JP4209912B2 - Air conditioner - Google Patents

Description

  The present invention relates to an air conditioner.

  Conventionally, as an air conditioner, there is one in which a temperature sensor is attached to the front side of a heat exchanger using an attachment (see, for example, JP-A-9-178305 (Patent Document 1)).

  In this air conditioner, since the temperature sensor is disposed in the wind passage during operation, the temperature of the air sucked from the room can be detected correctly. However, in the multi-type air conditioner including a plurality of indoor units, since one or more indoor units are in operation and the refrigerant is flowing to prevent the refrigerant from being accumulated in the indoor units that are stopped, the temperature sensor is heated. There is a problem that the room temperature cannot be detected correctly due to the temperature of the exchanger.

An air conditioner with a temperature sensor provided at a position away from the heat exchanger in the main body casing is also conceivable, but in a limited space, the temperature sensor affects the influence of the temperature of the connecting pipe connected to the heat exchanger. Similarly, there is a problem that the room temperature cannot be detected correctly.
JP-A-9-178305

  Accordingly, an object of the present invention is to provide an air conditioner that can accurately detect the room temperature even when the operation is stopped with a simple configuration.

In order to solve the above problems, the air conditioner of the present invention is
A body casing containing a heat exchanger;
A front grille attached to the front side of the main body casing and having an opening opening forward ;
A turbofan which is disposed in the main body casing and blows air sucked from the front side through the opening of the front grille radially outward with respect to an axis;
A front panel attached to the front side of the front grill;
A temperature sensor attached between the heat exchanger and a connecting pipe connected to the heat exchanger;
A cover for blocking between the temperature sensor and the heat exchanger and between the temperature sensor and the communication pipe;
An air passage is formed between the front grille and the front panel so that air sucked by the turbofan flows from the side of the main body casing toward the opening of the front grille,
The temperature sensor is characterized in that it is arranged in the air passage.

According to the air conditioner having the above-described configuration, the position of the temperature sensor is between the heat exchanger and the communication pipe, and further, the cover blocks between the temperature sensor and the heat exchanger and between the temperature sensor and the communication pipe. Thus, the influence of radiant heat from the heat exchanger and the communication pipe can be reduced regardless of whether or not the operation is performed. During operation, air sucked in by the turbofan flows from the side of the main body casing toward the opening of the front grille into the air passage formed between the front grille where the temperature sensor is arranged and the front panel. since, accurately temperature detection is performed by the temperature sensor. Therefore, the room temperature can be accurately detected even when the operation is stopped with a simple configuration.

  Moreover, in the air conditioner of one embodiment, the cover is a part of the front grill.

  According to the above embodiment, since the cover that shields the radiant heat from the heat exchanger and the communication pipe is a part of the front grille, the front grille around the cover can also be used for shielding, and the shielding effect can be obtained. Can be increased.

  Moreover, in the air conditioner of one Embodiment, the said temperature sensor exists on the plane ahead rather than the front side plane of the said heat exchanger.

  According to the said embodiment, a temperature sensor can be arrange | positioned in the position away from the heat exchanger or connecting piping by making the said temperature sensor on the plane ahead rather than the front side plane of a heat exchanger, and a heat exchanger and The influence of radiant heat from the connecting pipe can be further reduced.

  As is clear from the above, according to the air conditioner of the present invention, it is possible to realize an air conditioner that can accurately detect the room temperature even when the operation is stopped with a simple configuration.

  Moreover, according to the air conditioner of one embodiment, since the cover that shields the radiant heat from the heat exchanger and the communication pipe is a part of the front grille, the front grille around the cover is also used for shielding. It is possible to enhance the shielding effect.

  Further, according to the air conditioner of one embodiment, the temperature sensor can be arranged at a position away from the heat exchanger and the connecting pipe by making the temperature sensor on a plane in front of the front side plane of the heat exchanger. Further, the influence of radiant heat from the heat exchanger and the connecting pipe can be further reduced.

  Hereinafter, the air conditioner of this invention is demonstrated in detail by embodiment of illustration.

