JP2001027428A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To ensure the comfortable air-conditioning property, and to reduce the cost by increasing the degree of freedom in installation work of an indoor unit in an air conditioner arranged on an upper part of an indoor space. SOLUTION: In this air conditioner, an air inlet 19 is provided on a lower side of an indoor unit 1, air outlets are respectively provided on at least two side surfaces 1a, 1d out of a plurality of side surfaces 1a-1d, and air outlet ducts 6, 6,... to open in an indoor space 25 are connected to each air outlet. The outlet position of the conditioned air into the indoor space can be easily set at the optimum position irrespective of the installation position of the indoor unit 1 by selectively setting the arrangement direction of the outlet duct 6 from the indoor unit 1 through the selective use of the air outlets, and the more comfortable air-conditioning property can be realized.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner having an indoor unit disposed above an indoor space.

[0002]

2. Description of the Related Art Conventionally, an indoor unit is disposed above a room, for example, above a ceiling surface (that is, above the ceiling).
A so-called "built-in type" air conditioner is known. In such an air conditioner, normally, air-conditioned air blown from an indoor unit is guided to an appropriate part in a room through a blow duct, and blown out from the room. The so-called “cassette type” air conditioner is configured to blow air into the room directly from the indoor unit because it is configured to blow air into the room through the unit, which is particularly suitable as an air conditioner for an indoor space with a large floor area. Even now, the mainstream demand is still strong.

[0003]

The indoor unit of the conventional "built-in type" air conditioner is provided with a suction opening on the lower surface thereof on the ceiling surface side, and one side in the side surface thereof. A single outlet directed only to the outlet is connected to the outlet, and the outlet duct is connected to the downstream side of the outlet and appropriately branched to extend to a required outlet position. It was common to adopt the "one-way blowing method".

However, the optimum position of the air-conditioned air to be blown into the room varies depending on the size of the room or the condition of use, and the like. In an air conditioner equipped with an indoor unit, the direction in which the blow-out duct is taken out is uniquely determined by the installation direction of the indoor unit, and in some cases, it is difficult to install the blow-out unit at a desired blow-out position. It is feared that there will be problems such as not being able to provide comfortable air conditioning and making the installation of the blow-out duct difficult.

Accordingly, the present invention provides an air conditioner in which an indoor unit is disposed above an indoor space and air-conditioned air is blown from the indoor unit via a duct. The main purpose is to secure air conditioning and reduce costs.

[0006]

Means for Solving the Problems In the present invention, the following configuration is adopted as specific means for solving such problems.

According to a first aspect of the present invention, in an air conditioner having an indoor unit 1 disposed on a ceiling side, the indoor unit 1 has a suction port 19 on a lower surface thereof and a plurality of side surfaces 1a to 1a. At least two or more side surfaces 1a to 1d
Each of the outlets 20 is provided with an outlet 20, and each of the outlets 20, 20,... can be connected to an outlet duct 6, 6,.

According to a second aspect of the present invention, in the air conditioner according to the first aspect, the plurality of side surfaces 1a to 1 are provided.
d, a pair of side surfaces 1a and 1 facing each other in two directions having an angle of approximately 90 ° in plan view.
c and the pair of side surfaces 1b and 1d are provided with the outlets 20 respectively.

In the third invention of the present application, the first or the second
In the air conditioner according to the present invention, each of the outlets 2
0, 20,... Or each of the above outlet ducts 6, 6,.
Are provided with opening and closing mechanisms 9 for opening and closing the outlet 20 or the outlet duct 6, respectively.

According to a fourth aspect of the present invention, in the air conditioner according to the third aspect, each of the opening / closing mechanisms 9, 9,
··· are individually controllable.

According to a fifth aspect of the present invention, in the air conditioner according to the third aspect, each of the opening / closing mechanisms 9, 9,
Is characterized in that interlock control can be performed based on a predetermined control pattern.

