CN106766066A - The air-out control method of top air-out structure, cabinet air-conditioner, air-conditioner and air-conditioner - Google Patents

Abstract

The present invention discloses the air-out control method of a kind of top air-out structure, cabinet air-conditioner, air-conditioner and air-conditioner, wherein, top air-out structure includes top air-out shell, the top air-out shell includes the first housing and the second housing, first housing and the second housing are detachably connected, and enclose and set to form accommodation space, the accommodation space is connected with the air channel of the cabinet air-conditioner；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 placed in the accommodation space, and 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 the top air-out inner casing to be rotated relative to the top air-out shell, to drive the ejection air port to swing up and down.Technical solution of the present invention can temperature in quick regulation room, while facilitating the assembling of top air-out structure.

Description

The air-out control method of top air-out structure, cabinet air-conditioner, air-conditioner and air-conditioner

Technical field

The present invention relates to air-conditioning device technical field, more particularly to a kind of top air-out structure, cabinet air-conditioner, air-conditioner and The air-out control method of air-conditioner.

Background technology

With the improvement of people ' s living standards, requirement more and more higher of the people to air-conditioner.Existing cabinet air-conditioner, typically One air outlet is set, wind deflector is set in the air outlet, the direction of upper and lower air-out is adjusted by swinging up and down wind deflector. 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 cannot all via the direction for being directed to needs of wind deflector, for example, between two wind deflectors, The gap passed through for the wind after heat exchange is still present, the wind after heat exchange blows out via the gap level, thus interior is from air-conditioning cabinet Be capable of the cooling or intensification 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 Cooling or the speed for heating up are very slow, it is impossible to meet the use demand of temperature in quick regulation room.Meanwhile, the shell of top air-out structure Generally integrated injection molding, however, because inner casing is needed relative to shell rotation, therefore, shell integrated molding is not easy to By inner casing assembling in shell.

The content of the invention

The main object of the present invention is to provide a kind of top air-out structure, it is intended to temperature in quick regulation room, while convenient top The assembling of air exhausting structure.

To achieve the above object, top air-out structure proposed by the present invention, is installed on the upper end of cabinet air-conditioner, the top air-out knot Structure includes：

Top air-out shell, the top air-out shell includes the first housing and the second housing, first housing and the second housing It is detachably connected, and encloses and set to form accommodation space, the accommodation space is connected with the air channel of the cabinet air-conditioner；

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 accommodation space 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.

Alternatively, the two ends of first housing are equipped with buckle, and the two ends of second housing are equipped with catching groove, described Buckle is fastened on the catching groove.

Alternatively, the catching groove includes lead segment and the fastening that connect with the lead segment section, and the buckle is from the guiding Section insertion, slides into the fastening section and fastens.

Alternatively, the first housing two ends are equipped with the first installing plate, and the second housing two ends are equipped with the second peace Dress plate, the buckle is located at first installing plate, and the catching groove is located at second installing plate, and the buckle is fastened on described Catching groove, first installing plate is abutted with the surface of second installing plate.

Alternatively, every one end of first housing is equipped with the buckle at least two intervals, the end of second housing It is correspondingly provided with the catching groove at least two intervals.

Alternatively, the cross section of the cylindrical setting of top air-out shell, first housing and the second housing is in It is semicircle.

Alternatively, the top air-out shell is additionally provided with sealing ring with the junction of top air-out inner casing.

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 is set to form appearance wind chamber, the inwall of the outer surface of the side plate and the top air-out shell Abut, the ejection air port is opened in the side plate.

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.

The present invention also proposes a kind of cabinet air-conditioner, including：Housing, is formed with an at least air channel in 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； And

Top air-out structure, including top air-out shell, the top air-out shell, top air-out shell include the first housing and second Housing, first housing and the second housing are detachably connected, and enclose and set to form accommodation space, the accommodation space and the air-conditioning The air channel connection of cabinet-type air conditioner；

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 accommodation space 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.

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

The present invention also proposes a kind of air-conditioner, including cabinet air-conditioner and the outdoor unit that is connected with the cabinet air-conditioner, the sky Adjusting cabinet-type air conditioner includes：Housing, is formed with an at least air channel in 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；And top air-out structure, including top air-out shell, the top air-out shell, The top air-out shell includes the first housing and the second housing, and first housing and the second housing be detachably connected, and encloses and set shape Into accommodation space, the accommodation space is connected with the air channel of the cabinet air-conditioner；

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 accommodation space 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.

