JP2014031911A - Conditioned air outlet and energy-saving air conditioning system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a conditioned air outlet capable of effectively uniformizing an indoor temperature while saving energy, and an energy-saving air conditioning system using the same.SOLUTION: An conditioned air outlet is composed of: a frame body that is fitted into a hole formed on a ceiling material, has a flange abutting the ceiling material, is connected with a conditioned air discharge port of an air conditioner through a duct, and is open at its indoor side; a hanging tool that comprises a ducter hung between wood shafts in a ceiling space, a bar fixed to the ducter at one end and locked in a through hole of a top plate of the frame body at the other end to fix the frame body to the ceiling material, and a rubber vibration insulator disposed in the bar; a cover locked in the frame body and having an opening; and a blower accommodated in the cover and including a fin rotated by a fan motor. Locking means of the frame body and the cover is composed of bars projected from two side faces in the frame body, and claws connected to two side faces of an outer periphery of the cover. The claws are locked to the bars to lock the cover accommodating the blower to the frame body, and spaces are provided between the fin and the frame body and between the frame body and the cover.

Description

  In order to improve the air-conditioning efficiency in an air-conditioning outlet that blows out air-conditioned air that is buried in the ceiling and air-conditioned by the present invention, and in a room without air-conditioning equipment or a room with air-conditioning equipment, The present invention relates to an energy-saving air conditioning system that mixes and circulates so that the room temperature is made uniform.

  Conventionally, it has been known to recirculate indoor air in order to make the indoor temperature uniform. Moreover, a system that acquires air-conditioned air from a commercial air conditioner, sends it to a room that does not include air-conditioning equipment, and performs air-conditioning is known (Patent Document 1).

  The invention described in Patent Document 1 is an air agitating device used together with a blower duct that sends conditioned air into a room, and includes an air conditioned windmill and an indoor fan, and the conditioned windmill blows air into the room from the blower duct. The indoor fan rotates with the rotation of the conditioned wind turbine, and is provided so as to be able to blow air to be mixed with the conditioned air downstream of the conditioned wind turbine. This is an air agitating device that can reduce the cost.

  Certainly, the operating cost can be kept low by rotating the air-conditioned wind turbine with the blown air-conditioned air. However, since the air-conditioned wind turbine is rotated not by the motor but by the flow of the air-conditioned air, the air-conditioned wind turbine does not have a sufficient rotational speed. Therefore, the indoor air cannot be effectively circulated, which is not satisfactory from the viewpoint of equalizing the room temperature.

JP 2007-163089 A

  Therefore, an object of the present invention is to provide an air-conditioning outlet and an energy-saving air-conditioning system using the air-conditioning outlet that can achieve uniform room temperature in an energy-saving and effective manner.

In order to solve the above problems, the present invention
(1)
A frame that is fitted and fixed to a ceiling material and connected to a branch duct that is a discharge port of air-conditioned air of an air conditioner through a duct, and an indoor side opening; a cover that is locked in the frame and includes an opening; It consists of a blower with fins housed in the cover and rotated by a fan motor,
A pace is provided between the fin and the frame and the frame and the cover,
By rotating the fan motor, the conditioned air is sucked from the air conditioner, the indoor return air is sucked from the space, the conditioned air and the indoor return air are mixed by the fins, and are brought into the room through the opening of the cover. It was set as the structure of the air-conditioning blower outlet characterized by blowing out as mixed air and equalizing indoor temperature.
(2)
The locking means between the frame body and the cover comprises a rod projecting on two side surfaces in the frame body, and a claw continuously provided on the two side surfaces of the outer periphery of the cover,
The claw is locked to the rod, and the cover that houses the blower is locked to the frame.
(3)
The air conditioner outlet according to (1) or (2) is provided with a rotatable louver on the indoor side of the blower.
(4)
The rotation of the fan motor and the rotation of the louver are controlled separately, and the configuration of the air conditioning outlet according to any one of (1) to (3) is provided.
(5)
The configuration of the air-conditioning outlet according to (4), wherein the rotation speed of the fan motor and the rotation of the louver are operated by a remote controller.
(6)
The fin and fan motor are inclined to the left and right, and the air-conditioning outlet according to any one of (1) to (5) is provided.
(7)
An air conditioner including a plurality of branch ducts, a duct connected to the branch duct, and the air conditioning outlet according to any one of (1) to (6) connected to the duct and fixed to a ceiling member. It was set as the structure of the energy-saving air-conditioning system characterized by controlling the rotation speed of the said fan motor.
(8)
A plurality of air-conditioning outlets according to any one of (1) to (6) are installed on the ceiling of the room, and the number of rotations is controlled for each fan motor of the air-conditioning outlet, so that the air-conditioning control differs for each area in the same room The energy-saving air-conditioning system is configured as described in (7).
(9)
The air conditioner is a built-in type air conditioner provided with a fan for blowing air. The energy saving air conditioning system according to (7) or (8) is provided.
(10)
The energy-saving air conditioning system according to (8) or (9) is used, and the air-conditioning method according to area is characterized by performing different air-conditioning for each area in the same room.

