CN207268486U - Floor air conditioner - Google Patents
Floor air conditioner Download PDFInfo
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- CN207268486U CN207268486U CN201720920524.1U CN201720920524U CN207268486U CN 207268486 U CN207268486 U CN 207268486U CN 201720920524 U CN201720920524 U CN 201720920524U CN 207268486 U CN207268486 U CN 207268486U
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Abstract
A kind of floor air conditioner, including base and at least two air conditioner main bodies being arranged on base, air conditioner main body includes housing and the drainage air passage being formed in housing, the housing of adjacent air conditioner main body is arranged at intervals, air inlet and air outlet are offered on housing, cross flow fan and heat exchanger are provided with housing, air inlet, heat exchanger, cross flow fan and air outlet are laid in drainage air passage successively along air-flow direction;Form insertion air channel between the housing of adjacent air conditioner main body, the air in air inducing and insertion air channel in two neighboring drainage air passage mixed flow and is sent to the specified region of air-conditioned room in insertion air channel;Heat exchanger in two neighboring air conditioner main body connects at confluence, and confluence is located in the first plane where the longitudinal central axis line of insertion air channel, and the first plane air current flow direction along insertion air channel extends.The utility model is good with air-conditioning effect, and the advantages of using flexible.
Description
Technical field
It the utility model is related to apparatus of air conditioning technical field, more particularly to a kind of floor air conditioner.
Background technology
During in order to overcome floor air conditioner operation in the prior art, air-supply passage is complicated, causes a large amount of noises and air quantity to decline
The problem of subtracting, Chinese patent application(Application number 201410073610.4)A kind of air conditioner is disclosed, in an independent housing
One air inlet of upper setting, the air channel structure of two air outlets.And a cross flow fan, shape are set in each air channel structure
Into the wind-tunnel along housing anteroposterior direction air inducing, air is driven to flow from back to front.
The advantages of this double through-flow floor air conditioner is most prominent is when air conditioner is operated in refrigeration or heating state, is gone out
Wind-tunnel between air port forms negative pressure, forces the air on rear side of wind-tunnel to move forward, and then forms the wind of supplement, increases air conditioner
Air quantity.Simultaneously because air outlet blowout is the room flowed in the higher either relatively low cold wind or hot wind, with wind-tunnel of temperature
The air of temperature has the obvious temperature difference, so wind can be mixed in wind-tunnel front end so that outlet air is more soft, so as to reach raising
The purpose of the comfort of air-conditioning.In order to keep mixed wind effect, the heat exchanger of setting corresponding with air outlet preferably by
Arrangement.Heat exchanger is formed as the shape with the form fit in inner walls face, during the whole control of air conditioner, two
The working status that heat exchanger and its corresponding cross flow fan maintain like.Under these conditions, as long as two heat exchangers
Interior assignment of traffic is basically identical, reserves certain design margin and causes assignment of traffic to meet design margin and can meet air conditioner
Function, the confluence of heat exchanger is preferably provided with concealed location in the housing, is usually the side of indoor unit casing, to protect
Other components in housing are demonstrate,proved, such as drip tray, humidifier there can be reasonable installation and using spaces.
Double through-flow air conditioner disclosed in the prior art has the following disadvantages:First, user cannot be according to real experiences
The wind speed of independent control cross flow fan;Secondly, even setting two sets of independent circuit control fan operations, two heat exchangers
In refrigerant flow can not also correspond to carry out it is separately adjustable, it is easy to there is shutdown or the alarm condition of super air conditioner load;And
And since the confluence of heat exchanger sets side in a heat exchanger, long-time service can cause two heat exchanger distribution
Obtained refrigerant flow forms cumulative departure and cumulative departure gradually increases, if desired according to user demand with rotation speed of fan
The refrigerating capacity in heat exchanger is adjusted, then is very easy to that response overshoot occurs, alarm and the probability shut down can all greatly improve, sternly
Ghost image rings the real experiences of user.
