CN203964301U

CN203964301U - Machine cabinet air-conditioner

Info

Publication number: CN203964301U
Application number: CN201420182208.5U
Authority: CN
Inventors: 鲁益军
Original assignee: TCL Air Conditioner Zhongshan Co Ltd
Current assignee: TCL Air Conditioner Zhongshan Co Ltd
Priority date: 2014-04-15
Filing date: 2014-04-15
Publication date: 2014-11-26
Anticipated expiration: 2024-04-15

Abstract

The utility model discloses a kind of machine cabinet air-conditioner, comprise chassis, evaporimeter, condenser and be arranged on evaporimeter and condenser between evaporator baffle, evaporimeter, evaporator baffle and condenser are successively set on chassis, evaporimeter comprises the first heat-exchanging component, evaporator fan and the first water receiving tank, the first water receiving tank is fixedly installed on the side that evaporator baffle deviates from condenser, the first heat-exchanging component is fixedly installed on the notch top of the first water receiving tank, evaporator fan is fixedly installed between the first water receiving tank and chassis, the air inlet of evaporator fan is positioned at the side that evaporator fan is relative with chassis, the air outlet of evaporator fan is positioned at the side that evaporator fan is relative with the first heat-exchanging component, between the side that evaporator fan is relative with chassis and chassis, there is gap.The utility model has improved the mounting structure of machine cabinet air-conditioner, and the condensed water of the device that can avoid evaporating spills, and is conducive to improve the security that base station machine cabinet air-conditioner uses.

Description

Machine cabinet air-conditioner

Technical field

The utility model relates to air-conditioner field, particularly a kind of machine cabinet air-conditioner.

Background technology

The base station machine cabinet air-conditioner of prior art is mainly made up of evaporimeter, evaporimeter centrifugal blower, compressor, condenser centrifugal blower, condenser, electric control system.With reference to Fig. 1, Fig. 1 is the internal structure schematic diagram of machine cabinet air-conditioner in prior art; Wherein, evaporimeter 5 ＇, evaporimeter centrifugal blower 6 ＇, compressor 7 ＇, condenser centrifugal blower 8 ＇ and condenser 9 ＇ are separately positioned on 10 ＇ of chassis, and left end to the right-hand member direction along described chassis 10 ＇ is arranged successively, the bottom of described evaporimeter 5 ＇ is provided with water receiving tank 11 ＇, described evaporimeter centrifugal blower 6 ＇ axially with the parallel longitudinal of described chassis 10 ＇, and this evaporimeter centrifugal blower 6 ＇ are greater than the relative position distance of water receiving tank 11 ＇ to chassis 10 ＇ to the relative position distance of chassis 10 ＇.Due to this mounting structure of evaporimeter centrifugal blower 6 ＇; the notch of water receiving tank 11 ＇ is exposed within the scope of the gas-flow radiation of evaporimeter centrifugal blower 6 ＇; in the time of this air-conditioner operation; evaporimeter centrifugal blower 6 ＇ can produce around the swirling eddy of described evaporimeter centrifugal blower 6 ＇ axial-rotations; and described swirling eddy can affect water receiving tank 11 ＇ of evaporimeter 5 ＇ bottoms conventionally; and the condensed water in water receiving tank 11 ＇ is spilt to the machine room of base station in water receiving tank 11 ＇; make machine room internal water accumulation, and the electronic devices and components of communication apparatus in machine room are caused damage.

In addition, when air-conditioner operation, the air draft direction of condenser 9 ＇ and air intake direction are positioned at the same side of air-conditioner, make after the air-flow of condenser 9 ＇ intensifications is discharged to outside machine, there are again sucked back condenser 9 ＇ of part air-flow to use, cause condenser 9 ＇ inlet air flow and go out conflicting of air-flow, and then causing the heat exchange efficiency of air-conditioner lower.

Utility model content

Main purpose of the present utility model, for a kind of machine cabinet air-conditioner is provided, is intended to improve the mounting structure of machine cabinet air-conditioner inside, and the condensed water of the device that avoids evaporating spills, the security using to improve air conditioner of base station.

