CN109611952A - A kind of cabinet air-conditioner - Google Patents

Abstract

The invention discloses a kind of cabinet air-conditioners, comprising: casing, through-flow air duct, heat-exchanging component and cross flow fan, casing include back casing and procapsid, and air inlet is provided on back casing, is provided with air outlet on the procapsid；Cross flow fan in casing is set, and cross flow fan includes the through-flow air duct formed by spiral case and volute tongue and the tubular wine wheel being arranged in the through-flow air duct, and the outlet air end in through-flow air duct is connected to the air outlet；Heat-exchanging component between the cross flow fan and the back casing is set；The non-face of the air inlet port in the outlet air end of the heat-exchanging component and the through-flow air duct is arranged.The present invention is by the way that the air inlet port end of the outlet air end of heat-exchanging component and through-flow air duct to be arranged in non-face, after wind comes out from heat-exchanging component, it needs just to can enter in through-flow air duct by turning or deviating, effectively wind speed of the buffering into through-flow air duct, so that the outlet air more even that air outlet goes out, reduces noise.

Description

A kind of cabinet air-conditioner

Technical field

The present invention relates to air conditioner technical field more particularly to a kind of cabinet air-conditioners.

Background technique

With the raising of human living standard, user requires also constantly to be promoted to comfort of air conditioner, existing traditional air-conditioning The through-flow Duct design of air conditioner indoor machine has limitation, the air inlet port in the through-flow air duct of most of indoor units and going out for heat-exchanging component Wind end be connect together, and face setting, so that from heat-exchanging component come out wind be directly entered through-flow air duct, cause Wind speed in through-flow air duct is larger, and then causes the wind speed of air outlet excessive, is also easy to produce noise, influences user's use.

Therefore, the existing technology needs to be improved and developed.

Summary of the invention

The technical problem to be solved in the present invention is that in view of the above drawbacks of the prior art, providing a kind of cabinet air-conditioner, purport The problems such as wind velocity out at prior art cabinet air conditioner air-out mouth is big solving, and is also easy to produce noise.

The technical proposal for solving the technical problem of the invention is as follows:

A kind of cabinet air-conditioner, wherein the cabinet air-conditioner includes:

The casing includes back casing and procapsid, is provided with air inlet on the back casing, if being provided on the procapsid Do air port；

Casing and several cross flow fans being arranged in the casing, the cross flow fan includes being passed through by spiral case with what volute tongue was formed Stream air duct and the tubular wine wheel that is arranged in the through-flow air duct are separated by partition between two neighboring cross flow fan, described Through-flow air duct is connected to the air outlet.

Beneficial effects of the present invention: air conditioner indoor unit of the invention has multiple air outlets, effectively solves existing cabinet-type air conditioner and send The single problem of wind mode is separated cross flow fan by partition, and internal structure is simple, easy for installation, and be can solve air-supply and relaxed The problem of adaptive difference and cold wind blow-through.

Detailed description of the invention

Fig. 1 is the schematic diagram of internal structure of cabinet air-conditioner of the invention.

Fig. 2 is the structural schematic diagram of cabinet air-conditioner of the invention.

Fig. 3 is double air outlet blow-through air supply pattern schematic diagrames of cabinet air-conditioner of the invention.

Fig. 4 is that double air outlets of cabinet air-conditioner of the invention encircle air supply pattern schematic diagram.

Fig. 5 be cabinet air-conditioner of the invention blow-through air-supply+tiltedly blow wind pattern diagram.

Fig. 6 be cabinet air-conditioner of the invention swing flap+tiltedly blow wind pattern diagram.

Fig. 7 is double air outlet swing flap pattern diagrams of cabinet air-conditioner of the invention.

Fig. 8 is double air outlets orientation swing flap pattern diagram of cabinet air-conditioner of the invention.

Fig. 9 is single air outlet blow-through air supply pattern schematic diagram of cabinet air-conditioner of the invention.

Figure 10 is that single air outlet of cabinet air-conditioner of the invention tiltedly blows wind pattern diagram.

Figure 11 is single air outlet swing flap pattern diagram of cabinet air-conditioner of the invention.

