CN206478749U - Cabinet air-conditioner and air conditioner - Google Patents

Abstract

The utility model discloses a kind of cabinet air-conditioner and air conditioner, wherein, cabinet air-conditioner includes being formed with an at least air channel in housing, the housing；Positive air exhausting structure, with the positive air outlet connected with an air channel；And top air-out structure, top air-out structure is located at the upper end of housing, and top air-out structure includes：Top air-out shell, is connected with air channel；Top air-out inner casing, top air-out inner casing is provided with ejection air port, and top air-out inner shell sections are placed in top air-out shell, and ejection air port manifests top air-out shell；And first rotational structure, driving ejection air port is swung up and down, and position sensor, it is connected with controller, makes the user that controller is detected according to the position sensor relative to the positive air outlet of distance controlling of cabinet air-conditioner and/or eject the unlatching in air port, close, and/or swing technical solutions of the utility model according to temperature in the distance between user and cabinet air-conditioner quick regulation room.

Description

Cabinet air-conditioner and air conditioner

Technical field

The utility model is related to air-conditioning device technical field, more particularly to a kind of cabinet air-conditioner and air conditioner.

Background technology

As the improvement of people's living standards, requirement more and more higher of the people to air conditioner.Existing cabinet air-conditioner, typically Set an air outlet, wind deflector is set in the air outlet, adjusted by swinging up and down wind deflector above and below air-out direction. However, the wind after heat exchange via air outlet when going out to blow out, only adjust air-out direction by grille strip, the wind-out range of adjustment compared with It is small, wind between two wind deflectors can not all via the direction for being directed to needs of wind deflector, for example, between two wind deflectors, There are still the gap passed through for the wind after heat exchange, the wind after heat exchange is blown out via the gap level, thus indoor from air-conditioning cabinet Be capable of the cooling or heating of fast speed in the air outlet close range of machine, the indoor air outlet from cabinet air-conditioner farther out in the range of The speed of cooling or heating is very slow.Also, existing air conditioner, it is impossible to according to the distance between user and cabinet air-conditioner, to enter The distance of row intelligent control air-out, it is impossible to meet the demand of temperature in quick regulation room.

Utility model content

Main purpose of the present utility model is to provide a kind of cabinet air-conditioner, it is intended to according between user and cabinet air-conditioner away from From temperature in quick regulation room.

To achieve the above object, the utility model proposes cabinet air-conditioner, including：

An at least air channel is formed with housing, the housing；

Positive air exhausting structure, the positive air exhausting structure is located at the housing, and with the positive air outlet connected with air channel described in one； And

Top air-out structure, the top air-out structure is located at the upper end of the housing, and the top air-out structure includes：

Top air-out shell, the top air-out shell is connected with the air channel；

Top air-out inner casing, the top air-out inner casing is provided with the ejection air port connected with the air channel, the top air-out inner shell sections The top air-out shell is placed in, the ejection air port manifests the top air-out shell；First rotational structure, first rotation Structure is connected with the top air-out inner casing, drives the top air-out inner casing to be rotated relative to the top air-out shell, to drive Ejection air port is stated to swing up and down；And position sensor, it is connected with the controller of the cabinet air-conditioner, makes controller according to described The user that position sensor is detected is relative to the positive air outlet of distance controlling of cabinet air-conditioner and/or unlatching, the pass in ejection air port Close, and/or swing.

Alternatively, the position sensor is infrared sensor and/or sonic sensor.

Alternatively, the position sensor closes on the positive air outlet and set.

Alternatively, the position sensor closes on the ejection air port and set.

Alternatively, side plate of the top air-out inner casing including top cover, the lower surface for being connected to the top cover, the side plate ring The top cover is around in, is enclosed with the top cover and sets to form appearance wind chamber, the outer surface of the side plate and the inwall of the top air-out shell Abut, the ejection air port is opened in the side plate.

Alternatively, the side plate has spherical structure.

Alternatively, the top air-out structure also includes the deep bead in the top air-out inner casing, deep bead connection There is the second rotational structure, second rotational structure drives deep bead the rotating in a circumferential direction along the top air-out inner casing, by institute State the closure of ejection air port or open.

Alternatively, the lower end of the top air-out shell is provided with the 3rd rotational structure, and the 3rd rotational structure drives institute State top air-out shell rotating in a circumferential direction along the housing.