The content of the invention
The shortcomings that to overcome above-mentioned double through-flow air conditioner, and utility model discloses and designs a kind of floor air conditioner.
A kind of floor air conditioner, including base and at least two air conditioner main bodies being arranged on the base, the air-conditioning
Body includes housing and the drainage air passage being formed in housing, and the housing of adjacent air conditioner main body is arranged at intervals, is opened on the housing
Equipped with air inlet and air outlet, cross flow fan and heat exchanger are provided with the housing, the air inlet, heat exchanger, pass through
Flow fan and air outlet are laid in the drainage air passage successively along air-flow direction;Between the housing of adjacent air conditioner main body
Formed insertion air channel, it is two neighboring drainage air passage in air inducing and the insertion air channel in air in the insertion air channel mix
Flow and send to the specified region of air-conditioned room;Heat exchanger in two neighboring air conditioner main body connects at confluence, the remittance
Flow point is located in the first plane where the longitudinal central axis line of the insertion air channel, and first plane is along the insertion air channel
Air current flow direction extends.
Further, the air conditioner main body includes the first air conditioner main body and the second air conditioner main body, first air conditioner main body
Housing in be provided with first heat exchanger, be provided with second heat exchanger in the housing of second air conditioner main body, described
One heat exchanger includes the first set of heat exchange tubes, and the second heat exchanger includes the second set of heat exchange tubes;The confluence includes the
One confluence and the second confluence;First set of heat exchange tubes connects the first confluence by the first separating tube, and described second changes
Heat pipe heat connects first confluence, the confession of the other end connection kind of refrigeration cycle of first confluence by the second separating tube
Liquid pipeline;First set of heat exchange tubes connects the second confluence by the first header, and second set of heat exchange tubes passes through second
Header connects the second confluence, the return line of the other end connection kind of refrigeration cycle of second confluence.
Further, first set of heat exchange tubes includes the multigroup heat exchanger tube being from top to bottom arranged in order, positioned at top side
One group of heat exchanger tube pipeline quantity be more than positioned at lower side one group of heat exchanger tube pipeline quantity;The second set of heat exchange tubes bag
The multigroup heat exchanger tube being from top to bottom arranged in order is included, is more than positioned at the pipeline quantity of one group of heat exchanger tube of top side and is located at lower side
One group of heat exchanger tube pipeline quantity;First set of heat exchange tubes is identical with the set of heat exchange tubes number of the second set of heat exchange tubes.
Preferably, the set of heat exchange tubes number of first set of heat exchange tubes and the second set of heat exchange tubes is three groups, positioned at top side
The pipeline of one group of heat exchanger tube more than the pipeline quantity positioned at one group of heat exchanger tube of lower side all the way or two-way.
Further, drip tray is further included, formed with accommodating chamber at the corresponding drip tray, first confluence and the
Two confluences are spacing by the accommodating chamber.
Further, the front face area of the first heat exchanger is more than first be opened on the first air conditioner main body housing
The area of air inlet;The front face area of the second heat exchanger is more than the second inlet air being opened on the second air conditioner main body housing
The area of mouth.
Further, the first cross flow fan is provided with first air conditioner main body, the first heat exchanger includes connecting
Continuous Part I and Part II, the Part I and Part II are from the two junction along different directions around described the
One cross flow fan is set;The second cross flow fan is provided with second air conditioner main body, the second heat exchanger includes continuous
Part III and Part IV, the Part III and Part IV are from the two junction along different directions around described second
Cross flow fan is set.
Floor air conditioner disclosed in the utility model, coordinates complete machine structure that confluence is arranged in insertion air channel longitudinal direction
In the first plane where axis, ensure when user actively adjusts wind speed according to use demand and controls air conditioner to carry out in next step
During operation, refrigerant is in stable condition in air conditioner original state, in adjacent first heat exchanger and second heat exchanger
Refrigerant flow is identical with pressure, reduces the initial static error brought in even elimination system by refrigerant uneven distribution,
Avoid the static error constantly amplification during the autonomous control of subsequent user and cause a departure mistakenly stop machine or the wrong report of setting value
The problem of alert.
