JP2000039168A5 - - Google Patents

Description

[Document name] Statement
[Claims]
[Claim 1]
It has an air passage that connects the suction port and the air outlet inside the main body.
In an air conditioner equipped with first and second heat exchangers and a blower in the air passage.
An air flow passage that does not exchange heat with the first and second heat exchangers,
A windshield having an opening corresponding to the air flow passage and arranged across the first and second heat exchangers.
With an opening / closing member that opens / closes the opening
An air conditioner characterized by the provision of.
2.
The air conditioner according to claim 1, wherein a gap is formed by separating the first and second heat exchangers, and the gap is used as an air flow passage.
3.
The air conditioner according to claim 1, wherein the opening / closing member comprises an opening / closing door rotatably attached.
4.
The air conditioner according to claim 1, wherein the windshield is locked to a heat transfer tube of a heat exchanger.
5.
The windbreak plate includes an accommodating portion for accommodating a driving device for driving the opening / closing member.
The air conditioner according to claim 2, wherein the accommodating portion is arranged in the gap.
6.
The windshield is provided with facing surfaces facing the first and second heat exchangers.
The air conditioner according to claim 2, wherein a drain hole is provided on the facing surface.
7.
The air conditioner according to claim 1, wherein a rib is erected on the peripheral edge of the opening.
8.
The air conditioner according to claim 7, further comprising an inclined surface from the rib toward the heat exchanger.
9.
The air conditioner according to claim 1, wherein the windshield and / or the opening / closing member has a heat insulating means.

Description: TECHNICAL FIELD [Detailed description of the invention]
[0001]
INDUSTRIAL APPLICABILITY The present invention relates to an air conditioner, and more particularly to a heat exchanger and an air flow path configuration.
0002.
FIG. 6 is a side sectional view showing an example of a conventional air conditioner, and FIG. 7 is a perspective view showing an example of a heat exchanger of the conventional air conditioner.
As shown in the figure, the conventional air conditioner 1 has a first suction port 2a1 and an outlet 2a2 formed above and below the front surface portion 2a on the front surface side of the main body, and an upper surface portion 2b, respectively. The second suction port 2b1 formed, the blower 3 that sucks air from the first and second suction ports 2a1 and 2b1, and the blower 3 that is mainly arranged in the flow of air from the front portion 2a toward the blower 3. The structure was provided with the first heat exchanger 4a and the second heat exchanger 4b mainly arranged in the flow of air from the upper surface portion 2a toward the blower 3.
However, in the air conditioner 1 having the conventional structure, all the air sucked from the suction ports 2a1 and 2b1 passes through the heat exchangers 4a and 4b and flows inside the cross flow fan of the blower 3. It was warmed or cooled and blown out from the outlet 2a2. For this reason, the temperature of the wind blown out during cooling operation is about 12 ° to 16 ° C, but since the relative humidity is close to 100%, it may be uncomfortable to the touch and not good for health. There was a risk of it occurring. Further, since the wind blown out is heavy, it falls downward before reaching a long distance, so that there is a problem that the indoor temperature distribution may not be good.
0005
PROBLEM TO BE SOLVED: To solve a problem The present invention has been invented in view of the above-mentioned conventional problems, and reduces the relative humidity of blown air during cooling of an air conditioner to improve comfort and indoors. It is an object of the present invention to provide an air conditioner having an improved temperature distribution.
0006
[Means for solving problems] In order to solve the above problemsIn an air conditioner having an air passage connecting a suction port and an outlet in the main body and having a blower and first and second heat exchangers in the air passage, the first and second heats are generated. An air flow passage that does not exchange heat with the exchanger, a windshield having an opening corresponding to the air flow passage, and arranged across the first and second heat exchangers, and the opening. An opening / closing member for opening / closing the air conditioner is provided.
0007 Then, the first and second heat exchangers were separated to form a gap, and the gap was used as an air flow passage. Further, it is composed of an opening / closing door to which the opening / closing member is rotatably attached. Further, the windbreak plate is locked to the heat transfer tube of the heat exchanger, and the drive device for driving the opening / closing member is arranged in the accommodating portion provided in the windshield.
0008 Further, the windshield is provided with facing surfaces facing the first and second heat exchangers, and a drain hole is provided on the facing surfaces. Further, a rib was erected on the peripheral edge of the opening, and an inclined surface from the rib toward the heat exchanger was provided. Further, the windshield and / or the opening / closing member is provided with heat insulating means.