Alternatively, the positive air exhausting structure includes positive outlet frame, and the positive outlet frame has the positive air outlet, the housing Provided with the resigning mouthful coordinated with the positive air outlet, the positive outlet frame is connected with the 4th rotational structure, and the 4th rotational structure drives The dynamic positive outlet frame rotation, makes the positive air outlet just to the resigning mouth or is hidden in the housing.

Alternatively, an air channel is formed with the housing, positive air exhausting structure and the top air-out structure is located in same air channel.

The utility model also proposes a kind of air conditioner, including cabinet air-conditioner and the outdoor unit that is connected with the cabinet air-conditioner, The cabinet air-conditioner includes：An at least air channel is formed with housing, the housing；

Position sensor, the position sensor is connected with the controller of the cabinet air-conditioner, and user is relative to air-conditioning for detection The distance of cabinet-type air conditioner；

Positive air exhausting structure, the positive air exhausting structure is located at the housing, and with the positive air outlet connected with air channel described in one； And

Top air-out structure, the top air-out structure is located at the upper end of the housing, and the top air-out structure includes：

Top air-out shell, the top air-out shell is connected with the air channel；

Top air-out inner casing, the top air-out inner casing holds provided with ejection air port, the top air-out inner shell sections are connected with the air channel The top air-out shell is placed in, the ejection air port manifests the top air-out shell；And

First rotational structure, first rotational structure is connected with the top air-out inner casing, drives shell phase in the top air-out Rotated for the top air-out shell, to drive the ejection air port to swing up and down；And position sensor, with the air-conditioning cabinet The controller connection of machine, distance controlling of the user relative to cabinet air-conditioner for making controller be detected according to the position sensor Positive air outlet and/or the unlatching, closing, and/or swing for ejecting air port.

Technical solutions of the utility model detect that user, relative to the distance of cabinet air-conditioner, then passes through by position sensor Positive air exhausting structure and top air-out structure are adjusted the distance of air-out so that the air-out distance of cabinet air-conditioner, which can be met, intelligently to be adjusted Save the temperature of family present position so that the cabinet air-conditioner can realize the effect of intelligent control air-out.First pass through position sensor Detect that user, relative to the distance value L of cabinet air-conditioner, is then preset the distance value with first by the controller of cabinet air-conditioner Distance value L₁With the second pre-determined distance value L₂It is compared.It is understood that the first pre-determined distance value L₁It is default less than second Distance value L₂。

As L≤L₁When, illustrate that user is nearer from the position of cabinet air-conditioner, positive air exhausting structure is located substantially in cabinet air-conditioner Portion, its air output is larger, but air-out is closer to the distance, therefore controls positive air exhausting structure to open, and trip temperature is entered by positive air exhausting structure Regulation so that the temperature in the region residing for user can be by quick regulation.

Work as L₁＜ L ＜ L₂When, illustrate that user is moderate from the position of cabinet air-conditioner, only can not quickly be entered by positive air exhausting structure Trip temperature is adjusted, therefore, is controlled positive air exhausting structure and top air-out structure to open and is carried out temperature adjustment.Eject air port and be located at air-conditioning cabinet The upper end of machine, by the first rotational structure rotation ejection air port, makes ejection air port swing downwards, the air after heat exchange is via ejection Air port can all be blown to the obliquely downward of cabinet air-conditioner, and trip temperature is entered jointly thus by positive air exhausting structure and top air-out structure Regulation, may be such that the temperature in the region residing for user can be by quick regulation.

As L >=L₂When, illustrate user from cabinet air-conditioner position farther out, therefore control positive air exhausting structure and top air-out structure Open, by the first rotational structure rotation ejection air port, be swung up ejection air port, the air after heat exchange is via ejection air port It can decline after the oblique upper of cabinet air-conditioner, air flow stretch journey can be all blown to so that the room away from ejection air port Interior temperature also can be by quick regulation.And then, temperature adjustment is carried out by positive air exhausting structure and top air-out structure jointly so that user The temperature in residing region can be by quick regulation.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art Or the accompanying drawing used required in description of the prior art is briefly described, it should be apparent that, drawings in the following description are only It is some embodiments of the present utility model, for those of ordinary skill in the art, is not paying the premise of creative work Under, other accompanying drawings can also be obtained according to the structure shown in these accompanying drawings.