  Since the present invention has the above-described configuration, the equipment cost and construction cost are low, the construction period is short, and a fan motor with a low output, for example, about 10 watts can be used. Can be eliminated, and the coldness of the feet can be resolved. In particular, even in a room without air conditioning equipment, the air conditioning air can be forcibly acquired from a branch duct of an adjacent air conditioner, so that the room air conditioning is optimal.

  In spring and autumn (intermediate), when air conditioning is required, the room temperature is made uniform by simply operating the fan motor of the air conditioning outlet according to the present invention without operating the air conditioner. It can be set to room temperature and is economical.

  In addition, since the blower is only fitted and fixed in the cover, the blower can be easily attached and detached from the ceiling, the replacement and maintenance of the blower are extremely easy, and the running cost is extremely low.

  Further, since the fins and the fan motor are tilted to the left and right, it is possible to prevent the conditioned air from being directly applied to a person. In addition, by providing a plurality of air conditioning outlets on the ceiling of the room and individually controlling the rotation of the fan motors, it is possible to perform optimal air conditioning for each area according to the difference in temperature in the room.

It is a bottom view of an air-conditioning blower outlet which is an example of an embodiment of the present invention. It is an exploded view bottom face of an air-conditioning blower outlet which is the present invention. It is a bottom view of an air blower. It is a bottom exploded view of a blower. It is a cross-sectional schematic diagram of the air-conditioning blower outlet which is this invention. It is a cross-sectional enlarged view of the locking means of a frame and a cover. It is a cross-sectional schematic diagram of the test room (room) which introduced the energy-saving air-conditioning system which is this invention. It is an observation result of the room temperature when operating the energy-saving air conditioning system which is this invention. It is a line graph of (A) measured value and (B) measured value. It is a conceptual diagram of the air conditioning method according to area in the same room when fan motor rotation speed (air volume) is controlled for every air conditioning blower outlet.

  Hereinafter, the present invention will be described in detail with reference to the drawings. In addition, this invention is not limited to an Example.

  As shown in FIGS. 1 to 5, the air conditioning outlet 30 as an example of the embodiment of the present invention includes a frame body 31, a cover 32, and a blower 33.

  As shown in FIG. 1, FIG. 2 (A), FIG. 5 and the like, the frame 31 is composed of a top plate 31h having a hole 31c formed in the substantially center and four side walls 31i depending on the top plate 31h. A frame main body 31a having an opening 31k, a flange 31d projecting perpendicularly to the outer periphery of the end of the frame main body 31a, a cylindrical connecting pipe 31b communicating with the hole 31c, and two opposing side walls 31i projecting into the frame main body 31a. It consists of four bars 31f provided. Here, the frame body 31a has a rectangular box shape, but may have a cylindrical shape or other shapes.

  Through holes 31e are formed in the top plate 31h in the vicinity of the four corners, and as shown in FIG. 5, a hanging tool 43 for fixing the frame body 31a in the ceiling is engaged with the through hole 31e. In addition, an insertion hole 31g is formed in the top plate 31h, and a conducting wire 33r that supplies electricity to the blower 33 is passed therethrough. The top plate 31h is provided with a connecting pipe 31b that communicates with the hole 31c, is connected to the branch duct 36a of the air conditioner 36, and allows the conditioned air 38 to pass therethrough.