According to a sixth aspect of the present invention, in the air conditioner according to the first aspect, an air supply duct 8 for introducing outside air is connected to a position near the suction port 19.

[0013]

According to the present invention, the following effects can be obtained by adopting such a configuration.

In the air conditioner according to the first invention of the present application, the suction port 19 is provided on the lower surface side of the indoor unit 1, and at least two or more of the side surfaces 1 a to 1 d are provided.
The air outlets 20 are provided in each of the outlets a to 1d, and the air outlets 20, 20,... can be connected to the air outlet ducts 6, 6,.

Therefore, according to the air conditioner of the present invention, at least two or more of the side surfaces 1a to 1d of the plurality of side surfaces 1a to 1d of the indoor unit 1
, And the outlet ducts 6, 6, ... can be connected to the outlets 20, 20, ..., respectively, so that the outlets 20, 20, ... can be selectively used. By selectively setting the direction in which the blow-out duct 6 is pulled out from the indoor unit 1, the air-conditioning of the position of the blow-out end of the blow-out duct 6, that is, the indoor space 25 irrespective of the installation position of the indoor unit 1. The air blowing position can be easily set to the optimum position, and more comfortable air conditioning can be realized.

Further, when installing the indoor unit 1, it is possible to install the indoor unit 1 at an optimum position without being restricted by the position for blowing the air-conditioned air.
In the construction of the indoor unit 1, the outlets 20 and 2 of the indoor unit 1 are also used.
By selecting an air outlet 20 from among 0,... Which facilitates the operation of the air outlet duct 6, the work of installing the air outlet duct 6 can be facilitated and speeded up. Cost reduction of the air conditioner is promoted.

On the other hand, since the suction port 19 is provided on the lower surface of the indoor unit 1 and faces the indoor space 25, the inspection and maintenance of the indoor unit 1 uses the suction port 19 from the indoor space 25 side. Inspection and maintenance can be performed easily and safely, for example, as compared with a case where the suction port 19 is provided at a position laterally off the lower surface of the indoor unit 1. it can.

In a second aspect of the present invention, in the air conditioner according to the first aspect, the plurality of side surfaces 1a are provided.
To 1d, a pair of side surfaces 1 facing each other in two directions having an angle of approximately 90 ° in plan view.
a, 1c and the other pair of side surfaces 1b, 1d are provided with the outlets 20, respectively.
The degree of freedom in selecting the drawing direction of 6,... Is improved, and the effects described above are further promoted.

According to the air conditioner of the third invention of the present application, the following specific effects can be obtained in addition to the effects described above or above. That is, in the air conditioner of the present invention, the opening / closing mechanism 9, 9 for opening / closing the outlet 20 or the outlet duct 6 is provided at each of the outlets 20, 20,. , Respectively, the opening and closing mechanisms 9, 9,..., Or the outlet ducts 6, 6,.
.. by opening or closing as necessary, for example,
Even when a plurality of air-conditioning modes are required as the air-conditioning mode, such as air-conditioning of the entire area of the indoor space 25, air-conditioning of only a specific portion (one or more portions) of the indoor space 25, etc. The air-conditioning mode can be realized accurately, and the convenience in use is further improved.

According to the air conditioner of the fourth invention of the present application, the following specific effects can be obtained in addition to the effects described above. That is, in the air conditioner of the present invention, the opening and closing mechanisms 9, 9,... Can be individually operated and controlled.
Are individually controlled to open and close, for example, it is possible to individually set the amount of blown air at each of a plurality of blowing positions to the indoor space 25.
5 can accurately respond to the air-conditioning requirements of each part, and more comfortable air-conditioning can be secured.