Fig. 1 is the structural representation of the embodiment of top air-out structure one of the utility model cabinet air-conditioner；

Fig. 2 is the decomposition texture schematic diagram of the embodiment of top air-out structure one of cabinet air-conditioner in Fig. 1；

Fig. 3 is the front view of the embodiment of top air-out structure one of the utility model cabinet air-conditioner；

Fig. 4 be Fig. 3 in cabinet air-conditioner A-A to sectional view；

Fig. 5 is the structural representation of the embodiment of the utility model cabinet air-conditioner one；

Fig. 6 is the sectional view of cabinet air-conditioner B-B direction in Fig. 5；

Fig. 7 is the flow chart of the embodiment of air-out control method one of the utility model air conditioner.

Drawing reference numeral explanation：

Realization, functional characteristics and the advantage of the utility model purpose will be described further referring to the drawings in conjunction with the embodiments.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the present utility model, rather than all Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making creative work premise Lower obtained every other embodiment, belongs to the scope of the utility model protection.

It is to be appreciated that institute is directional in the utility model embodiment indicates (such as up, down, left, right, before and after ...) Relative position relation, motion conditions for being only used for explaining under a certain particular pose (as shown in drawings) between each part etc., such as When really the particular pose changes, then directionality indicates also correspondingly therewith to change.

In the utility model, unless otherwise clearly defined and limited, term " connection ", " fixation " etc. should do broad sense reason Solution, for example, " fixation " can be fixedly connected or be detachably connected, or integrally；Can mechanically connect, also may be used Be electrical connection；Can be joined directly together, can also be indirectly connected to by intermediary, can be the connection of two element internals Or the interaction relationship of two elements, unless otherwise clear and definite restriction.For the ordinary skill in the art, can be with Concrete meaning of the above-mentioned term in the utility model is understood as the case may be.

In addition, and can not be managed in the utility model such as relating to the description of " first ", " second " etc. is only used for describing purpose Solve to indicate or imply its relative importance or the implicit quantity for indicating indicated technical characteristic.Thus, define " the One ", at least one this feature can be expressed or be implicitly included to the feature of " second ".In addition, the skill between each embodiment Art scheme can be combined with each other, but must can be implemented as basis with those of ordinary skill in the art, when technical scheme With reference to occur it is conflicting or when can not realize it will be understood that the combination of this technical scheme is not present, also not in the utility model It is required that protection domain within.

The utility model proposes a kind of cabinet air-conditioner 100.

Referring to figs. 1 to 6, in the utility model embodiment, the top air-out structure 10 includes：

An at least air channel 31 is formed with housing 30, the housing 30；

The air channel 31 is mainly formed in the inside of housing 30, and extraneous air is entered in air channel 31 via air inlet 33, by Blower fan 70 drives, and is exchanged heat by heat exchanger 90, general, air inlet 33, heat exchanger 90, blower fan 70 are arranged successively from the bottom to top Row, heat exchanger 90 is fixed in housing 30 by fixed mount, and the lower end of heat exchanger 90 is provided with drip tray, cold for receiving Solidifying water, the general drip tray is in the form of annular discs to be set.

Positive air exhausting structure 50, the positive air exhausting structure 50 is located at the housing 30, and has what is connected with air channel described in one 31 Positive air outlet 51；And

Top air-out structure 10, the top air-out structure 10 is located at the upper end of the housing 30, and the top air-out structure 10 includes：

Top air-out shell 11, the top air-out shell 11 is connected with the air channel 31；

Top air-out inner casing 13, the top air-out inner casing 13, which is provided with, to be connected with the air channel 31 in ejection air port 13a, the top air-out The lower end of shell 13 is placed in the top air-out shell 11, and the ejection air port 13a manifests the top air-out shell 11；And

First rotational structure 15, first rotational structure 15 is connected with the top air-out inner casing 13, drives the top air-out Inner casing 13 is rotated relative to the top air-out shell 11, to drive the ejection air port 13a to swing up and down, and

Position sensor, is connected with the controller of the cabinet air-conditioner 100, controller is examined according to the position sensor The user measured is relative to the positive air outlet of distance controlling of cabinet air-conditioner 100 and/or unlatching, closing, and/or the pendulum in ejection air port It is dynamic.

Technical solutions of the utility model detect distance of the user relative to cabinet air-conditioner 100 by position sensor, then The distance of air-out is adjusted by positive air exhausting structure 50 and top air-out structure 10 so that the air-out distance of cabinet air-conditioner 100 The temperature of Intelligent adjustment user present position can be met so that the cabinet air-conditioner 100 can realize the effect of intelligent control air-out.First Detect that user, relative to the distance value L of cabinet air-conditioner 100, then passes through the controller of cabinet air-conditioner 100 by position sensor The distance value is compared with the first pre-determined distance value L1 and the second pre-determined distance value L2.It is understood that this is first pre- If distance value L1 is less than the second pre-determined distance value L2.