  The frame body 31 formed in this way is inserted into a hole formed in the ceiling of the frame body 31a, locked, fixed, and embedded in the ceiling. The flange 31d contacts the ceiling material 40c. By embedding the frame main body 31a in the ceiling, the indoor landscape is not impaired.

  As shown in FIGS. 1, 2 (2), 5, and the like, the cover 32 is provided on the outer periphery of two side surfaces of the cover body 32 a that has an opening 32 f and accommodates the blower 33 and the frame 31. A claw 32b that is locked to the rod 31f is provided continuously, and is locked in the frame 31 by the claw 32b. The cover body 32a is provided with a window 32c that exposes a receiving unit 33m that receives a drive command for the blower 33 described later.

  FIG. 6 shows a state in which the rod 31f of the frame 31 and the claw 32b of the cover 32 are locked. FIG. 6A is a cross-sectional view taken along line BB in FIG. As shown in FIG. 6A, the claw 32b has a bowl-shaped cross section, and includes a convex portion 32d protruding downward at the tip, and a concave portion 32e recessed from the convex portion 32d inside the convex portion 32d.

  As shown in FIG. 6A, the claw 32b (dotted line) is moved as indicated by a wavy arrow, and the bar 31f is positioned in the recess 32e. As a result, the cover 32 can be easily locked to the frame 31 and can be removed.

  The blower 33 is housed in the cover 32 as shown in FIG. 1, FIG. 3 (A) bottom surface, (B) back surface, FIG. 4, FIG. 5, etc., and an outer frame 33a having an opening 33t, and an outer frame 33a. A ring portion 33c having an opening 35t that is rotatably connected via a shaft 33b, a case 33e that is connected to the ring portion 33c via a support rod 33d, and is located in the center of the ring portion 33c, and is fixed to the case 33e. And a fan motor 33f having fins 33g, a second motor 33i fixed to the case 33e, and a louver 33h fixed to the second motor 33i by a cap 33k.

  The outer frame 33a is provided with a receiving unit 33m that receives a signal from a remote controller 34 that controls driving of the fan motor 33f and the louver 33h. The outer frame 33a is provided with a circuit (not shown) for controlling driving of the fan motor 33f and the louver 33h.

  The driving power for the fan motor 33f and the second motor 33i is supplied from the conducting wire 33r. The conductive wire 33r is connected to a commercial power source, passes through the insertion hole 31g of the frame 31, is wired inside the outer frame 33a, is turned around the back surface of the support rod 33d from the shaft 33b, and is drawn into the case 33e, and the fan motor 33f and Connect to the second motor 33i.

  The ring portion 33 c has substantially the same shape as the opening 32 f of the cover 32. As shown in FIG. 4, the louver 33h has a slat 33w arranged in a ring-shaped outer frame 33u so as to be parallel and oblique to the wind direction, and a hole 33n is formed in a central disk 33x. The louver 33h is fixed rotatably by passing the screw 33s on the back surface of the cap 33k through the hole 33n and screwing the screw 33s of the cap 33k to the screw receiver 33p of the second motor 33i.

  In response to the rotational drive of the second motor 33i, it rotates 360 ° C. as shown by the arrow in FIG. By rotating the louver 33h, the mixed air 39 is spirally jetted toward the floor surface by the slats 33w, and is not blown to a certain place. Further, since only the louver 33h can be rotated separately from the rotation of the fan motor 33f, the conditioned air 38 and the return air 39a can be stirred and blown by the rotation of the louver 33h.

  The blower 33 thus configured includes a space 35 between the fins 33g and the frame body 31 and between the frame body 31 and the cover 32, sucks and mixes the conditioned air 38 and the indoor return air 39a, and blows the air into the room. To do.

  The blower 33 is housed in the cover 32, but there is elasticity between the blower 33 and the cover 32 in order to mute vibration noise generated by the rotation and vibration of the fan motor 33f and the fin 33g and for size correction. The buffer material 41 is fitted.