The present invention also provides a kind of air-out control method of air-conditioner, including：

The temperature of environment is detected for the first time；

When the temperature of environment is higher than predetermined threshold value, open the positive air outlet of positive air exhausting structure；

The temperature for detecting environment second, when the temperature of environment is higher than predetermined threshold value, opens ejection air port；

When environment temperature is in refrigeration mode higher than preset temperature range value, and air-conditioner, the rotation of the first rotational structure Top air-out structure, makes ejection air port swing upward；

When environment temperature is less than preset temperature range value, and air-conditioner in heating mode, the rotation of the first rotational structure Top air-out structure, makes ejection air port swing downward.

Technical solution of the present invention drives top air-out inner casing by the first rotational structure so that top air-out inner casing is outside top air-out Swung up and down in shell, drive top air-out opening's edge above-below direction to swing, and then enable ejection air port upward or lower section.When When air-conditioner is in refrigeration mode, the first rotational structure rotation top air-out inner casing is swung up ejection air port, cold after heat exchange Air can all be blown to the oblique upper of cabinet air-conditioner, because cold air is heavier, flow of cold air stretch via ejection air port Cheng Houhui declines because of gravity so that indoor away from ejection air port also can be by fast-refrigerating.When air-conditioner is in heating mode When, the first rotational structure rotation top air-out inner casing makes ejection air port swing downwards, and the hot-air after heat exchange is via ejection air port energy Enough obliquely downward for being all blown to cabinet air-conditioner, because hot-air is lighter, can rise after hot-air flowing stretch journey so that away from The interior in ejection air port also can quickly be heated.In this way, using the top air-out structure of this programme, by adjusting ejection air port, warp Default position can be flow to by the whole air quantity for ejecting air port, it is possible to achieve indoor fast-refrigerating or the effect for heating, Enable room air quick regulation to suitable temperature.

Meanwhile, top air-out shell is divided into dismountable first housing and the second housing, in assembling, first by top air-out The lower end of shell is placed between the first housing and the second housing, then, the first housing and the second housing is fixedly connected so that top The lower end of air-out inner casing is placed in the accommodation space that the first housing and second shell body are formed.In this way, can conveniently incite somebody to action Top air-out inner casing is assembled with top air-out shell.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing The accompanying drawing to be used needed for having technology description is briefly described, it should be apparent that, drawings in the following description are only this Some embodiments of invention, for those of ordinary skill in the art, on the premise of not paying creative work, can be with Structure according to these accompanying drawings obtains other accompanying drawings.

Fig. 1 is the structural representation of the embodiment of top air-out structure one of the present invention；

Fig. 2 is the decomposition texture schematic diagram of the embodiment of top air-out structure one of the present invention；

Fig. 3 is the decomposition texture schematic diagram of the embodiment of top air-out shell one of top air-out structure of the present invention；

Fig. 4 is the front view of the embodiment of top air-out structure one of the present invention；

Fig. 5 be Fig. 4 in top air-out structure A-A to sectional view；

Fig. 6 is the structural representation of the embodiment of cabinet air-conditioner of the present invention；

Fig. 7 is the sectional view of cabinet air-conditioner B-B direction in Fig. 6.

Drawing reference numeral explanation：

The realization of the object of the invention, functional characteristics and advantage will be described further referring to the drawings in conjunction with the embodiments.

Specific embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation is described, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.Base Embodiment in the present invention, those of ordinary skill in the art obtained under the premise of creative work is not made it is all its His embodiment, belongs to the scope of protection of the invention.

It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute is only used in the embodiment of the present invention In relative position relation, motion conditions under a certain particular pose (as shown in drawings) between each part etc. are explained, if should When particular pose changes, then directionality indicates also correspondingly to change therewith.

In the present invention, unless otherwise clearly defined and limited, term " connection ", " fixation " etc. should be interpreted broadly, For example, " fixation " can be fixedly connected, or be detachably connected, or integrally；Can be mechanically connect, or Electrical connection；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, can be two connections or two of element internal The interaction relationship of individual element, unless otherwise clearly restriction.For the ordinary skill in the art, can basis Concrete condition understands above-mentioned term concrete meaning in the present invention.

In addition, in the present invention such as relating to the description of " first ", " second " etc. be only used for describe purpose, and it is not intended that Indicate or imply its relative importance or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", At least one this feature can be expressed or be implicitly included to the feature of " second ".In addition, the technical side between each embodiment Case can be combined with each other, but must can be implemented as basis with those of ordinary skill in the art, when the combination of technical scheme It will be understood that the combination of this technical scheme does not exist when appearance is conflicting or cannot realize, also not in the guarantor of application claims Within the scope of shield.