As L≤L₁When, illustrate that user is nearer from the position of cabinet air-conditioner 100, positive air exhausting structure 50 is located substantially at air-conditioning cabinet The middle part of machine 100, its air output is larger, but air-out is closer to the distance, therefore controls positive air exhausting structure 50 to open, and passes through positive air-out knot Structure 50 carries out temperature adjustment so that the temperature in the region residing for user can be by quick regulation.

Work as L₁＜ L ＜ L₂When, illustrate that user is moderate from the position of cabinet air-conditioner 100, only can not be fast by positive air exhausting structure 50 Speed carries out temperature adjustment, therefore, controls positive air exhausting structure 50 and top air-out structure 10 to open and carries out temperature adjustment.Eject air port 13a is located at the upper end of cabinet air-conditioner 100, by the first rotational structure rotation ejection air port 13a, makes ejection air port 13a to the bottom Dynamic, the air after heat exchange can all be blown to the obliquely downward of cabinet air-conditioner 100 via ejection air port 13a, thus by just going out Wind structure 50 and top air-out structure 10 carry out temperature adjustment jointly, may be such that the temperature in the region residing for user can be by fast velocity modulation Section.

As L >=L₂When, illustrate user from cabinet air-conditioner 100 position farther out, therefore control positive air exhausting structure 50 and ejection Wind structure 10 is opened, and by the first rotational structure rotation ejection air port 13a, is swung up ejection air port 13a, cold after heat exchange Air can be all blown to after the oblique upper of cabinet air-conditioner 100, air flow stretch journey under meeting via ejection air port 13a Drop so that the indoor temperature away from ejection air port 13a also can be by quick regulation.And then, pass through positive air exhausting structure 50 and top air-out Structure 10 carries out temperature adjustment jointly so that the temperature in the region residing for user can be by quick regulation.

An air channel 31, positive air exhausting structure 50 and 10, top air-out structure are formed with the housing 30 of this cabinet air-conditioner 100 In in same air channel 31, accordingly, blower fan 70 is also equipped with one, e.g., and the upper and lower ends of positive air exhausting structure 50 are communicated with wind The openings (not indicating) in road 31, extraneous air is entered by air inlet 33, driven via blower fan 70, by heat exchanger it is after 90s via The openings of lower end are entered in positive air exhausting structure 50, can be blown out via the positive air outlet 51 of the positive air exhausting structure 50.Meanwhile, Air after heat exchange via the openings of the positive upper end of air exhausting structure 50 to top air-out structure 10, can be via top air-out structure 10 Ejection air port 13a blowout.In the case of an air channel 31, the overall structure of this cabinet air-conditioner 100 is simple, compact, and Cost is relatively low.Certainly, in other embodiment, the positive air exhausting structure 50 and top air-out structure 10 can be located at different air channels 31, Two air channels 31 can be formed with housing 30, positive air exhausting structure 50 is connected with a wherein air channel 31, top air-out structure 10 and another wind Road 31 is connected, and in the case of being two in air channel 31, one or two can be set in the blower fan 70 of this cabinet air-conditioner 100, you can with Air flow in two air channels 31 is driven by a blower fan 70 simultaneously, each one blower fan of correspondence of air channel 31 is can also be 70.In the case of two air channels 31, positive air outlet 51 and ejection air port 13a air output are easy to control with wind velocity is gone out, then The air handling capacity of cabinet air-conditioner 100 is stronger.

Technical solutions of the utility model are by using double air exhausting structures so that cabinet air-conditioner 100 has a variety of air-out modes, Air-out mode can be selected according to indoor temperature and area.Positive air exhausting structure 50 is located substantially at the middle part of housing 30, positive air-out knot Structure 50 has positive air outlet 51, and the area of the positive air outlet 51 is more than ejection air port 13a area.Therefore, positive air exhausting structure 50 Air-out ability it is stronger.Can be by adjusting the opening and closing of positive air exhausting structure 50 and top air-out structure 10, and then one can be entered Step realizes the purpose of air themperature in quick regulation room.