  As shown in FIG. 5 (A), the air conditioning outlet 30 thus configured sucks conditioned air 38 from the air conditioner 36 and sucks indoor return air from the space 35 by rotating the fan motor 33f. The conditioned air 38 and the indoor return air 39a are mixed by the fins 33g and blown out into the room as the mixed air 39 through the openings 32f of the cover 32, so that the room temperature can be made uniform. Further, as shown in FIG. 5B, the blower 33 can be rotated (tilted) to the left and right with the shaft 33b as a fulcrum, so that the air direction of the mixed air 39 can be changed, and the blown air is directly applied to the person. The wind direction can be changed so that it does not hit.

  With reference to FIG. 7, the energy saving air conditioning system 44 will be described. First, the installation method of the air-conditioning blower outlet 30, especially the case where it newly adds to an existing building is demonstrated.

  The air conditioning outlet 30 is locked to the back of the ceiling by a hanging tool 43. The hanger 43 is inserted into the ductor 43a passed to the existing wooden shaft 42 on the back of the ceiling and the through hole 31e of the frame 31 and is locked to the top plate 31h of the frame 31 by the head 43c at the end. The other end is composed of a bar 31f fixed to the ductor 43a with a screw 43e or the like via a vibration rubber 43d. The anti-vibration rubber 43d is a member having a function of absorbing the vibration of the fan motor 33f.

  A specific installation procedure of the air conditioning outlet 30 will be described. First, a hole through which the frame body 31a passes and the flange 31d abuts is formed in the ceiling material 40c. As shown in FIG. 5, the ductor 43a (L-shaped steel) is passed to the wooden shaft 42 on the back of the ceiling.

  The duct 37 connected to the branch duct 36a of the air conditioner 36 and flowing the conditioned air 38 is drawn to the vicinity where the air conditioning outlet 30 is installed. The air conditioner 36 may be a built-in type air conditioner that is installed in the back of the ceiling 40b or the like without being installed in the room where the air conditioning outlet 30 is installed, even if it is a commercial air conditioner that is fitted into the ceiling 40b. . A built-in type air conditioner is generally provided with a high-power fan in order to blow conditioned air far.

  The rod 31b, which is passed through the through hole 31e of the frame 31 and is locked to the top plate 31h, is locked to the ductor 43a with a screw 43e or the like, thereby locking and fixing the frame 31 to the ceiling member 40c. Thereafter, the claw 32 b of the cover 32 that houses the blower 33 is locked to the rod 31 f in the frame 3. Finally, the electrical wiring of the conducting wire 33r is completed.

  Since the air conditioning outlet 30 can be installed in this way, the construction is extremely simple. In addition, maintenance and replacement of the blower 33 can be performed by removing the cover 32 from the frame 31, and thus is extremely easy.

  The test room 40 of the energy saving air conditioning system of FIG. 7 will be described. The energy-saving air conditioning system 44 includes a commercial air conditioner 36 that is embedded in the ceiling 40b of the air conditioning room 40f and includes a plurality of outlets 36b for the conditioned air 38, a duct 37 that is connected to the branch duct 36a of the commercial air conditioner 36, and a duct 37 And the air conditioning outlet 30 embedded in the ceiling material 40c of the test chamber 40.

  The branch duct 36a is connected to the outlet 36b and is generally provided in the same number as the outlet 36b. In this test, the duct 37 is connected to one of the branch ducts 36a. During the test, the outlet 26b connected to the branch duct 36a to which the duct 37 was connected was sealed.

  The air conditioning room 40f is composed of a floor 20c, a wall 40d having a height of about 2500 mm, and a ceiling 40b. The ceiling 40b includes a commercial air conditioner 36. Although the conditioned air 38 blown out from the commercial air conditioner 36 to the air conditioning room 40f forms an air flow as shown in FIG. 7, warm air is located above and cold air is located below. The feet cool down in either air conditioning or heating.

The test chamber 40 is adjacent to the air conditioning chamber 40f with a wall 40d therebetween, and includes a floor 40a having a length of 4.1 m × width of 3.6 m and an area of 15 m ² , a wall 40d having a height of about 2500 mm, and a ceiling material 40c. The volume was about 37 m ³ .