According to the air conditioner of the fifth invention of the present application, the following specific effects can be obtained in addition to the effects described above. That is, in the air conditioner of the present invention, the opening / closing mechanisms 9, 9,... Can be interlocked and controlled based on a predetermined control pattern, so that, for example, the opening / closing mechanisms 9, 9,. , The air in the indoor space 25 can be convected, and the air in the indoor space 25 can be generated. When the space 25 is a large space, the temperature distribution of the indoor air is improved by the convection of the air, and more comfortable air conditioning is secured.

According to the air conditioner of the sixth aspect of the present invention, the following specific effects can be obtained in addition to the effects described above. That is, in the air conditioner of the present invention, since the air supply duct 8 for introducing outside air is connected to a position near the suction port 19, the outside air is introduced from the air supply duct 8 so that the indoor space 25 is formed. The ventilation can be performed together with the air conditioning, and further improvement in the indoor comfort can be expected.

[0023]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be specifically described based on preferred embodiments.

FIG. 1 shows an installation state of an air conditioner Z according to the present invention. The air conditioner Z is a so-called “built-in type” air conditioner, and includes an indoor unit 1 described below, which is disposed in a position above the ceiling surface 10 of the indoor space 25, that is, in the space above the ceiling, and The outdoor unit 2 is connected to the outdoor unit 2 via refrigerant pipes 3 and 4.

As shown in FIGS. 2 and 3, the indoor unit 1 has a casing 11 having a rectangular casing.
The casing 11 has a form in which the internal space is divided into upper and lower two parts, and a space part located on the upper side is a ventilation space 31 and a space part located on the lower side is an air supply chamber 32.

A centrifugal fan 12 rotationally driven by a motor 13 is disposed in the ventilation space 31 with its axis oriented in the vertical direction, and is formed in an annular shape radially outside the centrifugal fan 12. A heat exchanger 14 is arranged to surround the centrifugal fan 12. A bell mouth 16 and a filter 15 are arranged on the suction side of the centrifugal fan 12 so as to face the fan suction port 33.

Further, outlets 20, 20,... Are formed in the four side walls of the casing 11 at portions corresponding to the ventilation spaces 31, respectively. Each of the outlets 20, 20,.
6, ... are connected. Further, dampers 9, 9,... For opening and closing the respective blow ducts 6, 6,. As shown in FIG. 1, the outlet duct 6 is drawn out from the casing 11 in a predetermined lateral direction and connected to an outlet unit 7 provided on the ceiling surface 10.

On the other hand, at a position on one side wall of the casing 11 facing the air supply chamber 32, the air supply inlet 3 is provided.
5 is formed, and the air supply duct 8 is connected to the air supply inlet 35. Further, a chamber suction port 34 facing the fan suction port 33 through the air supply chamber 32 is provided on a lower surface of the casing 11. Further, on the lower surface of the casing 11, radially outside the chamber suction port 34, the chamber suction port 3 is provided.
4, a canvas duct 21 is attached. The ceiling panel 10 has a suction panel 1
7 is mounted from the indoor side, and the suction panel 1
The lower end of the canvas duct 21 is connected to 7.

In this embodiment, the internal space 19 of the canvas duct 21 corresponds to the "suction port 19" in the claims. Further, in this embodiment, the outlet ducts 6, 6, ... are connected to all the outlets 20, 20, ... of the ceiling surface 10, respectively. It is not always necessary to connect the outlet ducts 6, 6,... To the outlet ducts 6, 6,. The above four outlets 20, 20,... Can be appropriately selected and used in consideration of the characteristics (i.e., one-sided, two-sided, three-sided and four-sided outlets as the outlet form). Can be appropriately selected). In this case, the unselected outlets 20 are closed by blind covers (not shown).