The present invention proposes a kind of top air-out structure 10, is installed on the upper end of cabinet air-conditioner 100.

Referring to figs. 1 to 7, in embodiments of the present invention, the top air-out structure 10 includes：

Top air-out shell 11, the top air-out shell 11, top air-out shell 11 includes the first housing 113 and the second housing 115, the housing 115 of first housing 113 and second is detachably connected, and encloses and set to form accommodation space, the accommodation space and institute The air channel 31 for stating cabinet air-conditioner 100 connects；

The top air-out shell 11 cylindrical can be set, the cross section of the housing 115 of first housing 113 and second Equal semicircular in shape.In this way, the cylindric top air-out shell 11 for setting so that wind again via the accommodation space when, reduce windage, drop Low noise.

Top air-out inner casing 13, the top air-out inner casing 13 is provided with and connect ejection air port 13a with the air channel 31, in the top air-out The part of shell 13 is placed in the accommodation space, 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.

Technical solution of the present invention drives top air-out inner casing 13 by the first rotational structure 15 so that top air-out inner casing 13 is on top Swung up and down in air-out shell 11, drive ejection air port 13a to swing along the vertical direction, and then enable to eject air port 13a courts Upward or lower section.When air-conditioner is in refrigeration mode, the rotation top air-out of the first rotational structure 15 inner casing 13 makes ejection air port 13a is swung up, and the cold air after heat exchange can all be blown to the oblique upper of cabinet air-conditioner 100 via ejection air port 13a, because Cold air is heavier, can decline because of gravity after flow of cold air stretch journey so that indoor away from ejection air port 13a also can quilt Fast-refrigerating.When air-conditioner is in heating mode, the rotation top air-out of the first rotational structure 15 inner casing 13 makes ejection air port 13a To lower swing, the hot-air after heat exchange can all be blown to the obliquely downward of cabinet air-conditioner 100 via ejection air port 13a, because of heat Air is lighter, can rise after hot-air flowing stretch journey so that the interior away from ejection air port 13a also can quickly be heated. In this way, using the top air-out structure 10 of this programme, by adjusting ejection air port 13a, the whole air quantity via ejection air port 13a are equal Default position can be flow to, it is possible to achieve indoor fast-refrigerating or the effect for heating so that room air being capable of velocity modulation soon Save suitable temperature.

Meanwhile, by top air-out shell, 11 points is the housing 115 of dismountable first housing 113 and second, in assembling, first will The lower end of top air-out inner casing 13 is placed between the first housing 113 and the second housing 115, then, by the first housing 113 and second Housing 115 is fixedly connected so that the lower end of top air-out inner casing 13 is placed in the appearance that the first housing 113 and the second housing 115 are formed It is empty interior.In this way, conveniently top air-out inner casing 13 can be assembled with top air-out shell 11.

The mode that is detachably connected of the first housing 113 and the second housing 115 has many kinds, such as mode connects for screw, gluing connection Or connected using buckle 1131.In the present embodiment, reference picture 3, the two ends of first housing 113 are equipped with buckle 1131, The two ends of second housing 115 are equipped with catching groove 1151, and the buckle 1131 is fastened on the catching groove 1151.

That is, by buckle 1131 and the fastening of catching groove 1151, easy assembly and disassembly the first housing 113 and the second housing 115。

Reference picture 3, further, the catching groove 1151 includes lead segment 1151a and the button connected with lead segment 1151a Section 1151b is closed, the buckle 1131 is inserted from the lead segment 1151a, slide into the fastening section 1151b and fasten.

Lead segment 1151a and fastening section 1151b form bottle hole, and the junction of the two is in gradually to tighten, by lead segment The guiding of 1151a causes that buckle 1131 is convenient and inserts that fastening clamping buckle 1131 at section 1151b prevents buckle 1131 from releasing.

Further, Fig. 3 is refer to, the two ends of the first housing 113 are equipped with the first installing plate 1133, described second The two ends of housing 115 are equipped with the second installing plate 1153, and the buckle 1131 is located at first installing plate 1133, the catching groove 1151 are located at second installing plate 1153, and the buckle 1131 is fastened on the catching groove 1151, first installing plate 1133 Surface with second installing plate 1153 abuts.Facilitate right by the setting of the first installing plate 1133 and the second installing plate 1153 Installation buckle 1131 and catching groove 1151 are connect, makes the assembling of the two even closer.