Brief description of the drawings
In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment
Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, drawings in the following description are
Some embodiments of the utility model, for those of ordinary skill in the art, in the premise of not making the creative labor property
Under, other attached drawings can also be obtained according to these attached drawings.
Fig. 1 is a kind of top view of embodiment of floor air conditioner disclosed in the utility model;
Fig. 2 is the refrigerant circulation schematic diagram in the floor air conditioner shown in Fig. 1;
Fig. 3 is heat exchanger pipeline structure diagram in the floor air conditioner shown in Fig. 1;
Fig. 4 is the explosive view of Fig. 1;
Fig. 5 is the front view of Fig. 1;
Fig. 6 is the rearview of Fig. 1;
Reference numeral:Base 500, base back wall 9, base side wall 7,8, base front wall 6, functional component 4, chassis 9, first
Air conditioner main body 1, the second air conditioner main body 2, the first housing 10, the second housing 20, the first housing rear 10-1, the second housing rear
20-1, the first housing top wall 10-2, the second housing top wall 20-2, the first housing front wall 10-3, the second housing front wall 20-3, first
Air passage B1 is drained, second drains air passage simultaneously, the first air inlet 11, the second air inlet 12, the first air outlet 14, the second air outlet
24, the first cross flow fan 13, the second cross flow fan 23, the first cross flow fan fan 131, the second cross flow fan fan 231, first
Cross flow fan motor 132, the second cross flow fan motor 232, first heat exchanger 12, second heat exchanger 22, the first heat exchange
Device windward side 1200, insertion air channel A, the first confluence 100, the second confluence 200, the first plane P, the first set of heat exchange tubes 120,
Second set of heat exchange tubes 220, the first separating tube 124, the second separating tube 224, the first header 123, the second header 223, feed flow
Pipeline 400, return line 300, the first set of heat exchange tubes heat exchanger tube 120-1,120-2,120-3, the second set of heat exchange tubes heat exchanger tube
220-1,220-2,220-3, drip tray 3, the first side wall 31, second sidewall 32, accommodating chamber 600, Part I 121, second
Points 122, Part III 221, Part IV 222.
Embodiment
It is new below in conjunction with this practicality to make the purpose, technical scheme and advantage of the utility model embodiment clearer
Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched
The embodiment stated is the utility model part of the embodiment, instead of all the embodiments.Based on the implementation in the utility model
Example, those of ordinary skill in the art's all other embodiments obtained without creative efforts, belongs to
The scope of the utility model protection.
The schematic diagram for the floor air conditioner being shown referring to Fig. 1 to Fig. 6 disclosed in the present embodiment.As shown in the figure, vertical sky
Device is adjusted to include base 500 and at least two air conditioner main bodies being arranged on base 500.It is understood that the number of air conditioner main body
Amount can set more according to being actually needed.Below with two adjacent air conditioner main bodies, i.e., the first air-conditioning sheet as depicted
Exemplified by 1 and second air conditioner main body 2 of body, the concrete structure of floor air conditioner is specifically introduced.Base 500 is by base back wall 9, base side
Wall 7,8, base front wall 6 and chassis surround.Such as humidifying component functional component 4 is arranged in the base 500.First is empty
The the first drainage air passage B1 for adjusting body 1 to include the first housing 10 and be formed in the first housing 10, the second air conditioner main body 2 include
Second housing 20 and the second drainage air passage B2 being formed in the second housing 20.
