Background technology
In existing air conditioner, the water receiving for carrying out access to condensed water caused by heat exchanger is typically provided with
Disk.
Fig. 3 is the schematic diagram for the internal structure for representing existing air conditioner, and Fig. 4 is to represent the water receiving in existing air conditioner
The enlarged diagram of disk.As shown in Figure 3, Figure 4, blower fan 510, heat exchanger are internally provided with existing air conditioner 500
520th, pipe-line system 530 and drip tray 540.The air of interior is sucked after-blow heat exchanger 520 by blower fan 510, and the air exists
After carrying out heat exchange by refrigerant during heat exchanger 520 and in heat exchanger 520 etc., interior is blown out to.
Due to when carrying out heat exchange, easily producing condensed water on the surface of heat exchanger 520 and pipe-line system 530, being
Prevent the condensed water from spilling, be provided with a big drip tray 540 in the lower section of heat exchanger 520 and pipe-line system 530, use
In access condensed water etc..As shown in figure 4, conventional drip tray 540 is provided only with one, it is monolithic construction, has and handed over heat
530 corresponding size of parallel operation 520 and pipe-line system.
But because drip tray 540 for the drip tray of a monoblock type and is mainly disposed to the lower zone of heat exchanger 520
Domain, therefore must limit pipeline in the case of setting drip tray below pipe-line system to prevent condensed water from spilling
The flexibility of system layout, also influence machine construction and performance.
Utility model content
The utility model be in view of above-mentioned technical problem and complete, its object is to provide one kind to make pipe-line system
The more flexible air conditioner of layout.
The air conditioner of an embodiment of the present utility model, it is internally provided with heat exchanger, pipe-line system and is used for
In the drip tray of condensed water caused by above-mentioned heat exchanger and above-mentioned pipe-line system, the air conditioner is characterised by for access:It is above-mentioned
Drip tray has the first drip tray and the second drip tray set independently of above-mentioned first drip tray, and above-mentioned heat exchanger is arranged on
The top of above-mentioned first drip tray, above-mentioned pipe-line system are arranged on the top of above-mentioned first drip tray and above-mentioned second drip tray.
In above-mentioned air conditioner, preferably also include making blow air to the blower fan of above-mentioned heat exchanger, above-mentioned pipe-line system
In part pipeline be arranged at the side by above-mentioned blower fan of above-mentioned heat exchanger, above-mentioned second drip tray is arranged on part pipe
The lower section on road.
In above-mentioned air conditioner, preferably above-mentioned second drip tray has conduction part, can be via the conduction part by access
Condensed water is guided to above-mentioned first drip tray.
In above-mentioned air conditioner, preferably also include the sheet metal component for separating above-mentioned heat exchanger and above-mentioned blower fan, above-mentioned the
Two drip trays are fixed on above-mentioned sheet metal component.
In above-mentioned air conditioner, preferably above-mentioned sheet metal component is arranged to above-mentioned blower fan and above-mentioned second drip tray and is arranged at
The above-mentioned part pipeline of the top of above-mentioned second drip tray separates.
Air conditioner in accordance with the above, the region limitation of conventional drip tray is breached, the layout of pipe-line system can be made
More flexibly, so that the internal structure of air conditioner more compact, the refrigeration or heating efficiency of air conditioner are improved.
Brief description of the drawings
Fig. 1 is the schematic diagram of the internal structure of the air conditioner involved by the utility model.
Fig. 2 is the enlarged diagram of the second drip tray in the air conditioner involved by the utility model.
Fig. 3 is the schematic diagram for the internal structure for representing existing air conditioner.
Fig. 4 is to represent putting for conventional drip tray (equivalent to the first drip tray of the present utility model) in existing air conditioner
Big schematic diagram.
Description of reference numerals
100 air conditioners, 10 housings, 20 blower fans, 30 heat exchangers, 40 pipe-line systems, 41
First duct portion, 42 second duct portions, 50 first drip trays, 60 second drip trays, 61
Disk body, 62 conduction parts, 70 sheet metal components.
Embodiment
The utility model is described in detail with reference to the accompanying drawings and examples.
Describe the preferred embodiment of the air conditioner involved by the utility model in detail referring to the drawings.In addition,
In the explanation of accompanying drawing, same symbol is accompanied by same or considerable part, the repetitive description thereof will be omitted.
Fig. 1 is the schematic diagram of the internal structure of the air conditioner 100 of an embodiment of the present utility model.Present embodiment
In air conditioner 100 be pipe type air conditioner, as shown in figure 1, it includes:Housing 10, blower fan 20, heat exchanger 30, pipeline system
The 40, first drip tray 50 of system, the second drip tray 60 and sheet metal component 70.
Housing 10 is the shell of the body of air conditioner 100, and receiving space has been internally formed at it.For accommodating blower fan 20, heat
Exchanger 30, pipe-line system 40, the first drip tray 50, the second drip tray 60 and sheet metal component 70 etc..