Certainly, in the present embodiment, the card at least two intervals can also be equipped with every one end of first housing 113 Button 1131, the end of second housing 115 is correspondingly provided with the catching groove 1151 at least two intervals.

The setting of two buckles 1131 and catching groove 1151 avoids the integrally-built pine that a certain buckle 1131 fails and causes It is de-.It is, of course, also possible to set three or more.

Referring to figs. 1 to Fig. 5, 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 abuts 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, and the cover plate of a circle forms 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 and sets to form an appearance wind chamber 13b, the wind heat exchange in 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 for being 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 connected by buckle 1131, Ran Hou The upper side edge of the side plate 133 of side plate 133 and second is connected with the buckle 1131 of top cover 131 and/or is spirally connected and/or bonds.Certainly, should Side plate 133 or integral structure, side plate 133 and the integrated injection molding of top cover 131.

Reference picture 2, further, the side plate 133 has spherical structure.Side plate 133 is spherical so that whole side plate 133 parts substantially spherical in shape for surrounding, substantially can be spherical middle part.Set spherical by by side plate 133, when First rotational structure 15 rotates top air-out inner casing about 13 during elevating movement, side plate 133 can all the time with top air-out shell 11 Inwall is abutted, and prevents the air after heat exchange from being flowed out via the junction of top air-out inner casing 13 and top air-out shell 11.Meanwhile, by side Plate 133 sets spherical, can also reduce windage, so as to reduce noise.The connection of the top air-out shell 11 and top air-out inner casing 13 Place can also set sealing ring, and the sealing ring can be made up of sponge or foamed plastics.Air is prevented via flowing out herein.

Reference picture 2, in the present embodiment, the relative two ends of the top air-out shell 11 open up rotating shaft 1331 or rotating shaft One of hole 111, the relative two ends of the top air-out inner casing 13 open up the wherein another of rotating shaft 1331 or shaft hole 111 One, the rotating shaft 1331 is rotatably assorted with the shaft hole 111, and first rotational structure 15 drives the top air-out inner casing 13 Rotated along the axis of the rotating shaft 1331.

In this way, forming pivot center, the first rotation with the line of the relative rotating shaft 1331 or the center of shaft hole 111 Mechanism drives top air-out inner casing 13 along the pivot axis.Rotating shaft 1331 can be arranged on top air-out inner casing 13, by shaft hole 111 upper side edges for being arranged on top air-out shell 11, after rotating shaft 1331 is installed on into the shaft hole 111, by a pressure for annular Plate 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 be adapted to rotating shaft 1331, The annular pressing plate also is provided with the rotation slot coordinated with rotating shaft 1331.

Reference picture 2 and Fig. 5, in one embodiment of this invention, first rotational structure 15 include the first motor 151, The mounting bracket 153 of first motor 151, 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 of first motor 151, and the other end is stretched into To the appearance wind chamber 13b；

First motor 151 is installed on the mounting bracket 153 of first motor 151, 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 for stating top air-out inner casing 13 is fixedly connected, and the first gear 155 is engaged with the second gear 157, second tooth The pivot center of wheel 157 overlaps 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.

Reference picture 1, in the present embodiment, the ejection air port 13a is bordered by the top cover 131 and sets.By by top air-out Mouth 13a is bordered by setting, it is possible to increase the angle that ejection air port 13a swings up and down.The part adjacent with ejection air port 13a of top cover 131 Form air dam, it is possible to reduce turbulent air flow, increase 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.By the second horizontal wind deflector Setting, it is possible to achieve the above-below direction of ejection air port 13a to sweep wind angle bigger.

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

With reference to reference picture 5, in the present embodiment, the top air-out structure 10 also includes in the top air-out inner casing 13 Deep bead 135, the deep bead 135 is connected with the second rotational structure 137, and second rotational structure 137 drives described keeping out the wind Plate 135 is rotated in a circumferential direction along the top air-out inner casing 13, and the ejection air port 13a is blocked or opened.