  By operating the fan motor 33 f of the air conditioning outlet 30, the conditioned air 38 is forcibly sucked and the air in the test chamber 40 is sucked, mixed, and blown out as the mixed air 39. As a result, a flow of circulating air 39b shown in FIG. 7 is formed. Therefore, the temperature in the room can be made uniform, and it is possible to eliminate the cooling of the foot during cooling and heating.

  By suppressing the amount of air blown from the air outlet 36b of the commercial air conditioner 36 connected to the branch duct 36a, the suction amount of the conditioned air 38 is further increased, and the air conditioning of the test chamber 40 is effectively performed. can do.

  The fan motor 33f and the louver 33h of the air-conditioning outlet 30 can control rotation on / off individually or in conjunction with the operation of the remote controller 34, and can also control the direction of the blower 33. Even if the air conditioning outlet 30 is operated independently without operating the commercial air conditioner 36, the indoor air can be circulated, and the room temperature can be made comfortable even when some cooling or heating is required.

  In addition, as shown in FIG. 7, the air-conditioning outlet 30 keeps the temperature of the upper and lower parts of the room constant even if it is installed in the ceiling 40b of the air-conditioning room 40e instead of the air-conditioning room 40e (test room 40). Can be used to do.

  The temperature (° C.) was measured at three measurement points, A (ceiling surface), B (intermediate portion), and C (floor surface). The height from the floor 40a (FL) was about 2400 mm (A), 1500 mm (B), and 200 mm (C), respectively. For reference, outside temperature data at the location of the test date is also shown.

  FIG. 8 shows the air conditioning test results in the test chamber of FIG. The status and conditions of the air conditioning test are shown in each figure (A). When the temperature measurement and the change of the air conditioning setting are the same, there is no influence of the change of the air conditioning setting, so the result of the previous air conditioning setting is shown.

  In the test of FIG. 8, first, the cooling (air conditioner 36) and the fan (air conditioning outlet 30) were not driven (OFF), and changes in the temperature of the test chamber 40 were observed. Thereafter, the air conditioner 36 is operated (ON), the fan motor 33f of the air conditioning outlet 30 is further rotated (ON), and the air conditioner 36 is cooled (air conditioned air 38) and the air in the test chamber 40 (return air 39a). Mixing.

-Test result of FIG. 8 As shown in FIG. 8 (B), in the test section of E1, the temperature increased (5.6 ° C.) in the range of the up and down arrows on the ceiling surface, the middle part, and the floor surface. . The reason why the indoor temperature is higher than the outside air temperature is due to sunlight irradiation and heat generation of the internal electrical equipment.

  In the E2 test zone, the cooling of the air conditioner 36 was blown, and the room temperature fell overall, and the temperature difference slightly narrowed, but the temperature difference at each temperature point (14:00, 3.9 ° C.) still remains. ) Is allowed.

  In the test section E3, the fan motor 33f of the air conditioning outlet 30 was also rotated while the air conditioner 36 was in operation to mix the room air. As a result, the temperature difference at each measurement point was extremely small (16:00, 0.5 ° C.).

  From the above results, it is clarified that by mixing the cooling (air-conditioned air 38) and the room air by the air-conditioning outlet 30, uniform room air-conditioning that cannot be obtained only by the cooling (air-conditioned air 38) blowing is possible. It was.

  In FIG. 9, the outline | summary of the energy-saving air conditioning system 50 classified by area was shown. The existing room 51 has a window 51e in the back wall 51d, and the floor 51a and the wall 51d have a shape (bent space 51f) in which the left front portion in FIG. 9 is bent wide.

  It is assumed that the air conditioning outlet 30 cannot be installed on the ceiling 51b of the bent space 51f. Four air-conditioning outlets 30 were installed in the ceiling portion other than the ceiling of the bent space 51f. The air conditioning outlet 30 is connected to the branch duct 36a of the built-in type air conditioner 36 through the duct 37, and sucks the conditioned air 38 of the air conditioner 36 by the rotation of the fins 33g. Note that the air is also blown to the air conditioning outlet 30 by the fan of the built-in type air conditioner 36.