0009
BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the invention will be described in detail with reference to the accompanying drawings based on examples. FIG. 1 is a side sectional view of an air conditioner showing an embodiment of the present invention, and FIG. 2A is an exploded perspective view of a windshield and a heat exchanger of the air conditioner showing an embodiment of the present invention. 3A is an enlarged perspective view of a main part showing a windbreak plate according to an embodiment of the present invention, FIG. 3B is a cross-sectional view of the main part, and FIG. 4 is an air conditioner showing an embodiment of the present invention. Windshield,Opening and closing memberIt is an exploded perspective view of the drive device (motor). In addition, the code of the same part as the conventional one is the same.
Hereinafter, the present invention will be described based on an embodiment shown in the figure. 1 is an air conditioner, 2 is a casing, 2a is a front portion, 2a1 is a first suction port, 2a2 is an outlet, and 2b. Is the upper surface, 2b1 is the second suction port, 3 is the blower, 4a is the first heat exchanger, 4a1 is the side plate, 4a2 is the heat transfer tube, 4b is the second heat exchanger, 4b1 is the side plate, and 4b2 is the transfer. Heat pipe, 5 is a windshield, 5a is a central part, 5a1 is an opening, 5a2 is a mounting piece, 5a3 is a rib, 5a4 is a motor housing hole, 5a5 is a motor mounting piece, 5a6 is a motor mounting hole, 5a7 is a bearing, 5b. IsFacing surface5b1 is a locking claw, 5b2 is a drain hole, and 6 is a drain hole.Opening and closing member, 6a is a support shaft, 7 is a drive device (motor), 8 is a hollow portion, and 9 is a heat insulating material.
The first suction port 2a1 and the air outlet 2a2 formed above and below the front surface portion 2a of the main body, the second suction port 2b1 formed on the upper surface portion 2b, and the first and first suction ports 2b1 are formed. A heat exchanger and a blower 3 composed of a first heat exchanger 4a and a second heat exchanger 4b arranged in an air passage connecting the two suction ports 2a1 and 2b1 and the outlet 2a2 and arranged in a substantially C shape. A windshield 5 having an opening arranged between the upper ends of the first heat exchanger 4a and the second heat exchanger 4b, and the windshield 5 to open and close the opening. It was mounted freelyOpening and closing memberThe air conditioner 1 is configured from 6.
Then, the windshield 5 is polymerized with the side plates 4a1 and 4b1 of the first heat exchanger 4a and the second heat exchanger 4b, and the overlapping portion is formed on the windshield 5. It is screwed by the provided mounting piece 5a2. That is, it can be opened and closed in the gap between the first heat exchanger 4a and the second heat exchanger 4b.Opening and closing memberAt the central portion 5a that pivotally supports 6 and at both front and rear ends of the central surface 5a, at the upper ends of the first heat exchanger 4a and the second heat exchanger 4b.OppositeTo doFacing surfaceA windshield 5 having 5b is arranged.
Further, a rectangular opening 5a1 and bearings 5a7 at both ends are provided in the central portion 5a of the windbreak plate 5, and the above.Opening and closing memberSupport shafts 6a corresponding to the bearings 5a7 are provided at both ends of the bearing 5. And the aboveOpening and closing memberThe drive device 7 that opens and closes the 6 is described above.Opening and closing memberIt is linked to the support shaft 6a of No. 6 and is arranged in the accommodating hole 5a3 provided between one side end of the windshield 5 and the opening 5a1 corresponding to the driving device 7.
Explaining this mounting method, an accommodating hole 5a3 for accommodating the driving device 7 is formed between one side end of the windshield 5 and the opening 5a1, and the accommodating hole 5a3 and the accommodating hole 5a3 are described. A motor mounting piece 5a5 extending downward from between the openings 5a1 is provided, and the driving device 7 is screwed into the mounting piece 5a5.
On the other hand, the heat insulating material 9 is attached to the inside of the windshield 5.Opening and closing memberA heat insulating material 9 is attached to the inside of 6. On the other hand, ribs 5a3 are erected on the periphery of the opening 5a1 of the windbreak plate 5, and an inclined surface that descends outward from the ribs 5a3 is formed on the outer surface of the central portion 5a of the windshield 5.
Further, the windshield 5Facing surfaceA drain hole 5b2 is provided on the central portion 5a side of the 5b. Since the drive shaft of the drive device (motor) 7 is connected to the support shaft 6a, the drive shaft 6a is connected to the support shaft 6a.Opening and closing member6 can be rotated in a predetermined direction.
Next, the operation of the present invention will be described. With the above configuration, a bypass path for indoor air is formed mainly in the air passage from the upper surface portion 2b to the blower 3 without passing through the second heat exchanger 4b and directly to the outlet 2a2.