By the deep bead 135, by ejection air port 13a closure or 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 is correspondingly provided with leads Draw face.By 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 to open or block and eject 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, orders about 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.Multiple set connecting rods 1375 so that deep bead 135 with Transmission between the power transmission shaft of second electrode is more stablized.Further one is set in the center of the lower surface of top cover 131 to rotate Mating groove, installs a bearing in this is rotatably assorted groove, 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 6 and Fig. 7, the present invention also propose a kind of cabinet air-conditioner 100, including：It is formed with housing 30, the housing 30 An at least air channel 31；

The air channel 31 is mainly formed in the inside of housing 30, and extraneous air is entered into air channel 31 via air inlet 33, by Blower fan 70 is driven, and is exchanged heat by heat exchanger 90, general, and 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 setting in the form of annular discs of the general drip tray.

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

Top air-out structure 10, concrete structure reference above-described embodiment of the top air-out structure 10, due to this cabinet air-conditioner 100 Employ whole technical schemes of above-mentioned all embodiments, therefore the institute that at least technical scheme with above-described embodiment is brought There is beneficial effect, this is no longer going to repeat them.

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, and e.g., the upper and lower ends of positive air exhausting structure 50 are communicated with wind The openings (sign) in road 31, extraneous air is entered by air inlet 33, is driven via blower fan 70, by heat exchanger it is after 90s via The openings of lower end are entered into 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 upper end of positive 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 where air channel 31 is two, the blower fan 70 of this cabinet air-conditioner 100 can be set one or two, 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, the air output of positive air outlet 51 and ejection air port 13a is easy to control with wind velocity is gone out, then The air handling capacity of cabinet air-conditioner 100 is stronger.

Technical solution of the present invention is by using double air exhausting structures so that cabinet air-conditioner 100 has various air-out modes, can root According to indoor temperature and area selection air-out mode.Positive air exhausting structure 50 is located substantially at the middle part of housing 30, positive air exhausting structure 50 With positive air outlet 51, the area of the area more than ejection air port 13a of the positive air outlet 51.Therefore, positive air exhausting structure 50 goes out Wind energy power is stronger.Can be by adjusting the opening and closing of positive air exhausting structure 50 and top air-out structure 10, and then can be further real The purpose of air themperature in existing quick regulation room.

And it is possible to 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 being detachably connected and rear shell, 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 channel 31 air inlet 33 when because the setting of cylindrical shell 30 can reduce windage, enable air to smoothly enter into 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, the housing 30 to be in Cylindrical shape is set, the windage reduction in the air channel 31 for forming it into, and thus, may be such that the heat exchange efficiency lifting of cabinet air-conditioner 100.

With reference to reference picture 5, in the present embodiment, the lower end of the top air-out shell 11 is provided with the 3rd rotational structure 17, 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, is rotated by this top air-out structure 10 that rotarily drives 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.

The present invention also proposes a kind of air-conditioner (not shown), including cabinet air-conditioner 100 and is connected with the cabinet air-conditioner 100 Outdoor unit, whole technical schemes of above-mentioned all embodiments are employed due to this air-conditioner, therefore at least have above-described embodiment All beneficial effects for being brought of technical scheme, this is no longer going to repeat them.

The present invention also provides a kind of air-out control method of air-conditioner, including：

The temperature of environment is detected for the first time；

When the temperature of environment exceeds preset temperature range value, open the positive air outlet 51 of positive air exhausting structure 50；

The temperature for detecting environment second, when the temperature of environment is still beyond beyond preset temperature range value, makes ejection Air port 13a is opened；

When environment temperature be higher than preset temperature range value when, and air-conditioner be in refrigeration mode when, the first rotational structure 15 Rotation top air-out structure 10, makes ejection air port 13a swing upward；

When environment temperature be less than preset temperature range value when, and air-conditioner be in heating mode when, the first rotational structure 15 Rotation top air-out structure 10, makes ejection air port 13a swing downward.

This cabinet air-conditioner 100 can set temperature sensor for detecting the temperature of indoor environment at air inlet 33, normally Livable environment temperature is 16 DEG C to 22 DEG C.Therefore, preset temperature range value is set to 16 DEG C to 22 DEG C.By TEMP Device carries out first time temperature detection, when the temperature of indoor environment is higher than preset temperature range value, can be by causing positive air outlet 51 open, and blower fan 70 starts, then during this, and after the work a period of time of cabinet air-conditioner 100, temperature sensor carries out the Secondary temperature detection, when the temperature of environment is higher than 22 DEG C, when air-conditioner is in refrigeration mode, the rotation of the first rotational structure 15 top Air exhausting structure 10, makes ejection air port 13a swing upward, positive air outlet 51 and ejection air port 13a simultaneously air-out, in accelerating chamber Air adjustment is so as to reach livable environment temperature.When the temperature of environment is less than 16 DEG C, when air-conditioner is in heating mode, the The rotation top air-out of one rotational structure 15 structure 10, makes ejection air port 13a swing downward, and air adjustment in accelerating chamber is so as to arrive Up to livable environment temperature.Certainly, the setting of preset temperature range value can be configured according to each Man's Demands.