In the indoor unit 1 configured as described above, when the centrifugal fan 12 is rotated, the room air is drawn into the suction port 19 from the suction port 19 through the air supply chamber 32 as the suction air Aa. Side and is blown radially outward from the outer peripheral side. And
The air blown from the centrifugal fan 12 is supplied to the heat exchanger 1
4, when it passes through the heat exchanger 14, heat exchange is performed with the refrigerant on the side of the heat exchanger 14 to generate hot air or cold air.
Are blown out from each of the outlet units 7, 7,... To the indoor space 25 side as the blown air Ab to heat or cool the indoor space 25. Further, in this case, outside air is introduced into the air supply chamber 32 through the air supply duct 8 as air supply Ac, which merges with the intake air from the room, and is sucked into the centrifugal fan 12 as the intake air Aa. Thus, the ventilation action of the indoor space 25 is performed at the same time. Note that a damper (not shown) is provided in the air supply duct 8.
The damper is opened and closed according to the necessity of ventilation.

As shown in FIG. 1, the indoor unit 1 configured and operated as described above has a state in which the suction port 19 is directed downward in the space above the ceiling surface 10 in the room space 25. Installed in The outlets 20, 20,... Provided on the side walls 1a to 1d of the indoor unit 1.
Are connected to the outlet units 7, 7,... Installed at appropriate positions on the ceiling surface 10, respectively.

As described above, the plurality of outlets 20, 20,...
0, 20,.
Is connectable, for example, as in the conventional case, an air outlet duct is connected to a single air outlet provided on a specific side wall of an indoor unit, and the single air outlet duct is appropriately branched to indoor space. Compared to the configuration in which blow air is introduced into each part of
The degree of freedom of installation of the indoor unit 1 and each of the outlet ducts 6,
6. The degree of freedom of handling during construction of both is increased. As a result, the indoor unit 1 with respect to the indoor space 25
Irrespective of the relative installation position of each of the air outlet ducts 6, 6,... To the respective air outlet units 7, 7,. The suction air Aa can be reliably blown out to the position, thereby ensuring comfortable air conditioning.

Also, there are restrictions on the installation of the indoor unit 1,
In addition, since the restriction on the construction of the blow duct 6 is eliminated as much as possible, the installation work of the indoor unit 1 and the construction work of the blow duct 6 are both easy and quick, and as a result, air conditioning is achieved. Cost reduction of the entire apparatus Z can be expected.

On the other hand, as described above, in the indoor unit 1 of this embodiment, the suction port 19 is provided on the lower surface of the indoor unit 1 and this is connected to the indoor space 2 through the ceiling surface 10.
5, at the time of inspection and maintenance of the indoor unit 1, the suction port panel 17 can be removed from the indoor space 25 side, and this can be performed using the suction port 19. The inspection unit is provided at a position deviated laterally from the lower surface of the indoor unit 1, and the inspection and maintenance can be easily and safely performed as compared with a case where the inspection and maintenance need to be performed behind the ceiling. .

On the other hand, as shown in FIG. 1, in this embodiment, the indoor space 25 corresponds to the installation position of each of the outlet units 7, 7,... And four air conditioning zones 25A to 25D. And each of these air conditioning zones 25A
The room temperature sensors 22, 22,... Further, the indoor space 25 is provided with a remote controller 23 for performing air conditioning control for each of the air conditioning zones 25A to 25D. In response to the operation of the remote controller 23, a remote controller 23 for each of the air conditioning zones 25A to 25D is provided. Air conditioning control is performed.

For example, when an air conditioning request at a different temperature is issued for each of the air conditioning zones 25A to 25D by the operation of the remote controller 23 (ie, at the time of individual control for each of the air conditioning zones 25A to 25D). Are based on the detection values from the room temperature sensors 22, 22,... Provided for each of the air conditioning zones 25A to 25D.
This is realized by appropriately opening and closing the dampers 9, 9,... Of the blow-out ducts 6, 6,... Corresponding to the air conditioning zones 25A to 25D.