And it is possible to which housing 30 is arranged into cylindrical shape, the housing 30 includes cylindrical sidewall and located at the cylindrical sidewall The bottom wall of lower end, the cylindrical sidewall is typically made up of the fore shell and rear shell being detachably connected, and the cross section of the fore shell and rear shell is in Semicircle shape is set.The lower end of the cylindrical sidewall offers the air inlet 33 connected with the air channel 31.First, outside air warp By the air inlet 33 in the air channel 31 when because the setting of cylindrical shell 30 can reduce windage, enable air to smoothly enter Exchanged heat in air channel 31.General, the formation in the air channel 31 in housing 30 depends on the internal chamber wall of housing 30, and the housing 30 is in Cylindrical shape is set, the windage reduction in the air channel 31 formed it into, thus, may be such that the heat exchange efficiency lifting of cabinet air-conditioner 100.

In the present embodiment, the position sensor is infrared sensor and/or sonic sensor.That is, can be independent The detection of customer location is carried out by infrared sensor or sonic sensor, the two combination can also be carried out to the detection of position.

Further, the position sensor closes on the positive air outlet 51 and set.Positive air outlet 51 is air-out direction, one As towards air-out region.The position sensor closes on positive air outlet 51, facilitates position sensor to detect position of human body.

It is, of course, also possible to be set to：The position sensor closes on the ejection air port 13a and set.Eject air port 13a institutes The position at place is higher so that the position of the convenient detection user of the position sensor.

Referring to figs. 1 to Fig. 4, in the present embodiment, the top air-out inner casing 13 includes top cover 131, is connected to the top cover The side plate 133 of 131 lower surface, the side plate 133 is surrounded on the top cover 131, is enclosed with the top cover 131 and sets to form appearance wind chamber 13b, the outer surface of the side plate 133 is abutted with the inwall of the top air-out shell 11, and the ejection air port 13a is opened in described Side plate 133.The top cover 131 rounded can be set, a circular cover plate formation top cover 131, and then the periphery of top cover 131 is downward again Projection side plate 133, side plate 133 encloses with top cover 131 sets the wind heat exchange to be formed in an appearance wind chamber 13b, cabinet air-conditioner 100 in air channel 31 After first flow into appearance wind chamber 13b, then, from appearance wind chamber 13b outflows.The side plate 133 may include first be detachably connected The junction of the side plate 133 of side plate 133 and second, the first side plate 133 and the second side plate 133 is by snapping connection, then the first side The upper side edge of the side plate 133 of plate 133 and second snaps connection and/or is spirally connected with top cover 131 and/or bonds.Certainly, the side plate 133 Or integral structure, side plate 133 and the integrated injection molding of top cover 131.

Further, the side plate 133 has spherical structure.Side plate 133 is spherical so that what whole side plate 133 was surrounded A part substantially spherical in shape, substantially can be spherical middle part.By the way that side plate 133 is set into sphere, when the first rotation knot Structure 15 rotates top air-out inner casing about 13 during elevating movement, and the inwall that side plate 133 can be all the time with top air-out shell 11 is abutted, and prevents Air after only exchanging heat flows out via the junction of top air-out inner casing 13 and top air-out shell 11.Meanwhile, side plate 133 is set it is in Sphere, can also reduce windage, so as to reduce noise.The junction of the top air-out shell 11 and top air-out inner casing 13 can also be set Sealing ring (not shown), the sealing ring can be made up of sponge or foamed plastics, prevent air via flowing out herein.

Reference picture 2 is to Fig. 4, and in the present embodiment, the relative both sides of the top air-out shell 11 open up rotating shaft 1331 Or one of shaft hole 111, the relative both sides of the top air-out inner casing 13 open up rotating shaft 1331 or shaft hole 111 Wherein another, the rotating shaft 1331 is rotatably assorted with the shaft hole 111, and first rotational structure 15 drives the top air-out Axis direction of the inner casing 13 along the rotating shaft 1331 is rotated.

In this way, with the line formation pivot center direction of the relative rotating shaft 1331 or the center of shaft hole 111, first Rotational structure driving top air-out inner casing 13 is rotated along the pivot center direction.Rotating shaft 1331 can be arranged on top air-out inner casing 13, Shaft hole 111 is arranged on to the upper side edge of top air-out shell 11, rotating shaft 1331 is installed on after the shaft hole 111, passes through one The pressing plate of annular is pressed in the upper side edge of top air-out shell 11, prevents the vibration of rotating shaft 1331.It is understood that in order to rotating shaft 1331 adaptations, the annular pressing plate also is provided with the rotation slot coordinated with rotating shaft 1331.