Specific embodiment

To make the objectives, technical solutions, and advantages of the present invention clearer and more explicit, right as follows in conjunction with drawings and embodiments The present invention is further described.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and do not have to It is of the invention in limiting.

It is to be appreciated that if relating to directionality instruction (such as up, down, left, right, before and after ...) in the embodiment of the present invention, Then directionality instruction be only used for explain under a certain particular pose (as shown in the picture) between each component relative positional relationship, Motion conditions etc., if the particular pose changes, directionality instruction is also correspondingly changed correspondingly.

In addition, being somebody's turn to do " first ", " second " etc. if relating to the description of " first ", " second " etc. in the embodiment of the present invention Description be used for description purposes only, be not understood to indicate or imply its relative importance or implicitly indicate indicated skill The quantity of art feature." first " is defined as a result, the feature of " second " can explicitly or implicitly include at least one spy Sign.It in addition, the technical solution between each embodiment can be combined with each other, but must be with those of ordinary skill in the art's energy It is enough realize based on, will be understood that the knot of this technical solution when conflicting or cannot achieve when occurs in the combination of technical solution Conjunction is not present, also not the present invention claims protection scope within.

The outlet air end of heat-exchanging component in cabinet air-conditioner in the prior art and the air inlet port in through-flow air duct are in face It is arranged, and is connected together, so that the wind come out from heat-exchanging component is directly entered through-flow air duct, leads to through-flow Wind speed in air duct is larger, and then causes the wind speed of air outlet big, is also easy to produce noise, influences user's use.It is above-mentioned in order to solve Problem, this some embodiments provide a kind of cabinet air-conditioner, and multiple cross flow fans are provided in casing 10, and adjacent pass through It is separated between flow fan using partition 60.Air conditioner indoor unit has multiple air outlets, effectively solves existing cabinet-type air conditioner air supply mode list One the problem of, is separated cross flow fan by partition, and internal structure is simple, easy for installation, and can solve air-supply comfort difference and The problem of cold wind blow-through.As shown in fig. 1, embodiment shown in Fig. 1 is two cross flow fans of setting in casing 10, each Independent tubular wine wheel 40 is provided in a cross flow fan, and each tubular wine wheel 40 is controlled by independent motor.This The double air outlet structures of kind, it is possible to provide enough air outlet angles avoid wind from only blowing human body, improve comfort, and structure is more compact And avoid the waste of cost.Two cross flow fans in the present embodiment share the same volute tongue 30, and partition 60 is arranged at this In shared volute tongue 30, be conducive to the internal structure for saving casing 10.Preferably, as shown in Figure 3, shared volute tongue 30 includes There are two the shapes of side two side sections 310 of section 310(not to limit strictly, can be the bending structure of Fig. 1, is also possible to uniformly The globoidal structure of variation) and the interlude 320(of two sides sections 310 is connected similar to the "Ji" type in Fig. 1).Preferably, two A side section 310 is symmetrically positioned in two cross flow fans, i.e., the form and dimension in two cross flow fans is consistent, to manufacture When can with batch making, save cost.

In some embodiments, referring to Fig. 3, the side section 310 includes the extended from interlude 320 to procapsid 102 One section 311, the second segment 312 extended from the procapsid 102 to the tubular wine wheel 40, the first segment 311 is close to described One end of procapsid 102 and the second segment 312 connect 313 by third section between one end of the procapsid 102, because This, first segment 311, second segment 312 and third section 313 are enclosed a unhurried current groove, due to the outlet air of heat-exchanging component 50 The air inlet port at end and through-flow air duct 100 is arranged in non-face, therefore, when wind is blown out from the outlet air end of heat-exchanging component 50 Afterwards, wind speed is buffered by the unhurried current groove that first segment 311, second segment 312 and third section 313 are enclosed, and made It obtains windbreak to rotate into through-flow air duct 100, plays and avoid wind blow-through, reduce out wind velocity, to improve the comfort of outlet air.Into One step, the side section 310 further includes close to one end of tubular wine wheel 40 from the second segment 312 along 40 side of tubular wine wheel Extend to air outlet the 4th section 314 of edge, from described 4th section 314 close to described 120 one end of air outlet to the air outlet 120 The 5th section 315 of one end extension, from figure 2 it can be seen that the 4th section forms gap between 314 and tubular wine wheel 40, for going out Wind, and the 5th section 315 and spiral case 20 and shell 10 form the rear end in through-flow air duct 100, so that wind passes through air outlet 120 Blowout.