Further, for example, when the interlocking control is selected by the remote controller 23, the dampers 9, 9,... Provided in the four blow ducts 6, 6,. It is also possible to control to open and close sequentially in a direction (for example, “clockwise” or “counterclockwise”). According to this interlocking control, the blown air Ab is blown out intermittently from each of the outlet units 7, 7,... Sequentially, so that convection can be generated in the air in the indoor space 25. The convection of the air can improve the temperature distribution in the room and realize more comfortable air conditioning. Such an effect becomes remarkable especially when the indoor space 25 is a large space.

In the above embodiment, when the ceiling surface 10 is provided above the indoor space 25, the indoor unit 1 and the above-mentioned indoor unit 1 are provided above the ceiling surface 10 (that is, in the space above the ceiling). Each of the outlet ducts 6, 6,... Is installed, and each of the outlet units 7, 7,.
However, the air conditioner of the present invention is not limited to such an installation structure. For example, the air conditioner of the present invention may be applied to a building having a structure in which a ceiling surface is not provided above the indoor space 25. In addition, the indoor unit 1, the outlet ducts 6, 6, ..., and the outlet units 7, 7, ... can be installed in an exposed state at an upper position of the indoor space 25. is there.

[Brief description of the drawings]

FIG. 1 is a perspective view showing an overall configuration of an air conditioner according to the present invention.

FIG. 2 is a plan view of the indoor unit shown in FIG.

FIG. 3 is a sectional view taken along the line III-III of FIG. 2;

[Explanation of symbols]

1 is an indoor unit, 2 is an outdoor unit, 3 and 4 are refrigerant pipes, 5 is a drain pipe, 6 is an outlet duct, 7 is an outlet unit, 8 is an air supply duct, 9 is a damper, 10 is a ceiling surface, 11 is Casing, 12 is a centrifugal fan, 13 is a motor, 14 is a heat exchanger, 15 is a filter, 16 is a bell mouth, 17 is an inlet panel, 19 is an inlet, 20 is an outlet, 21 is a canvas duct, and 22 is room temperature. Sensor, 23 is a remote controller, 25
Is an indoor space, 25A to 25D are zones, 31 is a ventilation space, 32 is an air supply chamber, 33 is a fan inlet, 34
Is a chamber suction port, 35 is an air supply inlet, Aa is suction air, Ab is blown air, Ac is air supply, and Z is an air conditioner.

Continuing on the front page (72) Inventor Kozo Kuroda 1304 Kanaokacho, Sakai-shi, Osaka Daikin Industries, Ltd. Sakai Seisakusho Kanaoka Plant F-term (reference) 3L053 BB01 BB02 BB04

Claims (6)

[Claims] 1. An air conditioner comprising an indoor unit (1) arranged on a ceiling side, wherein the indoor unit (1) is provided with a suction port (19) on a lower surface side thereof, and a plurality of indoor units are provided. At least two or more of the side surfaces (1a) to (1d) are provided with an air outlet (20) on each of the at least two side surfaces (1a) to (1d), and each of the air outlets (2
An air conditioner characterized in that blowout ducts (6), (6),... That open into the indoor space (25) can be connected to (0), (20),. 2. The side surface (1a) according to claim 1, wherein, of the plurality of side surfaces (1a) to (1d), one pair of side surfaces (1a) facing each other in two directions having an angle of approximately 90 ° in plan view. An air conditioner characterized in that the air outlet (20) is provided in each of (1c) and the other pair of side surfaces (1b) and (1d). 3. The air outlet (20) according to claim 1, wherein the air outlets (20), (20),... Or the air outlet ducts (6), (6),. )
Or an opening / closing mechanism (9) for opening and closing the blow-out duct (6),
(9) An air conditioner characterized by being provided with: 4. The air conditioner according to claim 3, wherein each of the opening and closing mechanisms (9), (9),... Is individually controllable. 5. The air conditioner according to claim 3, wherein each of the opening / closing mechanisms (9), (9),... Can be controlled in an interlocked manner based on a predetermined control pattern. 6. The air conditioner according to claim 1, wherein an air supply duct (8) for introducing outside air is connected to a position near the suction port (19).