  FIG. 1 shows a circuit diagram of a refrigerant circuit of an air conditioner according to an embodiment of the present invention. As shown in FIG. 1, this air conditioner has a compressor 1, a four-way valve 2 connected to one end of the discharge side of the compressor 1, and one end connected to the other end of the four-way valve 2. The outdoor heat exchanger 3, an electric expansion valve 4 having one end connected to the other end of the outdoor heat exchanger 3, and one end connected to the other end of the electric expansion valve 4 via a closing valve 12 and a communication pipe L1 One end of the indoor heat exchanger 5 is connected to the other end of the indoor heat exchanger 5 via the closing valve 13, the connecting pipe L 2, and the four-way valve 2, and the other end is connected to the suction side of the compressor 1. The accumulator 6 is provided. The compressor 1, the four-way valve 2, the outdoor heat exchanger 3, the electric expansion valve 4, the indoor heat exchanger 5 and the accumulator 6 constitute a refrigerant circuit.

  The air conditioner includes an outdoor fan 7 disposed in the vicinity of the outdoor heat exchanger 3, an indoor fan 8 disposed in the vicinity of the indoor heat exchanger 5, a temperature sensor 9 for detecting the indoor temperature, and the above temperature. A control device 11 is provided for controlling the compressor 1, the electric expansion valve 4, the outdoor fan 7, the indoor fan 8, the temperature sensor 9 and the like based on the indoor temperature detected by the sensor 9.

  The control device 11 includes a microcomputer and an input / output circuit, and controls the compressor 1, the four-way valve 2, the electric expansion valve 4, the outdoor fan 7, and the like.

  The compressor 1, the four-way valve 2, the outdoor heat exchanger 3, the electric expansion valve 4, the accumulator 6, the outdoor fan 7 and the control device 11 constitute the outdoor unit 10, and the indoor heat exchanger 5, the indoor fan 8 and the temperature. The indoor unit 20 is configured by the sensor 9.

  In the air conditioner having the above-described configuration, when the compressor 1 is started by switching the four-way switching valve 2 to the solid line switching position during the heating operation, the high-pressure refrigerant discharged from the compressor 1 passes through the four-way switching valve 2. And enters the indoor heat exchanger 5. Then, the refrigerant condensed in the indoor heat exchanger 5 enters the outdoor heat exchanger 3 after being decompressed by the electric expansion valve 4. The refrigerant evaporated in the outdoor heat exchanger 3 returns to the suction side of the compressor 1 through the four-way switching valve 2 and the accumulator 6. In this way, the refrigerant circulates through the refrigerant circuit constituted by the compressor 1, the indoor heat exchanger 5, the electric expansion valve 4, the outdoor heat exchanger 3, and the accumulator 6, and the refrigeration cycle is executed. Then, the indoor fan 8 heats the room by circulating the room air through the indoor heat exchanger 5.

  On the other hand, at the time of cooling operation, the four-way switching valve 2 is switched to the dotted line switching position, and the refrigerant in the order of the compressor 1, the outdoor heat exchanger 3, the electric expansion valve 4, the indoor heat exchanger 5, and the accumulator 6. Execute a refrigeration cycle in which

  FIG. 2 shows a perspective view of the floor-standing indoor unit 20 of the air conditioner. As shown in FIG. 2, the indoor unit 20 is attached to a substantially rectangular bottom frame 21 as an example of a main body casing whose rear side is attached to the wall surface of the room, and to the front side of the bottom frame 21, and is substantially attached to the front surface. A front grille 22 having a rectangular opening 22c and a front panel 23 attached to cover the opening 22c of the front grill 22 are provided.

  An upper air outlet 22 a is provided at the upper part of the front grill 22, and a lower air outlet 22 b is provided at the lower part of the front grill 22. A flap 24 is provided at the upper air outlet 22 a of the front grill 22. The flap 24 is rotated during the cooling operation and the heating operation so that cool air and warm air are blown forward and obliquely upward from the upper air outlet 22a, and when stopped, as shown in FIG. 2, the upper air outlet 22a is blown out. Cover.

  Further, an upper suction port 23a is provided on the upper side of the front panel 23, a lower suction port 23b is provided on the lower side of the front panel 23, and a side suction port 23c (right side in FIG. Only shown).

  FIG. 3 is a perspective view of the air conditioner floor-standing indoor unit 20 with the front panel 23 removed, and the same reference numerals are assigned to the same components shown in FIG. Yes.

  As shown in FIG. 3, a sensor portion 31 that protrudes forward from the right side of the front grill 22 is provided in the air passage between the front grill 22 and the front panel 23. The temperature sensor 9 is disposed in the sensor unit 31 and is in a position not facing the indoor fan 8 in a front view. A humidity sensor may be disposed in the sensor unit 31 together with the temperature sensor 9.