The preferred embodiments of the present invention are the foregoing is only, the scope of the claims of the invention is not thereby limited, it is every at this Under the inventive concept of invention, the equivalent structure transformation made using description of the invention and accompanying drawing content, or directly/use indirectly It is included in scope of patent protection of the invention in other related technical fields.

Claims (14)

1. a kind of top air-out structure, is installed on the upper end of cabinet air-conditioner, it is characterised in that the top air-out structure includes：

Top air-out shell, the top air-out shell includes the first housing and the second housing, and first housing and the second housing are removable Connection is unloaded, and is enclosed and is set to form accommodation space, the accommodation space is connected with the air channel of the cabinet air-conditioner；

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 accommodation space, 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, 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.

2. top air-out structure as claimed in claim 1, it is characterised in that the two ends of first housing are equipped with buckle, institute The two ends for stating the second housing are equipped with catching groove, and the buckle is fastened on the catching groove.

3. top air-out structure as claimed in claim 2, it is characterised in that the catching groove includes lead segment and connects with the lead segment Logical fastening section, the buckle is inserted from the lead segment, is slid into the fastening section and is fastened.

4. top air-out structure as claimed in claim 2, it is characterised in that the first housing two ends are equipped with the first installation Plate, the second housing two ends are equipped with the second installing plate, and the buckle is located at first installing plate, and the catching groove is located at institute The second installing plate is stated, the buckle is fastened on the catching groove, and first installing plate is abutted with the surface of second installing plate.

5. top air-out structure as claimed in claim 2, it is characterised in that every one end of first housing is equipped with least two The buckle at interval, the end of second housing is correspondingly provided with the catching groove at least two intervals.

6. the top air-out structure as described in any in claim 1 to 5, it is characterised in that the top air-out shell is cylindrical Set, the equal semicircular in shape in cross section of first housing and the second housing.

7. top air-out structure as claimed in claim 6, it is characterised in that the connection of the top air-out shell and top air-out inner casing Place is additionally provided with sealing ring.

8. top air-out structure as claimed in claim 1, it is characterised in that the top air-out inner casing includes top cover, is connected to institute The side plate of top cover lower surface is stated, the side plate is surrounded on the top cover, enclosed with the top cover and set to form appearance wind chamber, the side plate Outer surface abuts with the inwall of the top air-out shell, and the ejection air port is opened in the side plate.

9. top air-out structure as claimed in claim 8, it is characterised in that the top air-out structure also includes being located at the ejection Deep bead in wind inner casing, the deep bead is connected with the second rotational structure, and second rotational structure drives the deep bead edge Rotating in a circumferential direction for the top air-out inner casing, the ejection air port is blocked or opened.

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

Housing, is formed with an at least air channel in 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；And

Top air-out structure as described in any in claim 1 to 9, the top air-out structure is described located at the upper end of the housing Ejection air port connects with air channel described in.

11. cabinet air-conditioners as claimed in claim 10 a, it is characterised in that air channel is formed with the housing, the positive air-out knot Structure and top air-out structure are located in same air channel.

12. cabinet air-conditioners as claimed in claim 10, it is characterised in that the lower end of the top air-out shell is provided with the 3rd rotation Rotation structure, the 3rd rotational structure drives top air-out shell the rotating in a circumferential direction along the housing.

13. a kind of air-conditioners, it is characterised in that including the cabinet air-conditioner as described in any in claim 10 to 12, Yi Jiyu The outdoor unit of cabinet air-conditioner connection.

A kind of 14. air-out control methods of air-conditioner as claimed in claim 13, it is characterised in that including：

The temperature of environment is detected for the first time；

When the temperature of environment exceeds preset temperature range value, open the positive air outlet of positive air exhausting structure；

The temperature for detecting environment second, when the temperature of environment is still beyond beyond preset temperature range value, makes ejection air port Open：

When environment temperature is in refrigeration mode higher than preset temperature range value, and air-conditioner, the rotation ejection of the first rotational structure Wind structure, makes ejection air port swing upward；

When environment temperature is less than preset temperature range value, and air-conditioner in heating mode, the rotation ejection of the first rotational structure Wind structure, makes ejection air port swing downward.