provided in the casing 210, the air conditioner 200 is similar to the first embodiment. Can be avoided inadvertently installing in a room with a small floor area (narrow room), avoiding the situation that does not meet international standards, and without sacrificing comfort and energy saving.

[Embodiment 3: Embedded ceiling surface]
7A and 7B illustrate an air conditioner according to Embodiment 3 of the present invention. FIG. 7A is a perspective view showing the appearance of the indoor unit, and FIG. 7B is an installation of the indoor unit. It is a side view which shows a state.
In addition, each figure is shown typically and this invention is not limited to the form shown in figure. In addition, the same reference numerals are given to the same or corresponding parts as in the first embodiment, and a part of the description is omitted.

7A and 7B, an air conditioner 300 (not shown) including the indoor unit 301 according to Embodiment 3 includes a ceiling space (not shown) formed above the ceiling surface 93 of the room 90 ( (Embedded portion) An indoor unit (same as the load side unit) 301 embedded in 94, an outdoor unit (not shown) installed outside the room (not shown), and an extension pipe (not shown) connecting the indoor unit 301 and the outdoor unit Not)).
In addition, about the structure of the apparatus and refrigerant circuit for performing the refrigerating cycle of the air conditioning apparatus 300, and the way of flowing a refrigerant | coolant are the same as the air conditioning apparatus 100 (Embodiment 1), description is abbreviate | omitted.

(Indoor unit)
7A and 7B, the indoor unit 301 includes a quadrangular prism-shaped casing 310 having side surfaces 311a, 311b, 311c, and 311d, and the central range of the lower surface 312 of the casing 310 is open. The suction port 313 is formed, and the air outlets 314a, 314b, 314c, and 314d are formed along the side surfaces 311a, 311b, 311c, and 311d, respectively.
And the indoor ventilation fan 7f (refer FIG. 1, not shown) is installed facing the suction port 313 in the center of the housing | casing 310, and the indoor heat exchanger 7 is arrange | positioned so that the indoor ventilation fan 7f may be enclosed.

An electrical product storage box 320 is disposed at the suction port 313 of the air outlet 314a (the side opposite to the side surface 311a), and a name part 350 and a display unit 360 are provided on the lower surface of the electrical product storage box 320.
The lower surface 312 of the housing 310 is covered with a decorative panel (not shown) that is detachably installed. However, when the indoor unit 301 is installed in the ceiling space 94, the decorative panel is installed after the indoor unit 301 is installed. As shown in FIG. 7, the state is as shown in FIG. 7 (a part of the description is omitted). That is, when the indoor unit 301 is installed in the ceiling space 94, the name mark unit 350 and the display unit 360 are exposed and touched by the local worker.

(Display section)
Similarly to the display unit 260, the display unit 360 describes “This indoor unit should be installed at a height of 2.2 m or more (see FIG. 6)”. That is, in the above-mentioned formula of the international standard (IEC 60335-2-40) defined for the wall-mounted indoor unit installed on the wall surface in the room, the “installation height (H0) value” of the ceiling suspension type A certain “2.2m” is displayed.
The form of the display unit 360 is similar to the display unit 160.
In FIG. 7A, the electronic product storage box 320 is provided with the name mark portion 350 and the display portion 360. However, the present invention is not limited to this, and the name mark portion 350 and the display portion 360 are provided. One or both of these may be provided on the lower surface 312 (for example, between the air outlet 314b and the air outlet 314c).

(Function and effect)
Therefore, when the indoor unit 301 of the air conditioner 300 is installed in the ceiling space 94 of the ceiling surface 93, the lower surface (the display unit 360 is provided on the lower surface) of the electrical component storage box 320 is exposed to be visible from the outside. Will be. Then, the display unit 360 draws the attention of a local worker (not shown), so that the local worker can set the installation height (the lower surface 312 and the floor surface 92 of the casing 310) required for the indoor unit 301. Therefore, the indoor unit 301 (housing 310) can be installed at a predetermined installation height.
That is, inadvertent attachment to a low position is avoided, and a situation where international standards are not satisfied can be avoided.
In addition, since the display unit 360 that displays “applicable floor area based on the refrigerant charge amount” defined in the international standard is provided in the housing 310, the air conditioning is the same as in the first and second embodiments. The situation where the apparatus 300 is not carelessly installed in a room (narrow room) with a small floor area, which does not satisfy international standards, is avoided, and comfort and energy saving are not sacrificed.