On the other hand, the heat insulating material 9 is attached to the inside of the windshield 5.Opening and closing memberSince the heat insulating material 9 is attached to the inside of 6, the aboveOpening and closing memberCondensation of 6 can be prevented. On the other hand, ribs 5a3 are erected on the periphery of the opening 5a1 of the windbreak plate 5, and an inclined surface that descends outward from the ribs 5a3 is formed on the outer surface of the central portion 5a of the windshield 5, and the shield Wind plate 5Facing surfaceSince the drain hole 5b2 is provided on the central portion 5a side of the 5b, it prevents the intrusion of condensed water into the inside of the first heat exchanger 4a and the second heat exchanger 4b, and drains water. Can be improved and the number of drain holes provided can be reduced.
Further, the aboveOpening and closing memberIf a pulse motor 7d is used for the driving device (motor) 7 and the rotation angle of 6 can be set in advance by the number of pulses to be driven, the inflow amount of indoor air can be adjusted. Therefore, the blowing temperature can be raised without lowering the cooling capacity during the cooling operation, and the temperature can be adjusted.
FIG. 2B is an exploded perspective view of a windshield and a heat exchanger of an air conditioner showing another embodiment. As in this embodiment, the locking claws 5b1 protruding from the front and rear ends of the windbreak plate 5 are provided, and the locking claws 5b1 are used in each of the first heat exchanger 4a and the second heat exchanger 4b. It may be locked to the heat transfer tubes 4a2 and 4b2 on the upper side surface.
FIG. 3C is a cross-sectional view of a main part showing a windshield of another embodiment. As in this embodiment, the windshield 5 andOpening and closing memberA heat insulating effect can also be obtained by hollow molding 6 (not shown) to form the hollow portion 8.
On the other hand, FIG. 5A shows a windshield of an air conditioner showing another embodiment of the present invention.Opening and closing memberAnd an exploded perspective view of the drive device (motor), (b) is an enlarged exploded perspective view of a main part. As in the case of this embodiment,Opening and closing memberA drive device 7 for opening and closing 6 may be provided at one side end of the windshield 5. This is provided with a motor mounting hole 5a6 at one end of the windshield 5, and the driving device 7 is mounted.
[0023]
According to the air conditioner of the present invention, the first suction port and the air outlet formed above and below the front surface portion of the main body, and the second suction port formed on the upper surface portion, respectively. , A heat exchanger composed of a first heat exchanger and a second heat exchanger arranged in a substantially C shape arranged in the front-rear direction in an air passage connecting the first and second suction ports and the air outlet. And a blower are arranged, a windshield having an opening arranged between the first heat exchanger and the upper end of the second heat exchanger, and rotating to the windshield to open and close the opening. Attached freelyOpening and closing memberMade to consist of. As a result, it is possible to provide an air conditioner that raises the blowing temperature without lowering the cooling capacity during the cooling operation of the air conditioner, prevents overcooling, and improves comfort.
[Simple explanation of drawings]
FIG. 1 is a side sectional view of an air conditioner showing an embodiment of the present invention.
FIG. 2A is an exploded perspective view of a windshield and a heat exchanger of an air conditioner showing an embodiment of the present invention, and FIG. 2B is a windshield of an air conditioner showing another embodiment. It is an exploded perspective view of a plate and a heat exchanger.
3A is an enlarged perspective view of a main part showing a windshield of an embodiment of the present invention, FIG. 3B is a cross-sectional view of a main part, and FIG. 3C is a windshield of another embodiment. It is sectional drawing of the main part shown.
FIG. 4 shows a windbreak plate of an air conditioner showing an embodiment of the present invention.Opening and closing memberIt is an exploded perspective view of the drive device (motor).
FIG. 5A shows a windshield of an air conditioner showing another embodiment of the present invention.Opening and closing memberAnd an exploded perspective view of the drive device (motor), (b) is an enlarged exploded perspective view of a main part.
FIG. 6 is a side sectional view showing an example of a conventional air conditioner.
FIG. 7 is a perspective view showing an example of a heat exchanger of a conventional air conditioner.
[Explanation of symbols]
1 Air conditioner
2 Casing
2a front part
2a1 First suction port
2a2 outlet
2b top surface
2b1 Second suction port
3 blower
4a First heat exchanger
4a1 side plate
4a2 heat transfer tube
4b Second heat exchanger
4b1 side plate
4b2 heat transfer tube
5 Windbreak plate
5a central part
5a1 opening
5a2 mounting piece
5a3 rib
5a4 motor accommodation hole
5a5 motor mounting piece
5a6 motor mounting hole
5a7 bearing
5bFacing surface
5b1 locking claw
5b2 drain hole
6Opening and closing member
6a Axle
7 Drive device (motor)
8 Hollow part
9 Insulation material
10 Inclined surface