Further, in this embodiment side section 310 respectively with spiral case 20 formed two through-flow air ducts 100, partition 60 is just It is arranged on interlude.Preferably, in order to enable partition 60 can be more stable, the two sides of the partition 60 in the present embodiment are arranged There is supporting element to be supported to partition 60, so that the partition 60 is more stable.Two through-flow air ducts 100 in the present embodiment are equal Corresponding air outlet 120 is set, and air outlet 120 is set in parallel, is conducive to each through-flow air duct 100 and realizes parallel air-supply, Form double outlet air cabinet air-conditioners.

In some embodiments, specific as shown in fig. 1, including casing 10, the casing 10 include the rear shell being oppositely arranged Body 101 and procapsid 102 are provided with air inlet on back casing 101, air outlet 120 are provided on procapsid 102.This implementation It is provided with lattice canopy at the air inlet and air outlet 120 of casing 10 in example, the lattice canopy is for preventing air inlet and air outlet 120 Into foreign matter, security risk can also be avoided.It is provided with cross flow fan in casing 10, which includes by spiral case 20 and snail The through-flow air duct 100 and the tubular wine wheel 40 being arranged in the through-flow air duct 100, the tubular wine wheel 40 that tongue 30 is formed are located at snail Between shell 20 and volute tongue 30, and through-flow air duct 100 is connected to air outlet 120.Further, close to back casing 101 into Air port go out be provided with a heat-exchanging component 50, the heat-exchanging component 50 be arranged between cross flow fan and the back casing 101, for pair Heat exchange is carried out from the wind of air inlet, and then is conveyed into through-flow air duct 100.The outlet air end of heat-exchanging component 50 in the present embodiment The air inlet port in (one side i.e. far from air inlet 101) and through-flow air duct 100 is arranged in non-face, that is to say, this implementation The air inlet port face in the outlet air end of heat-exchanging component 50 and through-flow air duct 100 is arranged unlike as traditional design in example, But the forms such as dislocation, offset will be arranged between the outlet air end of heat-exchanging component 50 and the air inlet port in through-flow air duct 100.Cause This, the wind come out from heat-exchanging component 50 is needed by turning or from laterally entering through-flow air duct, rather than directly just To through-flow air duct is entered, result in the wind speed into through-flow air duct that can reduce in this way, so that into the wind in through-flow air duct It is softer, guarantee the outlet air even at air outlet 120.Specifically from figure 1 it appears that in the present embodiment, exchanging heat The outlet air end of component 50 towards the lower right partition 60(), and the air inlet port in through-flow air duct 100 is also directed towards partition 60(upper right Side), non-face setting between the two, therefore wind path is the wind as represented by the arrow in Fig. 3, from heat-exchanging component 50 out It is to need to turn back and just can enter through-flow air duct 100, and during turning back, wind speed will certainly be buffered, therefore attenuating Wind speed, so that outlet air uniform and stable, reduces noise.

In some embodiments, through-flow air duct 100 can be circular arc channel, and circular arc channel can be further to through-flow wind Wind speed in road 100 is buffered, as shown in Figure 1, spiral case 20 be arranged it is in the arc-shaped, when wind enters in through-flow air duct 100 Afterwards, by arc-shaped 20 transition of spiral case, so that the wind in through-flow air duct 100 steadily conveys, to be further ensured that Outlet air is more uniform.