  3 compressor, 4 four-way valve, 5 outdoor heat exchanger, 5f outdoor fan, 6 expansion valve, 7 indoor heat exchanger, 7f indoor fan, 8 outdoor refrigerant pipe, 9 indoor refrigerant pipe, 10a extension pipe, 10b extension Pipe, 11 Suction pipe, 12 Discharge pipe, 13a Extension pipe connection valve, 13b Extension pipe connection valve, 14a Service port, 14b Service port, 14c Service port, 15a Flare joint, 15b Flare joint, 16a Flare joint, 16b Flare joint, 90 indoor, 91 wall surface, 92 floor surface, 93 ceiling surface, 94 ceiling space, 100 air conditioner (Embodiment 1), 101 indoor unit, 102 outdoor unit, 110 housing, 111 upper surface, 112 suction port, 113 Front surface, 114 lower surface, 115 air outlet, 116 side surface, 117 side surface, 120 decorative panel, 1 0 vertical wind direction plate, 140 left and right wind direction plate, 150 name unit, 160 display unit, 170 installation plate, 180 display unit, 200 air conditioner (Embodiment 2), 201 indoor unit, 210 housing, 211 lower surface, 212 Suction port, 213 front surface, 214 air outlet, 215 rear surface, 216 side surface, 217 side surface, 220a suction port cover, 220b suction port cover, 230 top and bottom airflow direction plate, 240a casing, 240b casing, 240c casing, 240d casing, 250 name mark part , 260 Display unit, 300 Air conditioner (Embodiment 3), 301 Indoor unit (Embodiment 1), 310 Housing, 311a side surface, 311b side surface, 311c side surface, 311d side surface, 312 lower surface, 313 Suction port, 314a Air outlet, 314b Air outlet, 314c Air outlet, 314d Air outlet, 320 electrical product storage box, 350 nameplate part, 360 display part.

Claims (9)

A split-type air conditioner comprising an indoor unit and an outdoor unit,
The indoor unit is
A housing,
An indoor heat exchanger disposed in the housing and supplied with a flammable refrigerant;
A display unit that displays at least one of an installation height when installed indoors according to the form of the indoor unit, and an applicable indoor floor area based on the refrigerant charge amount of the air conditioner, and
The said display part is an air conditioning apparatus provided in the position which can be visually recognized from the exterior, when installing the said indoor unit among electrical goods storage boxes. The housing is embedded in the ceiling surface,
The air conditioner according to claim 1, wherein the display unit is provided on a lower surface of the electrical component storage box. A split-type air conditioner comprising an indoor unit and an outdoor unit,
The indoor unit is
A housing,
An indoor heat exchanger disposed in the housing and supplied with a flammable refrigerant;
A display unit that displays at least one of an installation height when installed indoors according to the form of the indoor unit, and an applicable indoor floor area based on the refrigerant charge amount of the air conditioner, and
The housing is installed on a wall surface via an installation plate,
The said display part is an air conditioning apparatus provided in the position which can be visually recognized from the outside when installing the said indoor unit among the said installation boards. A split-type air conditioner comprising an indoor unit and an outdoor unit,
The indoor unit is
A housing,
An indoor heat exchanger disposed in the housing and supplied with a flammable refrigerant;
A fan casing disposed in the housing and containing a blower fan;
A suction port for sucking air into the housing;
A suction port cover covering the suction port so as to be freely opened and closed;
A display unit that displays at least one of an installation height when installed indoors according to the form of the indoor unit, and an applicable indoor floor area based on the refrigerant charge amount of the air conditioner;
Have
The said display part is an air conditioning apparatus provided in the position which can be visually recognized from the outside via the said suction port, when the said suction port cover is opened among the said fan casings. A split-type air conditioner comprising an indoor unit and an outdoor unit,
The indoor unit is
A housing,
An indoor heat exchanger disposed in the housing and supplied with a flammable refrigerant;
An electrical component storage box disposed in the housing;
A decorative panel installed to cover the lower surface of the housing;
A display unit that displays at least one of an installation height when installed indoors according to the form of the indoor unit, and an applicable indoor floor area based on the refrigerant charge amount of the air conditioner;
Have
The said display part is an air conditioning apparatus provided in the lower surface of the said electrical goods storage box.   The air conditioner according to any one of claims 1 to 5, wherein the display unit is an uneven display or a printed display.   The air-conditioning apparatus according to any one of claims 1 to 6, wherein the display unit is configured such that a concavo-convex display or a printed display member is installed so that it cannot be removed or can be removed. The refrigerant is R32 (CH ₂ F ₂ ; difluoromethane), HFO-1234yf (CF ₃ CF═CH ₂ ; tetrafluoropropene) or HFO-1234ze (CF ₃ —CH═CHF) which is an HFC refrigerant. The air conditioning apparatus as described in any one of Claims 1-7. The indoor unit is
It further has a name part where at least the model or the name of the refrigerant is written,
The air conditioner according to any one of claims 1 to 8, wherein the display unit is provided so as to be aligned with the name mark unit.

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