To achieve these goals, the utility model proposes a kind of machine cabinet air-conditioner, this machine cabinet air-conditioner comprises chassis, evaporimeter, condenser and be arranged on the evaporator baffle between described evaporimeter and condenser, described evaporimeter, evaporator baffle and condenser are successively set on described chassis, described evaporimeter comprises the first heat-exchanging component, evaporator fan and the first water receiving tank, described the first water receiving tank is fixedly installed on the side that described evaporator baffle deviates from described condenser, described the first heat-exchanging component is fixedly installed on the notch top of described the first water receiving tank, described evaporator fan is fixedly installed between described the first water receiving tank and described chassis, the air inlet of described evaporator fan is positioned at the side that described evaporator fan is relative with described chassis, the air outlet of described evaporator fan is positioned at the side that described evaporator fan is relative with described the first heat-exchanging component, between the side that described evaporator fan is relative with described chassis and described chassis, there is gap.

Preferably, described evaporimeter also comprises the second water receiving tank and the second heat-exchanging component, and described the second water receiving tank is arranged on described evaporator fan, and described the second heat-exchanging component is fixedly installed on the notch of described the second water receiving tank.

Preferably, described the second heat-exchanging component and described the first heat-exchanging component interconnect, and form the default angle a of an opening towards described evaporator fan air inlet, 180 ° of 0 ° of < a <.

Preferably, described evaporator fan is fixed on the side that described evaporator baffle deviates from described condenser.

Preferably, described evaporator fan is fixed on described chassis, described evaporator fan comprises support, is fixed on the centrifugal fan on described support, and cover at the wind gathering cover on described centrifugal fan, described support is fixed on described chassis, and form the air intake duct of opening towards described chassis right-hand member direction with described chassis, the air inlet of described centrifugal fan is communicated with described air intake duct, and the air outlet of the corresponding described centrifugal fan of described wind gathering cover is provided with the first ventilating opening.

Preferably, described condenser comprises the 3rd heat-exchanging component, condenser fan, condenser baffle plate and the 3rd water receiving tank, described condenser baffle plate is fixed on described chassis, and the side that this condenser baffle plate is relative with described evaporator baffle is provided with described condenser fan, the air outlet of described condenser fan is just to described condenser baffle plate, the opposite side that described evaporator baffle is relative with condenser fan is provided with described the 3rd heat-exchanging component, and described evaporator baffle is provided with and is communicated with the air outlet of described condenser fan and the second ventilating opening of described the 3rd heat-exchanging component; Described the 3rd heat-exchanging component one end relative with described chassis is provided with described the 3rd water receiving tank.

Preferably, described the first water receiving tank is provided with water draining beak, the side that described condenser baffle plate is relative with described the 3rd heat-exchanging component is provided with spray assembly, the water inlet of described spray assembly is communicated with the water draining beak of described the first water receiving tank, and the delivery port of described spray assembly is towards described the 3rd heat-exchanging component.

Preferably, described spray assembly comprises the water supply connector of shower and connection shower, and described shower is provided with multiple described delivery ports, delivery port axially setting gradually along described shower described in each.

Preferably, described the first water receiving tank to the relative position distance on described chassis is greater than the relative position distance of described the 3rd water receiving tank to described chassis.

Preferably, the water draining beak of described the second water receiving tank is communicated to described the first water receiving tank, and described the second water receiving tank to the relative position distance on described chassis is more than or equal to the relative position distance of described the first water receiving tank to described chassis.

The machine cabinet air-conditioner the utility model proposes, by the first heat-exchanging component being arranged on to the top of the first water receiving tank, evaporator fan is arranged on to the below of the first water receiving tank, and the air inlet of described evaporator fan is positioned at the side that described evaporator fan is relative with described chassis, the air outlet of described evaporator fan is positioned at the side that described evaporator fan is relative with described the first heat-exchanging component, between the side that described evaporator fan is relative with described chassis and described chassis, there is the gap that facilitates air intake, thereby the air-flow producing while making evaporator fan running can not affect water receiving tank, prevent that the condensed water in evaporimeter water receiving tank from spilling, ensure the use safety of base station machine cabinet air-conditioner.

Brief description of the drawings

Fig. 1 is the internal structure schematic diagram of machine cabinet air-conditioner in prior art;

Fig. 2 is the overall structure schematic diagram of the utility model machine cabinet air-conditioner;

Fig. 3 is the assembling exploded view of the utility model machine cabinet air-conditioner;

Fig. 4 is the internal structure schematic diagram of the utility model machine cabinet air-conditioner;

Fig. 5 is the assembling schematic diagram of the utility model spray assembly and condenser baffle plate;

Fig. 6 is another angle structural representation of Fig. 5;

Fig. 7 is the structural representation of the utility model spray assembly.

Realization, functional characteristics and the advantage of the utility model object, in connection with embodiment, are described further with reference to accompanying drawing.