  The sensor unit 31 has a substantially cubic shape, and has a plurality of slits on five surfaces except the bottom on the front grille 22 side. A plate-like substrate 51 (shown in FIG. 5) to which the temperature sensor 9 is attached is fixed to the bottom of the front grill 22 side in the sensor unit 31, and the back side of the temperature sensor 9 is shielded by the substrate. Yes. Thereby, the radiant heat from the indoor heat exchanger 5 and the connecting pipes L1 and L2 (shown in FIG. 5) is blocked. Therefore, the indoor temperature can be accurately detected by the temperature sensor 9 during the operation stop.

  Here, when the operation is started, the indoor air sucked into the right side surface of the front panel 23 from the side suction port 23c passes through the air passage between the front grille 22 and the front panel 23 and flows through the front grille 22. It is sucked into the opening 22c. Thereby, the indoor temperature can be accurately detected by the temperature sensor 9 even during operation.

  FIG. 4 shows a sectional view of the indoor unit 20 of the air conditioner. In FIG. 4, reference numeral 31 denotes a sensor unit.

  As shown in FIG. 4, the motor 26 is fixed to the approximate center of the bottom frame 21. The indoor fan 8 to which the shaft of the motor 26 is connected is disposed on the bottom frame 21 so that the shaft is in the front-rear direction. The indoor fan 8 is a turbo fan that blows air sucked from the front side outward in the radial direction with respect to the shaft. A bell mouth 27 is provided on the bottom frame 21 on the front side of the indoor fan 8. An indoor heat exchanger 5 is arranged on the front side of the bell mouth 4, a front grill 22 is attached to the front side of the indoor heat exchanger 5, and a front panel 23 is attached to the front side of the front grill 22. . A filter 25 is attached to the opening 22 a of the front grill 22. A drain pan 28 is disposed below the bell mouth 27 and below the indoor heat exchanger 5.

  Further, a flap 24 for controlling the blowing direction in the vertical direction is arranged at the upper outlet 22a of the upper blowing passage P1 of the front grill 22. On the other hand, a shutter 30 for opening and closing the lower air outlet 22b is disposed in the lower air outlet passage P2 of the front grill 22. The shutter 30 rotates around a shaft 30a provided on the bottom frame 21 side and the lower blowing passage P2, and A indicated by a one-dot chain line is in an open state, and B indicated by a solid line is in a closed state. is there.

  While the air sucked from the opening 22c side of the front grill 22 by the indoor fan 8 is blown radially outward with respect to the shaft, the air is blown obliquely upward and forward from the upper outlet 22a via the upper outlet passage P1. Then, air is blown forward from the lower outlet 22b via the lower outlet passage P2.

  5 is a schematic diagram for explaining the position of the temperature sensor 9 of the indoor unit 20, FIG. 5 (a) shows a schematic front view, and FIG. 5 (b) shows a schematic top view. .

  As shown in FIGS. 5A and 5B, an electrical component box 50 is disposed on the right side and above the indoor heat exchanger 5 in the bottom frame 21. Further, an upper air outlet 22 a is arranged at the upper part of the front grille 22, while a partial air outlet 22 b is arranged at the lower part of the front grille 22. Further, connecting pipes L 1 and L 2 having one end connected to the indoor heat exchanger 5 are arranged on the right side of the indoor heat exchanger 5 in the bottom frame 21 and below the electrical component box 50. A temperature sensor 9 mounted on a substrate 51 as an example of a cover is disposed in front of the lower part of the electrical component box 50. The temperature sensor 9 mounted on the substrate 51 is disposed in the sensor unit 31 provided on the front grille 22, and the substrate 51 covers the back side of the sensor unit 31. The space between the outer periphery of the substrate 51 and the outer periphery of the opening of the sensor portion 31 of the front grille 22 is sealed with a sealing member (not shown), so that the temperature sensor is connected to the indoor heat exchanger 5 and the communication pipes L1 and L2. The influence of heat on 9 can be further suppressed.

  Conventionally, for example, a slit is provided on the lower side of the right side surface of the bottom frame 21, a wind passage from the side to the indoor heat exchanger 5 is provided, and the temperature sensor 109 is disposed in the vicinity of the slit. However, in a multi-type air conditioner that flows a small amount of refrigerant so that the refrigerant does not accumulate in the indoor unit in the stop room, the temperature cannot be accurately detected due to the influence of radiant heat from the communication pipes L1 and L2.