In some embodiments, the heat-exchanging component 50 in the present embodiment be can be arranged along 101 shape of back casing, and And close to back casing 101, from enabling the air inlet of back casing 101 to get close to heat-exchanging component 50, so that air inlet comes in wind all Heat-exchanging component 50 can be passed through, improve heat exchange efficiency.Preferably, in order to further increase heat exchange efficiency, heat exchange group in the present embodiment Part 50 is arranged across two cross flow fans, so that two cross flow fans share a heat-exchanging component 50, not only effectively increases and changes The thermal efficiency, and effectively save cost.Preferably, the heat-exchanging component 50 in the present embodiment includes heat exchanger 510 and is mounted on Close to the heater 520 of 120 side of air outlet on heat exchanger 510.In some embodiments, the heat exchange in heat-exchanging component 50 Device 510 is mounted on crossbearer 530, and arc-shaped bending, and bending protrusion 511, the bending are provided on heat exchanger 510 Protrusion 511 is the outlet air end of heat-exchanging component 50, and heater 520 is the inside of setting bending protrusion 511, so as to outlet air end The wind of submitting works.Preferably, which is to be convex to air inlet, so that the heating or refrigeration of heat-exchanging component 50 Effect is more fully played.Certainly, due to there are two cross flow fan, being correspondingly arranged on heat exchanger 510 in Fig. 1 There are two protrusion 511 is bent, i.e. heat-exchanging component 50 is provided with outlet air end in each cross flow fan.Referring again to Fig. 1, The air inlet port in the outlet air end of the heat-exchanging component 50 in two cross flow fans in the present embodiment and through-flow air duct 100 court respectively It is arranged to the partition 60, i.e. shown in Fig. 1, the direction of the outlet air end of the heat-exchanging component 50 in the cross flow fan on the left side is oblique To the right, and the air inlet port in through-flow air duct 100 is oblique upper right side；Heat-exchanging component 50 in the cross flow fan on the right goes out The direction at wind end is oblique lower left, and the air inlet port in through-flow air duct 100 is oblique upper left side, since partition 60 is that setting exists Between two cross flow fans, just formed two cross flow fans in heat-exchanging component 50 outlet air end and through-flow air duct 100 into Wind port is respectively facing the partition 60 and is arranged, and also allows for the outlet air end in two cross flow fans from heat-exchanging component 50 in this way Wind out all can be by turning, then from the air inlet port for laterally entering through-flow air duct 100, so that wind speed reduces.And And since the outlet air end of the heat-exchanging component 50 in two cross flow fans is directed towards partition 60, go out from heat-exchanging component 50 The wind come can be blown away to the direction of partition 60, then turn to wind path by partition 60, then from laterally entering through-flow air duct 100 Air inlet port, and make wind path that wind can be made to dissipate and buffer wind speed during steering in partition 60, to further increase out Wind uniformity.

Preferably, the heater 520 in the present embodiment is used to assist heating air to improve heating efficiency under heating mode, Can be Resistant heating device, PTC(posive temperature coefficient thermistor) heating devices of heating device or other forms.

Certainly, the form that two cross flow fans are arranged shown in Fig. 1 in casing 10 is only used for illustrating the present invention Technical solution, be not intended to limit the present invention.In some other embodiments, through-flow there are four can be set in casing 10 Blower is provided with independent through-flow air duct in each cross flow fan, and is all corresponding with independent air outlet and opposite four sides Setting, thus may be implemented four sides air-out.

Further, it referring again to Fig. 1, is provided at the air outlet 120 in two through-flow air ducts in the present embodiment Lower swing flap plate 70 and left and right air deflection assemblies 80, and air deflection assemblies 70 are mounted on the volute tongue in through-flow air duct 100 up and down On 30, and towards air outlet 120；Left and right air deflection assemblies 80 are mounted at the outlet port in through-flow air duct 100, face air outlet 120.Preferably, the installation form of rotation connection can be used with left and right air deflection assemblies 80 for air deflection assemblies 70 up and down, such as It can be using the form of axis hole connection, so that the movement that air deflection assemblies 70 pass through itself with left and right air deflection assemblies 80 up and down To control outlet air.Preferably, the left and right air deflection assemblies 80 in the present embodiment and vertical swing flap plate 70 are by several activities Blade composition, and driven by motor, moving vane may be implemented left and right or swing up and down, to realize free cooperation The big Wide blowing angle of mode.

In some embodiments, it is mounted on independent first motor, the second motor in through-flow air duct 100 shown in FIG. 1, The first motor and the second motor are installed on the side wall of casing 10, and 70 electricity of the first motor and upper and lower air deflection assemblies Property connection, the second motor and left and right air deflection assemblies 80 are electrically connected, the through-flow by this present embodiment, in each cross flow fan Wind wheel 40 is also to be controlled by independent motor, unaffected by each other between each tubular wine wheel 40, therefore passes through the first electricity Machine is independently controlled upper and lower air deflection assemblies 70 and left and right air deflection assemblies 80 with the second motor, and combines to through-flow Various forms of air-out modes may be implemented in the control of wind wheel 40.