  In the case of such a room 51, the sensible temperature is high at the window side and low at a location far from the window 51e and in the bent space 51f. In the conventional single air conditioner, although the temperature of sensation varies depending on the location, the installation location, the wind direction associated therewith, and constant temperature control are performed, so it is possible to obtain comfortable air conditioning in the same room could not.

  However, in the area-specific energy-saving air conditioning system 50 according to the present invention, a plurality of installed air conditioning outlets 30 can be individually controlled, so that the air conditioning outlet 30 of the air conditioning outlet 30 is close to the window 51e when the outside air is hot. The rotational speed of the fan motor 33f is set high, the discharge amount of the mixed air 39c including the cooling air of the air conditioner 36 is increased, and in the bent space 51f, the rotational speed of the fan motor 33f is set low, and the discharge amount of the mixed air 39d. Can be made small. The thickness of the downward gray arrow means the difference in air volume.

  Further, since the blower 33 can turn and swing left and right with the shaft 33b as a fulcrum, the blowing direction can be changed, and the mixed air 39d can be blown to an area where the installation of the air conditioning outlet 30 is restricted. it can.

  As a result, even with one air conditioner 36 in the same room, the air conditioning intensity can be adjusted for each area, a comfortable air conditioning environment can be realized, and the flow of the circulating air 39b can also be formed. Enables extremely energy-saving air conditioning.

30 Air-conditioning outlet 31 Frame body 31a Frame body 31b Connection pipe 31c Hole 31d Flange 31e Through hole 31f Rod 31g Insertion hole 31h Top plate 31i Side wall 31k Opening 32 Cover 32a Cover main body 32b Claw 32c Window 32d Convex part 32e Concave part 32f Opening 33 Blower 33a outer frame 33b shaft 33c ring portion 33d support rod 33e case 33f fan motor 33g fin 33h louver 33i second motor 33k cap 33m receiving portion 33n hole 33p screw receiving 33r lead 33s screw 33t opening 33u outer frame 33w wing plate 33x disk 34 remote control 35 Space 36 Air conditioner 36a Branch duct 36b Air outlet 37 Duct 38 Air-conditioned air 39 Mixed air 39a Return air 39b Circulating air 39c Mixed air 39d Mixed air 40 Test room 40a Floor 40b Ceiling 40c Ceiling material 40d 40f conditioning chamber 41 buffer material 42 wood shaft 43 hung instrument 43a Dakuta 43b rods 43c head 43d anti-vibration rubber 43e screw 44 energy-saving air-conditioning system 50 by area energy saving air-conditioning system 51 room
51a Floor 51b Ceiling 51d Wall 51e Window 51f Bending space

In order to solve the above problems, the present invention
(1)
Frame and the indoor side is connected via a duct to the branch duct is opened a flange fitted into a hole bored in the ceiling material (31d) is a discharge port of the air-conditioning air contact to Rutotomoni air conditioner to the ceiling material , The ductor (43a) passed between the wooden shafts on the ceiling and one end fixed to the ductor (43a) and the other end locked to the through hole (31e) drilled in the top plate (31h) of the frame body A suspension member (43) composed of a rod (43b) for fixing the frame body to the ceiling member and a vibration isolating rubber (43d) interposed in the rod (43b); A cover provided with an opening, and a blower provided with fins housed in the cover and rotated by a fan motor,
The locking means between the frame body and the cover is a locking means comprising a bar (31f) projecting on two side surfaces in the frame body and a claw provided continuously on the two side surfaces of the outer periphery of the cover, By locking the claw to the rod (31f), the cover containing the blower is locked to the frame body,
A space is provided between the fin and the frame and between the frame and the cover,
By rotating the fan motor, the conditioned air is sucked from the air conditioner, the indoor return air is sucked from the space, the conditioned air and the indoor return air are mixed by the fins, and are brought into the room through the opening of the cover. It was set as the structure of the air-conditioning blower outlet characterized by blowing out as mixed air and equalizing indoor temperature.
(2)
A cushioning material having elasticity for noise reduction and size correction is fitted between the cover and the blower .
(3)
The air conditioner outlet according to (1) or (2) is provided with a rotatable louver on the indoor side of the blower.
(4)
The rotation of the fan motor and the rotation of the louver are controlled separately, and the air-conditioning outlet according to (3) is configured.
(5)
The configuration of the air-conditioning outlet according to (4), wherein the rotation speed of the fan motor and the rotation of the louver are operated by a remote controller.
(6)
The fin and fan motor are inclined to the left and right, and the air-conditioning outlet according to any one of (1) to (5) is provided.
(7)
An air conditioner including a plurality of branch ducts, a duct connected to the branch duct, and the air conditioning outlet according to any one of (1) to (6) connected to the duct and fixed to a ceiling member. It was set as the structure of the energy-saving air-conditioning system characterized by controlling the rotation speed of the said fan motor.
(8)
A plurality of air-conditioning outlets according to any one of (1) to (6) are installed on the ceiling of the room, and the number of rotations is controlled for each fan motor of the air-conditioning outlet, so that the air-conditioning control differs for each area in the same room The energy-saving air-conditioning system according to claim 7 is configured.
(9)
The air conditioner is a built-in type air conditioner provided with a fan for blowing air. The energy saving air conditioning system according to (7) or (8) is provided.
(10)
The energy-saving air conditioning system according to (8) or (9) is used, and the air-conditioning method according to area is characterized by performing different air-conditioning for each area in the same room.