First housing 10 and 20 unique spacer of the second housing are set, and are not interfered therebetween.First housing 10 includes
First housing rear 10-1, the first housing top wall 10-2 and the first housing front wall 10-3, the first housing rear 10-1, the first housing
Roof 10-2 and the first housing front wall 10-3 is both designed as streamlined.Second housing 20 includes the second housing rear 20-1, second
Housing top wall 20-2 and the second housing front wall 20-3.Second housing top wall 20-2 and the second housing front wall 20-3 are designed as streamline
Type.The first air inlet 11 is offered on first housing rear 10-1, the first air outlet 14 is offered on the first housing front wall 10-3,
The first cross flow fan 13 and first heat exchanger 12 are provided with first housing 10.First cross flow fan 13 is passed through including first
131 and first cross flow fan motor 132 of flow fan fan, the second cross flow fan 23 include the second cross flow fan fan 231 and the
Two cross flow fan motors 232.First cross flow fan motor 132 is arranged in the first housing top wall 10-2.First air inlet 11,
One heat exchanger 12, the first cross flow fan 13 and the first air outlet 14 are laid in the first drainage air passage along air-flow direction successively
In B1.The second air outlet 24 is offered on second housing, 20 antetheca, the second air inlet 12 is offered on the second housing rear 20-1,
The second cross flow fan 23 and second heat exchanger 22 are provided with second housing 20.Second cross flow fan motor 232 is set
In the second housing top wall 20-2.Second air inlet 12, second heat exchanger 22, the second cross flow fan 23 and the second air outlet 24
It is laid in successively along air-flow direction in the second drainage air passage B2.First air conditioner main body 1 and the second air conditioner main body 2 is adjacent sets
Put, insertion air channel A is formed between the first housing 10 and the second housing 20, passes through the first housing front wall 10-3, the first housing rear
The airflow design of 10-1 and the first housing top wall 10-2 and the second housing front wall 20-3, the second housing rear 20-1 and second
The airflow design of housing top wall 20-2 limits the shape of cross section of insertion air channel A, further limits air in insertion air channel A
Flow and flow direction.The air in air inducing and insertion air channel A in first drainage air passage B1 and the second drainage air passage B2 is passing through
Mixed flow in ventilating duct.Insertion air channel A is preferably extremely being reduced by flaring again to the Double-horn type of flaring shown in Fig. 1.Confluence is preferred
Occur between first air outlet 14, the second air outlet 24, i.e. the stage casing and front end of insertion air channel A.Air after mixed flow
It is sent to the specified region of air-conditioned room.
The first heat exchanger 12 being arranged in the first housing 10 and the second heat exchanger being arranged in the second housing 20
22 connect in confluence, and confluence is located at the first plane (P as shown in Fig. 4 dotted lines) where the longitudinal central axis line of insertion air channel
On, first plane air current flow direction along insertion air channel extends, it is necessary to which what is explained is that the first plane P is not an essence
Existing plane, only represents virtual setting position.So as to ensure when user actively adjusts wind speed according to use demand and controls
Air conditioner carries out the in stable condition of refrigerant in the air conditioner original state of next step operation, adjacent first heat exchanger and the
Refrigerant flow in two heat exchangers is identical with pressure, reduces what is brought in even elimination system by refrigerant uneven distribution
Initial static error, avoids the static error constantly amplification during the autonomous control of subsequent user and causes a departure setting value
The problem of mistakenly stop machine or false alarm.If multiple air conditioner main bodies, then between the heat exchanger in any two air conditioner main body
Confluence is respectively positioned on therebetween in the first plane where insertion air channel longitudinal central axis line, and the first plane is along insertion air channel
Air current flow direction extends.Setting the floor air conditioner structures of multiple air conditioner main bodies, this will not be repeated here.