For example, the present embodiment is by taking the cabinet air-conditioner in two through-flow air ducts in Fig. 1 as an example, by two through-flow wind of control The air supply patterns of diversified forms is realized in the work of left and right air deflection assemblies 80 and tubular wine wheel 40 in road, comprising: it is double go out Air port blow-through air supply pattern, double air outlets encircle air supply pattern, blow-through blow+tiltedly blows air supply pattern, swing flap+tiltedly blow wind mould Formula, double air outlet swing flap modes, double air outlets orientation swing flap mode, single air outlet blow-through air supply pattern, single air outlet tiltedly blow Wind mode and single air outlet swing flap mode.User can independently select corresponding air supply pattern according to demand.

Specifically, as shown in Figure 3, the arrow in figure indicates air supply direction, the two through-flow wind in the present embodiment control left and right Tubular wine wheel 40 in machine is opened, and the left and right air deflection assemblies 80 controlled in two through-flow air ducts 100 are fixed, so that two A air outlet 120 realizes that double air outlet blow-through air supply patterns, the air-flow of two air outlets 120 synthesize one gas at 0.5-2m Stream, blow-through is to interior.

As shown in Figure 4, the through-flow electricity wheel 40 in two cross flow fans in the present embodiment control left and right is opened, and controls left and right Left and right air deflection assemblies 80 in two through-flow air ducts 100 are to two sides wind-guiding, such as left and right in left through-flow air duct in Fig. 4 is led The wind-guiding to the left of aerofoil component 80, wind-guiding, two strands of air-flows form big angles to the left and right air deflection assemblies 80 in right through-flow air duct to the right Outlet air is spent, air outlet angle is between 30 ~ 140 °, and when users use, per share air-flow can be bonded wall and flow, constant circumstance temperature, and It blows less than people, real encircling type air supply pattern.

As shown in Figure 5, the through-flow electricity wheel 40 in two cross flow fans in the present embodiment control left and right is opened, and controls one The left and right air deflection assemblies 80 in through-flow air duct 100 fix wind-guiding to centre, the left and right air deflection assemblies in another through-flow air duct 80 to the right or the fixed wind-guiding in left side, such as the left and right air deflection assemblies 80 in the left side through-flow air duct in Fig. 5 are fixed to centre Wind-guiding, wind-guiding, realization left side blow-through, the mode that right side is tiltedly blown are real to the right for the left and right air deflection assemblies 80 in right side through-flow air duct Wide region air-supply is showed.

As shown in fig. 6, the through-flow electricity wheel 40 in two cross flow fans in the present embodiment control left and right is opened, and controls one and pass through 80 left-right rotation of left and right air deflection assemblies for flowing air duct 100 forms left and right swing flap, the left and right wind-guiding in another through-flow air duct 100 Board group part 80 to the right or the fixed wind-guiding in left side, to form swing flap+tiltedly blow air supply pattern.

As shown in Figure 7, the through-flow electricity wheel 40 in two cross flow fans in the present embodiment control left and right is opened, and controls two The left and right air deflection assemblies 80 in through-flow air duct 100 rotate and carry out left and right swing flap, realize a wide range of air-supply.Specifically, it can control The left and right air deflection assemblies 80 for making two through-flow air ducts 100 are synchronous to a direction rotation, also can control through-flow air duct 100 The synchronization of left and right air deflection assemblies 80 rotates in the opposite direction.

As shown in Figure 8, the present embodiment can also further control left and right air deflection assemblies on the basis of Fig. 7 embodiment 80 slewing area, so that the blowing range of left and right air deflection assemblies 80 is controlled, as shown in Figure 8, although two sides all carry out Left and right swing flap, but the swing flap range on right side is less than left side, realizes that double air outlets orient swing flap mode.