Detailed description of the invention

Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

The utility model proposes a kind of machine cabinet air-conditioner, with reference to Fig. 2, Fig. 3 and Fig. 4, in one embodiment, this machine cabinet air-conditioner comprises chassis 10, evaporimeter, condenser and be arranged on the evaporator baffle 11 between described evaporimeter and condenser, described evaporimeter, evaporator baffle 11 and condenser are successively set on described chassis 10, described evaporimeter comprises the first heat-exchanging component 12, evaporator fan 13 and the first water receiving tank 14, described the first water receiving tank 14 is fixedly installed on the side that described evaporator baffle 11 deviates from described condenser, described the first heat-exchanging component 12 is fixedly installed on the notch top of described the first water receiving tank 14, this first heat-exchanging component 12 can be to be connected and fixed with the first water receiving tank 14, or directly and described evaporator baffle 11 be connected and fixed, can also be to be connected and fixed by other connectors and evaporator baffle 11.

Described evaporator fan 13 is aerofoil fan, be fixedly installed between described the first water receiving tank 14 and described chassis 10, the air inlet of described evaporator fan 13 is positioned at the side that described evaporator fan 13 is relative with described chassis 10, the air outlet of described evaporator fan 13 is positioned at the side that described evaporator fan 13 is relative with described the first heat-exchanging component 12, between the side that described evaporator fan 13 is relative with described chassis 10 and described chassis 10, there is gap, while running for evaporator fan 13 in this gap, provide air intake channel.

Wherein, above-mentioned evaporator fan 13 comprises two kinds of fixed forms, and a kind of is that described evaporator fan 13 is fixed on the side that described evaporator baffle 11 deviates from described condenser 30, another kind is, described evaporator fan 13 is fixed on described chassis 10, it should be noted that, in this kind of fixed structure, described evaporator fan 13 comprises support 13a, be fixed on the centrifugal fan 13b on described support 13a, and cover at the wind gathering cover 13c on described centrifugal fan 13b, described support 13a is fixed on described chassis 10, and form the air intake duct of opening towards described chassis 10 right-hand member directions with described chassis 10, the air inlet of described centrifugal fan 13b is communicated with described air intake duct, the air outlet of the corresponding described centrifugal fan 13b of described wind gathering cover 13c is provided with the first ventilating opening 13d.

In addition, described machine cabinet air-conditioner also comprises compressor 40 and housing 50, and described compressor 40 is fixed on described chassis 10, and it is installed on the side that evaporator baffle 11 deviates from described evaporimeter 20.It should be noted that, the refrigerant import of described condenser is communicated with the refrigerant exit of described compressor 40, the refrigerant exit of described condenser is communicated with the refrigerant import of described evaporimeter 20, the refrigerant exit of described evaporimeter 20 is communicated with the refrigerant entrance of described compressor 40, wherein, the refrigerant that compressor 40 is exported first carries out heat exchange through condenser, and refrigerant temperature is reduced, then be delivered to described evaporimeter and carry out sweat cooling, to reach the object that in the machine room of base station, temperature reduces.

Wherein, described housing 50 and described chassis 10 are connected and fixed and form the inner chamber of accommodating described evaporimeter and condenser, and the right-hand member on the corresponding described chassis 10 of described housing 50 is provided with the inlet scoop 101 for described evaporator fan 13 air draughts; The left end on the corresponding described chassis 10 of described housing 50 is provided with the air outlet for the blower fan air-out of described condenser.

To sum up, the utility model machine cabinet air-conditioner is by being arranged on the first heat-exchanging component 12 top of the first water receiving tank 14, evaporator fan 13 is arranged on to the below of the first water receiving tank 14, and the air inlet of described evaporator fan 13 is positioned at the side that described evaporator fan 13 is relative with described chassis 10, the air outlet of described evaporator fan 13 is positioned at the side that described evaporator fan 13 is relative with described the first heat-exchanging component 12, between the side that described evaporator fan 13 is relative with described chassis 10 and described chassis 10, there is the gap that facilitates air intake, thereby the air-flow producing when evaporator fan 13 is turned round can not affect water receiving tank, prevent that the condensed water in the water receiving tank of evaporimeter from spilling, ensure the use safety of base station machine cabinet air-conditioner.