Reference picture 4, in an embodiment of the present utility model, first rotational structure 15 includes the first motor 151, peace Shelve 153, first gear 155 and second gear 157；

The inwall of the top air-out shell 11 is fixed in one end of the mounting bracket 153, and the other end stretches to the appearance wind In chamber 13b；

First motor 151 is installed on the mounting bracket 153, and in the appearance wind chamber 13b；

The first gear 155 is fixedly connected with the power transmission shaft of first motor 151, the second gear 157 and institute The inwall connection of top air-out inner casing 13 is stated, the first gear 155 is engaged with the second gear 157, the second gear 157 Pivot center overlapped with the pivot center of the rotating shaft 1331；

First motor 151 drives the first gear 155, drives the second gear 157 to rotate, second tooth Wheel 157 drives the top air-out inner casing 13 to be rotated along the rotating shaft 1331.

That is, driving first gear 155 by the first motor 151, second gear 157 is driven so that top air-out inner casing 13 Rotated relative to top air-out shell 11.It is, of course, understood that tooth can also be driven using the drive gear of the first motor 151 Circle, so as to drive top air-out inner casing 13 to be rotated relative to top air-out shell 11.

Referring to figs. 1 to Fig. 4, in the present embodiment, the ejection air port 13a is bordered by the top cover 131 and set.By that will push up Air outlet 13a is bordered by setting, it is possible to increase the angle that ejection air port 13a is swung up and down.Top cover 131 is adjacent with ejection air port 13a Part forms air dam, it is possible to reduce turbulent air flow, increases the transmitting range of air-flow.

Further, ejection air port 13a is additionally provided with horizontal wind deflector, and the horizontal wind deflector connects ejection air port 13a Both sides, and in above-below direction swing, with it is further adjustment eject air port 13a air outlet angle.Pass through the second horizontal wind deflector Setting, it is possible to achieve ejection air port 13a above-below direction to sweep wind angle bigger.

Ejection air port 13a is additionally provided with longitudinal stator, longitudinal stator and horizontal wind deflector formation air outlet grate.By vertical To the setting of stator, the left and right directions that ejection air port 13a can be achieved sweeps wind, and the present embodiment passes through horizontal wind deflector and longitudinal stator Cooperation so that top air-out structure 10 have a variety of air-out modes, adapt to room air regulation a variety of demands.

Reference picture 4, in the present embodiment, the top air-out structure 10 also include the gear in the top air-out inner casing 13 Aerofoil 135, the deep bead 135 is connected with the second rotational structure 137, and second rotational structure 137 drives the deep bead 135 Along rotating in a circumferential direction for the top air-out inner casing 13, the ejection air port 13a is blocked or opened.

By the deep bead 135, by ejection air port 13a closure or it can open, top cover 131 is bordered by ejecting air port 13a's Lower surface is convexly equipped with boss 1311, and the boss 1311 has guiding incline, and by the guiding incline, the deep bead 135, which is correspondingly provided with, leads Draw face.Pass through the setting of guiding incline and guiding face so that the deep bead 135 is supported during rotation with side plate 133 Connect, and cause deep bead 135 can not open or block ejection air port 13a.

Second rotational structure 137 includes installing crossbeam 1371, the second motor 1373 and connecting rod 1375, second motor 1373 are installed on installation crossbeam 1371, the rotating in a circumferential direction along top air-out structure 10 of the power transmission shaft of the second motor 1373, connecting rod 1375 one end is connected with the power transmission shaft of the second motor 1373, and the other end is connected to deep bead 135, the transmission of the second motor 1373 Axle drives connecting rod 1375, drives the rotating in a circumferential direction along top air-out structure 10 of deep bead 135, to block or open ejection air port 13a。

The connecting rod 1375 can be one, or multiple.The connecting rod 1375 of multiple settings so that deep bead 135 with Transmission between the power transmission shaft of second electrode is more stablized.Further one is set to rotate in the center of the lower surface of top cover 131 Mating groove, a bearing is installed in the groove that is rotatably assorted, and the end sleeve of the power transmission shaft of the second motor 1373 is accessed in the bearing, So that the rotation of the second motor 1373 is more stablized.

Reference picture 4, in the present embodiment, the lower end of the top air-out shell 11 are provided with the 3rd rotational structure 17, described 3rd rotational structure 17 drives the rotating in a circumferential direction along the housing 30 of top air-out shell 11.

3rd rotational structure 17 can be the rotation of motor driven gear gear ring, or motor transmission shaft is installed in top cover 131 lower end, drives this top air-out structure 10 to rotate by the rotation of motor transmission shaft.

By rotating top air-out structure 10, top air-out structure 10 can be adjusted in the air outlet angle in circumference, it is further real The purpose of air themperature in existing quick regulation room.