The first heat exchanger 12 being arranged in the first housing 10 includes the first set of heat exchange tubes 120, is arranged on the second housing
Second heat exchanger 22 in 20 includes the second set of heat exchange tubes 220.Confluence includes the first confluence 100 and the second confluence
200.Wherein described first set of heat exchange tubes 120 connects the first confluence 100, the second set of heat exchange tubes 220 by the first separating tube 124
First confluence 100 is connected by the second separating tube 224, the other end connection floor air conditioner refrigeration of the first confluence 100 is followed
The liquid feeding pipeline 400 of ring.When being operated in refrigerating state(Including dehumidified state)When, the liquid refrigerant in kind of refrigeration cycle passes through confession
Behind 400 and first confluence 100 of liquid pipeline, the first heat exchanger tube is entered by the first separating tube 124 and the second separating tube 224 respectively
120 and second set of heat exchange tubes 220 of group, liquid refrigerant is under low pressure respectively in the first set of heat exchange tubes 120 and the second set of heat exchange tubes
Evaporated in 220, be changed into steam and absorb the heat of cooled medium.In the other end of set of heat exchange tubes, the first set of heat exchange tubes 120
Second confluence 200 is connected by the first header 123, the second set of heat exchange tubes 220 is converged by the second header 223 connection second
Flow point 200, the return line 300 of the other end connection refrigerant circulation of the second confluence 200.It is changed into gaseous refrigerant to lead to
Return line 300 is crossed to return in kind of refrigeration cycle.Pipeline connection is preferably preferably changed using the form of welding, set of heat exchange tubes by made of copper
Heat pipe forms.When air conditioner operates in heating state, the flow direction of refrigerant is opposite.Due to the first confluence 100 and
Two confluences 200 are arranged on the first plane P where insertion air channel A longitudinal central axis lines.So either refrigerant passes through
The distribution of first confluence 100 is still flowed back by the second confluence 200, can guarantee that refrigerant flow is divided equally.
According to the air conditioning capacity of air conditioner, based on the original intention for optimizing heat transfer effect, the first set of heat exchange tubes 120 be designed as by
The multigroup set of heat exchange tubes being arranged in order from up to down is into multigroup heat exchanger tube is preferably connected in parallel.Any one group of heat exchanger tube passes through
One independent import connection separating tube, and an independent outlet connection header.One group that is located at top side is set to change
The pipeline quantity of heat pipe is more than the pipeline quantity of one group of heat exchanger tube positioned at lower side so that one group of heat exchanger tube of temperature difference maximum
Heat exchange area is maximum, and the heat exchange area of one group of heat exchanger tube of temperature difference minimum is minimum, so as to improve the heat exchange of the first set of heat exchange tubes
Ability, further improves the heat-exchange capacity of first heat exchanger.Corresponding, 220 same design of the second set of heat exchange tubes is by upper
The multigroup set of heat exchange tubes being arranged in order downwards into.In the second set of heat exchange tubes 220, each group of heat exchanger tube also passes through an independence
Import connection separating tube, an and independent outlet connection header.From the laying structure of refrigerating circulation,
First set of heat exchange tubes 120 and the second set of heat exchange tubes 220 are symmetrically laid.In the second set of heat exchange tubes, multigroup heat exchanger tube is preferably in parallel
Set, set the pipeline quantity of one group of heat exchanger tube positioned at top side to be more than the pipeline number of one group of heat exchanger tube positioned at lower side
Amount so that the heat exchange area of one group of heat exchanger tube of temperature difference maximum is maximum, and the area of one group of heat exchanger tube of temperature difference minimum is minimum, so that
The heat-exchange capacity of the second set of heat exchange tubes is improved, further improves the heat-exchange capacity of second heat exchanger.
For the floor air conditioner disclosed in the present embodiment, preferable Air-conditioner design ability is 3, therefore, is passed through
To the COMPREHENSIVE CALCULATING of the pressure loss, refrigerant flow rates and air conditioning capacity, the first set of heat exchange tubes 120 and the second heat exchanger tube are preferably provided with
Group 220 set of heat exchange tubes number for three groups (120-1,120-2,120-3 as shown in the figure, and 220-1 as shown in the figure, 220-2 and
220-3), and positioned at one group of heat exchanger tube of top side(120-1 and 220-1 as shown in the figure)Pipeline than positioned at one group of lower side
Heat exchanger tube(120-3 and 220-3 as shown in the figure)Pipeline quantity more all the way or two-way.Middle one group of heat exchanger tube(As shown in the figure
120-2,220-2)Way between the way of one group of heat exchanger tube of way and lower side of one group of top side heat exchanger tube.Can be with
Understand, the pipeline quantity that may be set to be three groups of set of heat exchange tubes from top to bottom is identical.When latter arrangement mode
Heat exchange effect is inferior to former set-up mode.