The air conditioning outlet 30 is locked to the back of the ceiling by a hanging tool 43. The hanger 43 is inserted into the ductor 43a passed to the existing wooden shaft 42 on the back of the ceiling and the through hole 31e of the frame 31 and is locked to the top plate 31h of the frame 31 by the head 43c at the end. The other end is composed of a rod 43b fixed to the ductor 43a with a screw 43e or the like via a vibration rubber 43d. The anti-vibration rubber 43d is a member having a function of absorbing the vibration of the fan motor 33f.

Claims (10)

A frame that is fitted and fixed to a ceiling material and connected to a branch duct that is a discharge port of air-conditioned air of an air conditioner through a duct, and an indoor side opening; a cover that is locked in the frame and includes an opening; It consists of a blower with fins housed in the cover and rotated by a fan motor,
A pace is provided between the fin and the frame and the frame and the cover,
By rotating the fan motor, the conditioned air is sucked from the air conditioner, the indoor return air is sucked from the space, the conditioned air and the indoor return air are mixed by the fins, and are brought into the room through the opening of the cover. An air-conditioning outlet that blows out as mixed air and equalizes the room temperature. The locking means between the frame body and the cover comprises a rod projecting on two side surfaces in the frame body and a claw continuously provided on the two side surfaces of the outer periphery of the cover, and the claw is locked on the rod. The air conditioning outlet according to claim 1, wherein a cover housing the blower is locked to the frame body. The air-conditioning outlet according to claim 1 or 2, further comprising a louver capable of rotating on the indoor side of the blower. The air conditioning outlet according to any one of claims 1 to 3, wherein the rotation of the fan motor and the rotation of the louver are controlled separately. The air-conditioning outlet according to claim 4, wherein the rotation speed of the fan motor and the rotation of the louver are operated by a remote controller. The air-conditioning outlet according to any one of claims 1 to 5, wherein the fin and the fan motor are tilted left and right. An air conditioner including a plurality of branch ducts, a duct connected to the branch duct, and the air conditioning outlet according to any one of claims 1 to 6, connected to the duct and fixed to a ceiling member. The energy saving air conditioning system is characterized in that the rotational speed of the fan motor is controlled. A plurality of air-conditioning outlets according to any one of claims 1 to 6 are installed on the ceiling of the room, and the number of rotations is controlled for each fan motor of the air-conditioning outlet, so that the air-conditioning outlets are different for each area in the same room. 8. The energy saving air conditioning system according to claim 7, wherein air conditioning control is performed. The energy-saving air conditioning system according to claim 7 or 8, wherein the air conditioner is a built-in type air conditioner including a fan for blowing air. 10. An area-specific energy-saving air-conditioning method that uses the energy-saving air-conditioning system according to claim 8 or 9 to perform different air-conditioning for each area in the same room.

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