Further, with reference to Fig. 3 and Fig. 4, in order to increase the heat exchange area of this machine cabinet air-conditioner, described evaporimeter also comprises the second water receiving tank 15 and the second heat-exchanging component 16, described the second water receiving tank 15 is arranged on described evaporator fan 13, and described the second heat-exchanging component 16 is fixedly installed on the notch of described the second water receiving tank 15.Wherein, the second heat-exchanging component 16 can be to be directly fixed on the second water receiving tank 15, or fixing by other connectors and evaporator fan 13.

Be understandable that, fixing firm in order to ensure the second heat-exchanging component 16, and improve heat exchange efficiency, described the second heat-exchanging component 16 interconnects with described the first heat-exchanging component 12, and form the default angle a of an opening towards described evaporator fan 13 air inlets, 180 ° of 0 ° of < a <.Wherein, after the first heat-exchanging component 12 and the second heat-exchanging component 16 are connected and fixed, both-side opening along chassis 10 horizontal directions is sealed by a splice plate 17 respectively, this splice plate 17 can be connected and fixed with evaporator baffle 11 simultaneously, further to support and to fix described the first heat-exchanging component 12 and the second heat-exchanging component 16.Understandable, in the time that described default angle a is set to 90 degree left and right, the wind that evaporator fan 13 is discharged is larger with the area that the first heat-exchanging component 12 and the second heat-exchanging component 16 contact, and the heat transfer effect of this heat exchanger is better.

Further, with reference to Fig. 3 and Fig. 4, condenser described in above-described embodiment comprises the 3rd heat-exchanging component 31, condenser fan 32, condenser baffle plate 33 and the 3rd water receiving tank 34, described condenser baffle plate 33 is fixed on described chassis 10, and the side that this condenser baffle plate 33 is relative with described evaporator baffle 11 is provided with described condenser fan 32, the air outlet of described condenser fan 32 is just to described condenser baffle plate 33, described condenser baffle plate 33 opposite side relative with condenser fan 32 is provided with described the 3rd heat-exchanging component 31, described condenser baffle plate 33 is provided with and is communicated with the air outlet of described condenser fan 32 and the second ventilating opening 102 of described the 3rd heat-exchanging component 31, described the 3rd heat-exchanging component 31 one end relative with described chassis 10 is provided with described the 3rd water receiving tank 34.Wherein, described condenser fan 32 is axial-flow fan, when running, wind enters from the two ends of this condenser fan 32, air outlet from its sidewall flows out, and flows to described the 3rd heat-exchanging component 31 through the second ventilating opening 102 on described condenser baffle plate 33, therefore, avoid the air intake direction of condenser 30 to produce in the same side the problem that air-flow conflicts with air-out direction, thereby improved the heat exchange efficiency of this condenser.

Further, with reference to Fig. 3 to Fig. 7, described the first water receiving tank 14 is provided with water draining beak 14a, the side that described condenser baffle plate 33 is relative with described the 3rd heat-exchanging component 31 is provided with spray assembly 41, the water inlet of described spray assembly 41 is communicated with the water draining beak 14a of described the first water receiving tank 14, and the delivery port of described spray assembly 41 is towards described the 3rd heat-exchanging component 31.Wherein, described spray assembly 41 comprises the water supply connector 43 of shower 42 and connection shower 42, and described shower 42 is provided with multiple delivery ports 44, delivery port 44 axially setting gradually along described shower 42 described in each.Be understandable that, the condensate temperature producing when evaporimeter 20 evaporates is lower, by this condensed water being delivered to spray assembly 41, and by this spray assembly 41, its atomization is sprayed to the 3rd heat-exchanging component 31, thereby the temperature can reduce the 3rd heat-exchanging component 31 and work time, improves the heat exchange efficiency of the 3rd heat-exchanging component 31.

Be understandable that, in order to make the 3rd water receiving tank 34 described in the water automatic stream in the first water receiving tank 14, simplify the discharge structure of this machine cabinet air-conditioner, described the first water receiving tank 14 to the relative position distance on described chassis 10 is greater than the relative position distance of described the 3rd water receiving tank 34 to described chassis 10.Understandablely be, because the position of the first water receiving tank 14 is high compared with the position of the 3rd water receiving tank 34, therefore, only a drainpipe need be set and be communicated with the water draining beak of the 3rd water receiving tank 34 of condenser, can realize the water in the first water receiving tank 14 and the 3rd water receiving tank 34 is discharged together.