Structurally, first heat exchanger 12 and second heat exchanger 22 are vertically arranged, beneficial to discharge condensed water.Water receiving
Disk 3 is arranged on the lower section of first heat exchanger 12 and second heat exchanger 22.In order to lay the first confluence 100 and the second confluence
Point 400.Formed with accommodating chamber 600 at corresponding drip tray 3.Specifically, drip tray 3 close to the side of air inlet formed with first
Side wall 31 and second sidewall 32, the back edge that the first side wall 31, second sidewall 32 and drip tray 3 are recessed inwardly form a U
Type groove, the squab panel 9 of U-shaped groove and base 500 surround accommodating chamber 600, the first confluence 100 and the second confluence jointly
400 is spacing by being carried out in accommodating chamber 600, it is to be understood that the first confluence 100 and the second confluence 400 are not one
Surely it is arranged in accommodating chamber 600, accommodating chamber 600 is that the first confluence 100 and second is converged on the extending direction of the first plane P
Flow point 400 carries out spacing, the structure design in optimization base 500, ensures the water of the first confluence 100 and the second confluence 400
It is flat that position is set, avoid pipeline from being bent in use, installation process, while avoid the first confluence 100 and the second confluence
Point 400 sets position to form influence to other functional components 4 in base 500.
As shown in Figure 1, in order to ensure the heat transfer effect of first heat exchanger 12 and second heat exchanger 22.First heat exchange
The front face area of device 12 is more than the area for the first air inlet 11 being opened on 1 housing of the first air conditioner main body, second heat exchanger
22 front face area is more than the area for the second air inlet 21 being opened on 2 housing of the second air conditioner main body.It is described herein windward
Area, refers to the section of heat exchanger windward(As shown in Figure 4 1200)Area.The area and the second inlet air of first air inlet 11
The area of mouth 21 is the 0.8 to 0.9 of front face area.So as to ensure that the ventilation of first heat exchanger and second heat exchanger is effectively cut
Area is substantially equal with the ventilation net sectional area of first heat exchanger and second heat exchanger.
From saying in shape, first heat exchanger 12 includes continuous Part I 121 and Part II 122, Part I
121 and Part II 122 set from the junction of the two along different directions around the first cross flow fan 13.It is corresponding, another
Side, Part III 221 and Part IV 222 are set from the two junction along different directions around the second cross flow fan 23.First
Shape forms an angle between part 121 and Part II 122, and about at 150 ° or so, meet air inducing area and ventilation has angle
Imitate the qualified relation of sectional area.Shape forms an angle between Part III 221 and Part IV 222, Part III 221 and the 4th
Angle between part 222 is also about 150 °.
Finally it should be noted that:Above example is only to illustrate the technical solution of the utility model, rather than its limitations;
Although the utility model is described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that:
It can still modify the technical solution described in foregoing embodiments, or which part technical characteristic is carried out etc.
With replacement;And these modifications or replacement, the essence of appropriate technical solution is departed from various embodiments of the utility model technology
The spirit and scope of scheme.
Claims (7)
- A kind of 1. floor air conditioner, it is characterised in that including base and at least two air conditioner main bodies that are arranged on the base, The air conditioner main body includes housing and the drainage air passage being formed in housing, and the housing of adjacent air conditioner main body is arranged at intervals, described Air inlet and air outlet are offered on housing, cross flow fan and heat exchanger are provided with the housing, the air inlet, heat are handed over Parallel operation, cross flow fan and air outlet are laid in the drainage air passage successively along air-flow direction;Adjacent air conditioner main body Form insertion air channel between housing, the air in air inducing and the insertion air channel in two neighboring drainage air passage is in the perforation Mixed flow and sent in air passage to the specified region of air-conditioned room;Heat exchanger in two neighboring air conditioner main body connects at confluence Logical, the confluence be located in the first plane where the longitudinal central axis line of the insertion air channel, described in the first plane edge Air current flow direction extends in insertion air channel.