  On the other hand, in the air conditioner of this embodiment, the position of the temperature sensor 9 is between the indoor heat exchanger 5 and the connecting pipes L1 and L2, and the temperature sensor 9 and the indoor heat are further covered by the substrate 51 which is a cover. Reducing the influence of radiant heat from the indoor heat exchanger 5 and the connection pipes L1 and L2 regardless of the operation by blocking between the exchanger 5 and between the temperature sensor 9 and the connection pipes L1 and L2. Can do. Further, during operation, air from the room flows through the air passage between the front grille 22 and the front panel 23 where the temperature sensor 9 is disposed, so that the temperature sensor 9 accurately detects the temperature. Therefore, the room temperature can be accurately detected even when the operation is stopped with a simple configuration.

  Further, since the substrate 51 as a cover for shielding the radiant heat from the indoor heat exchanger 5 and the communication pipes L1 and L2 is a part of the front grille 22, the front grille 22 around the substrate 51 is also shielded. It can be used for the shielding effect.

  Moreover, the temperature sensor 9 can be arrange | positioned in the position away from the indoor heat exchanger 5 and communication piping L1, L2 by making the said temperature sensor 9 into a plane ahead rather than the front side plane of the indoor heat exchanger 5, The influence of the radiant heat from the indoor heat exchanger 5 and the communication pipes L1 and L2 can be further reduced.

  In the above embodiment, the floor-standing indoor unit of the air conditioner has been described, but the air conditioner is not limited to this.

  In the above embodiment, a separate type air conditioner including an outdoor unit and an indoor unit has been described. However, the present invention may be applied to an air conditioner having another configuration.

FIG. 1 is a circuit diagram of a refrigerant circuit of an air conditioner according to an embodiment of the present invention. FIG. 2 is a perspective view of the floor-standing indoor unit of the air conditioner. FIG. 3 is a perspective view of the air conditioner with the front panel removed from the floor-standing indoor unit. FIG. 4 is a cross-sectional view of the indoor unit. FIG. 5 is a schematic diagram for explaining the position of the temperature sensor of the indoor unit.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Compressor 2 ... Four-way valve 3 ... Outdoor heat exchanger 4 ... Electric expansion valve 5 ... Indoor heat exchanger 6 ... Accumulator 7 ... Outdoor fan 8 ... Indoor fan 9 ... Flap drive part 10 ... Outdoor unit 11 ... Control device DESCRIPTION OF SYMBOLS 11a ... Flap control part 11b ... Shutter control part 12,13 ... Shut-off valve 20 ... Indoor unit 21 ... Bottom frame 22 ... Front grille 22a ... Upper side outlet 22b ... Lower side outlet 22c ... Opening part 23 ... Front panel 23a ... Upper side Suction port 23b ... Lower suction port 23c ... Side suction port 24 ... Flap 25 ... Filter 26 ... Motor 27 ... Bell mouth 30 ... Shutter 31 ... Sensor part L1, L2 ... Connection piping 50 ... Electrical component box 51 ... Substrate

Claims (3)

A body casing (21) in which the heat exchanger (5) is housed,
A front grille (22) attached to the front side of the main casing (21 ) and having an opening (22c) opening forward ;
A turbo fan (8) disposed in the main body casing (21) and for blowing air sucked from the front side through the opening (22c) of the front grille (22) radially outward with respect to an axis;
A front panel (23) attached to the front side of the front grill (22);
A temperature sensor (9) attached between the heat exchanger (5) and the connecting pipes (L1, L2) connected to the heat exchanger (5);
A cover (51) for blocking between the temperature sensor (9) and the heat exchanger (5) and between the temperature sensor (9) and the connecting pipe (L1, L2);
Between the front grille (22) and the front panel (23), the air sucked by the turbofan (8) from the side of the main body casing (21) opens the opening ( 22c) an air passage is formed which flows into
The temperature sensor (9) is an air conditioner which is characterized in that it is arranged in the air passage. In the air conditioner according to claim 1,
The air conditioner characterized in that the cover (51) is a part of the front grille (22). In the air conditioner according to claim 1 or 2,
The air conditioner characterized in that the temperature sensor (9) is on a plane in front of the front plane of the heat exchanger (5).

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