In like manner, in the time that evaporimeter is provided with the second heat-exchanging component 16 and the second water receiving tank 15, the water draining beak 15a of described the second water receiving tank 15 is communicated to described the first water receiving tank 14, and described the second water receiving tank 15 to the relative position distance on described chassis 10 is more than or equal to the relative position distance of described the first water receiving tank 14 to described chassis 10.Like this, can make the condensed water in the second water receiving tank 15 can flow to the first water receiving tank 14, then, flowing to spray assembly 41 to condenser cooling, then be collected by the 3rd water receiving tank 34, and discharge by connected drainpipe.

The foregoing is only preferred embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure or conversion of equivalent flow process that utilizes the utility model description and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims

1. a machine cabinet air-conditioner, it is characterized in that, comprise chassis, evaporimeter, condenser and be arranged on the evaporator baffle between described evaporimeter and condenser, described evaporimeter, evaporator baffle and condenser are successively set on described chassis, described evaporimeter comprises the first heat-exchanging component, evaporator fan and the first water receiving tank, described the first water receiving tank is fixedly installed on the side that described evaporator baffle deviates from described condenser, described the first heat-exchanging component is fixedly installed on the notch top of described the first water receiving tank, described evaporator fan is fixedly installed between described the first water receiving tank and described chassis, the air inlet of described evaporator fan is positioned at the side that described evaporator fan is relative with described chassis, the air outlet of described evaporator fan is positioned at the side that described evaporator fan is relative with described the first heat-exchanging component, between the side that described evaporator fan is relative with described chassis and described chassis, there is gap.

2. machine cabinet air-conditioner as claimed in claim 1, it is characterized in that, described evaporimeter also comprises the second water receiving tank and the second heat-exchanging component, and described the second water receiving tank is arranged on described evaporator fan, and described the second heat-exchanging component is fixedly installed on the notch of described the second water receiving tank.

3. machine cabinet air-conditioner as claimed in claim 2, it is characterized in that, described the second heat-exchanging component and described the first heat-exchanging component interconnect, and form the default angle a of an opening towards described evaporator fan air inlet, 180 ° of 0 ° of < a <.

4. machine cabinet air-conditioner as claimed in claim 1, is characterized in that, described evaporator fan is fixed on the side that described evaporator baffle deviates from described condenser.

5. machine cabinet air-conditioner as claimed in claim 1, it is characterized in that, described evaporator fan is fixed on described chassis, described evaporator fan comprises support, is fixed on the centrifugal fan on described support, and cover at the wind gathering cover on described centrifugal fan, described support is fixed on described chassis, and form the air intake duct of opening towards described chassis right-hand member direction with described chassis, the air inlet of described centrifugal fan is communicated with described air intake duct, and the air outlet of the corresponding described centrifugal fan of described wind gathering cover is provided with the first ventilating opening.

6. machine cabinet air-conditioner as claimed in claim 2 or claim 3, it is characterized in that, described condenser comprises the 3rd heat-exchanging component, condenser fan, condenser baffle plate and the 3rd water receiving tank, described condenser baffle plate is fixed on described chassis, and the side that this condenser baffle plate is relative with described evaporator baffle is provided with described condenser fan, the air outlet of described condenser fan is just to described condenser baffle plate, the opposite side that described evaporator baffle is relative with condenser fan is provided with described the 3rd heat-exchanging component, described evaporator baffle is provided with and is communicated with the air outlet of described condenser fan and the second ventilating opening of described the 3rd heat-exchanging component, described the 3rd heat-exchanging component one end relative with described chassis is provided with described the 3rd water receiving tank.

7. machine cabinet air-conditioner as claimed in claim 6, it is characterized in that, described the first water receiving tank is provided with water draining beak, the side that described condenser baffle plate is relative with described the 3rd heat-exchanging component is provided with spray assembly, the water inlet of described spray assembly is communicated with the water draining beak of described the first water receiving tank, and the delivery port of described spray assembly is towards described the 3rd heat-exchanging component.

8. machine cabinet air-conditioner as claimed in claim 7, is characterized in that, described spray assembly comprises the water supply connector of shower and connection shower, and described shower is provided with multiple described delivery ports, delivery port axially setting gradually along described shower described in each.

9. machine cabinet air-conditioner as claimed in claim 8, is characterized in that, described the first water receiving tank to the relative position distance on described chassis is greater than the relative position distance of described the 3rd water receiving tank to described chassis.

10. machine cabinet air-conditioner as claimed in claim 9, it is characterized in that, the water draining beak of described the second water receiving tank is communicated to described the first water receiving tank, and described the second water receiving tank to the relative position distance on described chassis is more than or equal to the relative position distance of described the first water receiving tank to described chassis.