Preferably, the through-flow electricity wheel 40 that can also be controlled in a cross flow fan in the present embodiment is closed, so that the through-flow Blower does not work, and only opens the tubular wine wheel 40 in the cross flow fan of side, and cooperate the control to left and right air deflection assemblies 80, Realize that single air outlet blow-through air supply pattern (as shown in Figure 9), single air outlet are tiltedly blown air supply pattern (as shown in Figure 10) and singly gone out Air port swing flap mode (as shown in figure 11).

In conclusion the invention discloses a kind of cabinet air-conditioners, comprising: casing, the casing include back casing and front housing Body is provided with air inlet on the back casing, is provided with air outlet on the procapsid；Through-flow wind in the casing is set Machine, the cross flow fan include the through-flow air duct formed by spiral case and volute tongue and the through-flow wind being arranged in the through-flow air duct Wheel, the outlet air end in the through-flow air duct are connected to the air outlet；It is arranged between the cross flow fan and the back casing Heat-exchanging component；The non-face of the air inlet port in the outlet air end of the heat-exchanging component and the through-flow air duct is arranged.The present invention pass through by The outlet air end of heat-exchanging component and the air inlet port end in through-flow air duct are arranged in non-face, after wind comes out from heat-exchanging component, need It just can enter in through-flow air duct by turning or deviating, the wind speed for entering through-flow air duct effectively buffered, so that air outlet The more even of outlet air out reduces noise.

It should be understood that the application of the present invention is not limited to the above for those of ordinary skills can With improvement or transformation based on the above description, all these modifications and variations all should belong to the guarantor of appended claims of the present invention Protect range.

Claims (10)

1. a kind of cabinet air-conditioner, which is characterized in that the cabinet air-conditioner includes:

The casing includes back casing and procapsid, is provided with air inlet on the back casing, if being provided on the procapsid Do air port；

Casing and several cross flow fans being arranged in the casing, the cross flow fan includes being passed through by spiral case with what volute tongue was formed Stream air duct and the tubular wine wheel that is arranged in the through-flow air duct are separated by partition between two neighboring cross flow fan, described Through-flow air duct is connected to the air outlet.

2. cabinet air-conditioner according to claim 2, which is characterized in that there are two air outlet, institutes for setting on the procapsid Stating setting in casing, there are two cross flow fans.

3. cabinet air-conditioner according to claim 1 or 2, which is characterized in that the two neighboring cross flow fan shares a snail Tongue, the partition are arranged in the shared volute tongue.

4. cabinet air-conditioner according to claim 3, which is characterized in that the shared volute tongue includes two side sections and connection The interlude of described two sides section, the partition are arranged on the interlude, and the side section includes from the interlude to institute The first segment of procapsid extension is stated, the second segment extended from the procapsid to the tubular wine wheel, the first segment is close to institute The one end and the second segment for stating procapsid are connected between one end of the procapsid by third section, and the side section is also wrapped The 4th section extended along the tubular wine wheel edge to air outlet from the second segment close to one end of through-flow is included, from the described 4th Extend to described air outlet one end close to described air outlet one end the 5th section of section.

5. cabinet air-conditioner according to claim 2, which is characterized in that the cabinet air-conditioner further includes heat-exchanging component, described Heat-exchanging component is arranged between the cross flow fan and the back casing；The outlet air end of the heat-exchanging component and the through-flow air duct Air inlet port between the setting of non-face.

6. cabinet air-conditioner according to claim 5, which is characterized in that the heat-exchanging component is across described two cross flow fans Setting.

7. cabinet air-conditioner according to claim 6, which is characterized in that the heat-exchanging component includes heat exchanger and is mounted on institute State the heater on heat exchanger close to the air outlet side.

8. cabinet air-conditioner according to claim 5, which is characterized in that the outlet air end of the heat-exchanging component and the through-flow wind The air inlet port in road is respectively facing the partition setting.

9. cabinet air-conditioner according to claim 2, which is characterized in that it further include about two air deflection assemblies, described two A air deflection assemblies up and down are separately mounted in the volute tongue of two cross flow fans；Described two air deflection assemblies up and down are matched respectively It is set to by two independent first motor drivings.

10. cabinet air-conditioner according to claim 9, which is characterized in that it further include two or so air deflection assemblies, described two A or so air deflection assemblies are separately mounted at the outlet port in two through-flow air ducts；Described two air deflection assemblies difference up and down It is configured as by two independent second motor drivens.