Further, positive air exhausting structure 50 includes positive outlet frame (not indicating), and the positive outlet frame has positive air outlet 51, shell Body 30 is provided with the resigning mouthful (not indicating) coordinated with positive air outlet 51, and the positive outlet frame, which is connected with the 4th rotational structure, (does not scheme Show), the 4th rotational structure drives positive outlet frame rotation, makes positive air outlet 51 just to resigning mouth or is hidden in housing 30.

It is understood that the structure setting of the 4th rotational structure can be similar to the 3rd rotational structure 17, do not do herein Repeat.

The positive outlet frame is arranged in housing 30, is driven and rotated by the 4th rotational structure, when needing positive air-out, is only needed The positive outlet frame is driven, makes its positive air outlet 51 just to resigning mouth, extraneous air enters via air inlet structure, has blower fan 70 to drive Heat exchanger 90 into air channel 31 exchanges heat, and is then blown out via positive air outlet 51 and resigning mouth.When needing to close positive air-out, lead to Cross the 4th rotational structure and drive positive outlet frame rotation, positive air outlet 51 is in the state being not turned on resigning mouth, you can to make pass Close the positive air exhausting structure 50.

The utility model also proposes a kind of air conditioner (not shown), including cabinet air-conditioner 100 and connects with the cabinet air-conditioner 100 The outdoor unit connect, because this air conditioner employs whole technical schemes of above-mentioned all embodiments, therefore at least has above-mentioned reality All beneficial effects that the technical scheme of example is brought are applied, this is no longer going to repeat them.

With reference to reference picture 7, the utility model also provides a kind of air-out control method of air conditioner, including：

Step S10：Position sensor detects distance value L of the user relative to cabinet air-conditioner 100；

Step S20：The controller of cabinet air-conditioner 100 is by the distance value and the first pre-determined distance value L1 and the second pre-determined distance Value L2 is compared, wherein L₁＜ L₂；

Step S21：As L≤L₁When, control positive air exhausting structure 50 to open, temperature adjustment is carried out by positive air exhausting structure 50；

Step S22：Work as L₁＜ L ＜ L₂When, control positive air exhausting structure 50 and top air-out structure 10 to open, and pass through the first rotation The rotation ejection air port 13a of rotation structure 15, makes ejection air port 13a to lower swing, passes through positive air exhausting structure 50 and top air-out structure 10 It is common to carry out temperature adjustment；

Step S23：As L >=L₂When, control positive air exhausting structure 50 and top air-out structure 10 to open, pass through the first rotational structure 15 rotation ejection air port 13a, are swung up ejection air port 13a, are entered jointly by positive air exhausting structure 50 and top air-out structure 10 Trip temperature is adjusted.

Technical solutions of the utility model detect distance of the user relative to cabinet air-conditioner 100 by position sensor, then The distance of air-out is adjusted by positive air exhausting structure 50 and top air-out structure 10 so that the air-out distance of cabinet air-conditioner 100 The temperature of Intelligent adjustment user present position can be met so that the cabinet air-conditioner 100 can realize the effect of intelligent control air-out.First Detect that user, relative to the distance value L of cabinet air-conditioner 100, then passes through the controller of cabinet air-conditioner 100 by position sensor The distance value is compared with the first pre-determined distance value L1 and the second pre-determined distance value L2.It is understood that this is first pre- If distance value L1 is less than the second pre-determined distance value L2.

As L≤L₁When, illustrate that user is nearer from the position of cabinet air-conditioner 100, positive air exhausting structure 50 is located substantially at air-conditioning cabinet The middle part of machine 100, its air output is larger, but air-out is closer to the distance, therefore controls positive air exhausting structure 50 to open, and passes through positive air-out knot Structure 50 carries out temperature adjustment so that the temperature in the region residing for user can be by quick regulation.

Work as L₁＜ L ＜ L₂When, illustrate that user is moderate from the position of cabinet air-conditioner 100, only can not be fast by positive air exhausting structure 50 Speed carries out temperature adjustment, therefore, controls positive air exhausting structure 50 and top air-out structure 10 to open and carries out temperature adjustment.Eject air port 13a is located at the upper end of cabinet air-conditioner 100, by the first rotational structure 15 rotation ejection air port 13a, makes ejection air port 13a downward Swing, the air after heat exchange can all be blown to the obliquely downward of cabinet air-conditioner 100 via ejection air port 13a, thus by just Air exhausting structure 50 and top air-out structure 10 carry out temperature adjustment jointly, may be such that the temperature in the region residing for user can be quick Regulation.