- 2. floor air conditioner according to claim 1, it is characterised in that the air conditioner main body include the first air conditioner main body and Second air conditioner main body, is provided with first heat exchanger, the shell of second air conditioner main body in the housing of first air conditioner main body Second heat exchanger is provided with body, the first heat exchanger includes the first set of heat exchange tubes, and the second heat exchanger includes Second set of heat exchange tubes;The confluence includes the first confluence and the second confluence;First set of heat exchange tubes passes through first point Liquid pipe connects the first confluence, and second set of heat exchange tubes connects first confluence by the second separating tube, and described first The liquid feeding pipeline of the other end connection kind of refrigeration cycle of confluence;First set of heat exchange tubes is converged by the first header connection second Flow point, second set of heat exchange tubes connect the second confluence, the other end connection of second confluence by the second header The return line of kind of refrigeration cycle.
- 3. floor air conditioner according to claim 2, it is characterised in that first set of heat exchange tubes include from top to bottom according to Multigroup heat exchanger tube of secondary arrangement, one group of heat exchanger tube positioned at lower side is more than positioned at the pipeline quantity of one group of heat exchanger tube of top side Pipeline quantity;Second set of heat exchange tubes includes multigroup heat exchanger tube for being from top to bottom arranged in order, one group positioned at top side The pipeline quantity of heat exchanger tube is more than the pipeline quantity of one group of heat exchanger tube positioned at lower side;First set of heat exchange tubes and second is changed The set of heat exchange tubes number of heat pipe heat is identical.
- 4. floor air conditioner according to claim 3, it is characterised in that first set of heat exchange tubes and the second set of heat exchange tubes Set of heat exchange tubes number be three groups, positioned at top side one group of heat exchanger tube pipeline than one group of heat exchanger tube positioned at lower side pipeline Quantity is more all the way or two-way.
- 5. floor air conditioner according to claim 4, it is characterised in that further include drip tray, correspond at the drip tray Formed with accommodating chamber, first confluence and the second confluence are spacing by the accommodating chamber.
- 6. floor air conditioner according to claim 5, it is characterised in that the front face area of the first heat exchanger is more than The area for the first air inlet being opened on the first air conditioner main body housing;The front face area of the second heat exchanger, which is more than, to be opened up The area of the second air inlet on the second air conditioner main body housing.
- 7. floor air conditioner according to claim 6, it is characterised in that be provided with first in first air conditioner main body and pass through Flow fan, the first heat exchanger include continuous Part I and Part II, and the Part I and Part II are certainly The two junction is set along different directions around first cross flow fan;The second through-flow is provided with second air conditioner main body Wind turbine, the second heat exchanger include continuous Part III and Part IV, and the Part III and Part IV are from two Person junction is set along different directions around second cross flow fan.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720920524.1U CN207268486U (en) | 2017-07-27 | 2017-07-27 | Floor air conditioner |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720920524.1U CN207268486U (en) | 2017-07-27 | 2017-07-27 | Floor air conditioner |
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CN207268486U true CN207268486U (en) | 2018-04-24 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107327929A (en) * | 2017-07-27 | 2017-11-07 | 青岛海尔空调器有限总公司 | The control method of floor air conditioner and floor air conditioner |
-
2017
- 2017-07-27 CN CN201720920524.1U patent/CN207268486U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107327929A (en) * | 2017-07-27 | 2017-11-07 | 青岛海尔空调器有限总公司 | The control method of floor air conditioner and floor air conditioner |
CN107327929B (en) * | 2017-07-27 | 2023-05-19 | 青岛海尔空调器有限总公司 | Vertical air conditioner and control method thereof |
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