Blower fan 20 is the blower fan of conventional air conditioner, such as including fan and motor etc..In the present embodiment, wind
Machine 20 is arranged on the side of the close inlet scoop inside housing 10, after the air of outside is sucked via inlet scoop, makes the air
Flow to heat exchanger 30.
Heat exchanger 30 is arranged on the side of the close air outlet in the inside of housing 10, for by blower fan 20 blow Lai
Air carries out heat exchange.Heat exchanger 30 can specifically include evaporator or condenser, but can also include miscellaneous part, herein
It is not limited.
In addition, the relative position of blower fan 20 and heat exchanger 30 is not particularly limited, such as blower fan 20 can also be set
The side of close air outlet inside housing 10, heat exchanger 30 is arranged on one of the close inlet scoop in the inside of housing 10
Side.
Pipe-line system 40 includes the pipeline commonly used in air conditioner, such as including refrigerant line, and it is by evaporator, compression
Machine, radiator and expansion valve device etc. are sequentially connected and formed, and being circulated in the refrigerant line has refrigerant etc..In this implementation
In mode, pipe-line system 40 includes the first duct portion 41 and second the two parts of duct portion 42 being connected with each other.First pipeline
Portion 41 is a part for pipe-line system 40, such as including needing to be arranged on the pipeline near heat exchanger 30, the second duct portion 42
For another part of pipe-line system 40, such as the pipeline including expansion valve device and its periphery.In the present embodiment, the second pipe
Road portion 42 is arranged on the side by blower fan 20 of heat exchanger 30, that is to say, that is set along with blower fan 20 inside housing 10
By the side of inlet scoop., can be according to the design need of pipe-line system but the set location of the second duct portion 42 is not particularly limited
To flexibly set.
Due to containing moisture in air, therefore during air conditioner operates, easily in heat exchange unit 30 and pipeline
The surface of system 40 produces condensed water.In order to prevent the spilling, it is necessary in heat exchange unit 30 and pipe-line system 40 of the condensed water
Lower section set drip tray.In the present embodiment, drip tray includes the first drip tray 50 and the second drip tray 60.
First drip tray 50 is conventional use of drip tray (referring to Fig. 4) in air conditioner, such as is arranged on heat exchanger
30 and the lower section of the first duct portion 41 near heat exchanger 30.First drip tray 50 is for example including for containing condensed water
Drip tray disk body and discharge outlet for discharging condensed water etc..
Second drip tray 60 is the drip tray being independently arranged relative to the first drip tray 50, is arranged on the second duct portion 42
Lower section, for condensed water caused by the second duct portion of access 42.Second duct portion 42 and the second drip tray 60 can for example be set
Put the side on the length direction inside air conditioner 100.Fig. 2 is the second drip tray of an embodiment of the present utility model
60 enlarged diagram.As shown in Fig. 2 the second drip tray 60 has:For condensed water caused by the second duct portion of access 42
Drip tray disk body 61;Guided with by the condensed water to the conduction part 62 of the first drip tray 50.
According to the air conditioner 100 of present embodiment, due to outside the first drip tray 50 as conventional drip tray, also setting
It is equipped with and is connect dedicated for second of condensed water caused by the part pipeline (i.e. the second duct portion 42) in access pipe-line system 40
Water pond 60, therefore, the region limitation of conventional drip tray is breached, the layout of pipe-line system 40 can be made more flexible, so that
The internal structure of air conditioner more compact, improve the refrigeration or heating efficiency of air conditioner.
In addition, the number of the second drip tray 60 is not particularly limited, such as can flexibly be set according to the layout of pipe-line system
It is set to multiple.
In addition, the sheet metal component for separating blower fan 20 and heat exchanger 30 is additionally provided with inside the housing 10 of air conditioner 100
70.Air outlet is offered in sheet metal component 70, and blower fan 20 is via the air outlet by the blow air heat exchanger 30 of suction.First
Duct portion 41 be located at sheet metal component 70 with the identical side of heat exchanger 30, the second duct portion 42 is located at sheet metal component 70 and blower fan
20 identical sides.First duct portion 41 is connected with the second duct portion 42 via the through hole for being arranged at the sheet metal component 70,
Form pipe-line system 40.Second drip tray 60 be arranged at sheet metal component 70 with the identical side of blower fan 20, and be located at the second pipeline
The lower section in portion 42, it is mounted on sheet metal component 70.
In addition, sheet metal component 70 can also be arranged to the drip tray 60 of blower fan 20 and second and be arranged at the second drip tray 60
Second duct portion 42 of top separates, the stream thus, it is possible to further improve air, improves the refrigeration or heating of air conditioner
Efficiency.
In addition, in embodiment of above, it is illustrated by taking pipe type air conditioner as an example, but the utility model is not limited to
Pipe type air conditioner, additionally it is possible to suitable for other air conditioners with drip tray structure.
Only it is to list specific embodiment in the explanation of above-mentioned embodiment, wherein the structure of each part, connected mode
Deng being all not limited to this, every equivalents carried out on the basis of technical solutions of the utility model and improvement, should
Exclude outside the scope of protection of the utility model.