As L >=L₂When, illustrate user from cabinet air-conditioner 100 position farther out, therefore control positive air exhausting structure 50 and ejection Wind structure 10 is opened, and by the first rotational structure 15 rotation ejection air port 13a, is swung up ejection air port 13a, after heat exchange Cold air can be all blown to after the oblique upper of cabinet air-conditioner 100, air flow stretch journey under meeting via ejection air port 13a Drop so that the indoor temperature away from ejection air port 13a also can be by quick regulation.And then, pass through positive air exhausting structure 50 and top air-out Structure 10 carries out temperature adjustment jointly so that the temperature in the region residing for user can be by quick regulation.

Further, the first pre-determined distance value L₁Meet：3m≤L₁≤ 5m, the second pre-determined distance value L₂Meet： 7m≤L₂≤10m。

It is understood that the first pre-determined distance value L₁With the second pre-determined distance value L₂It can be carried out according to indoor size The adjustment of adaptability.

Preferred embodiment of the present utility model is the foregoing is only, the scope of the claims of the present utility model is not thereby limited, It is every utility model of the present utility model design under, the equivalent structure made using the utility model specification and accompanying drawing content Conversion, or directly/be used in other related technical fields indirectly and be included in scope of patent protection of the present utility model.

Claims (11)

1. a kind of cabinet air-conditioner, it is characterised in that including：

An at least air channel is formed with housing, the housing；

Positive air exhausting structure, the positive air exhausting structure is located at the housing, and with the positive air outlet connected with air channel described in one；And

Top air-out structure, the top air-out structure is located at the upper end of the housing, and the top air-out structure includes：

Top air-out shell, the top air-out shell is connected with the air channel；

Top air-out inner casing, the top air-out inner casing is provided with the ejection air port connected with the air channel, and the top air-out inner shell sections are housed In the top air-out shell, the ejection air port manifests the top air-out shell；

First rotational structure, first rotational structure is connected with the top air-out inner casing, drive the top air-out inner casing relative to The top air-out shell is rotated, to drive the ejection air port to swing up and down；And

Position sensor, is connected with the controller of the cabinet air-conditioner, makes what controller was detected according to the position sensor User is relative to the positive air outlet of distance controlling of cabinet air-conditioner and/or unlatching, closing, and/or the swing in ejection air port.

2. cabinet air-conditioner as claimed in claim 1, it is characterised in that the position sensor is infrared sensor and/or sound Wave sensor.

3. cabinet air-conditioner as claimed in claim 1, it is characterised in that the position sensor closes on the positive air outlet and set Put.

4. cabinet air-conditioner as claimed in claim 1, it is characterised in that the position sensor closes on the ejection air port and set Put.

5. cabinet air-conditioner as claimed in claim 1, it is characterised in that the top air-out inner casing include top cover, be connected to it is described The side plate of the lower surface of top cover, the side plate is surrounded on the top cover, is enclosed with the top cover and sets to form appearance wind chamber, the side plate Outer surface is abutted with the inwall of the top air-out shell, and the ejection air port is opened in the side plate.

6. cabinet air-conditioner as claimed in claim 5, it is characterised in that the side plate has spherical structure.

7. cabinet air-conditioner as claimed in claim 5, it is characterised in that the top air-out structure also includes being located at the top air-out Deep bead in inner casing, the deep bead is connected with the second rotational structure, and second rotational structure drives the deep bead along institute Rotating in a circumferential direction for top air-out inner casing is stated, the ejection air port is blocked or opened.

8. cabinet air-conditioner as claimed in claim 1, it is characterised in that the lower end of the top air-out shell is provided with the 3rd rotation Structure, the 3rd rotational structure drives top air-out shell the rotating in a circumferential direction along the housing.

9. cabinet air-conditioner as claimed in claim 1, it is characterised in that the positive air exhausting structure includes positive outlet frame, and this just goes out Wind frame has the positive air outlet, and the housing is provided with the resigning mouthful coordinated with the positive air outlet, and the positive outlet frame is connected with 4th rotational structure, the 4th rotational structure driving positive outlet frame rotation, makes the positive air outlet just to the resigning mouth Or be hidden in the housing.

10. cabinet air-conditioner as claimed in claim 1 a, it is characterised in that air channel is formed with the housing, the positive air exhausting structure It is located at top air-out structure in same air channel.

11. a kind of air conditioner, it is characterised in that including the cabinet air-conditioner as described in any in claim 1 to 10, and with this The outdoor unit of cabinet air-conditioner connection.