CN206073284U - Cabinet air-conditioner - Google Patents

Abstract

This utility model discloses a kind of cabinet air-conditioner, and cabinet air-conditioner includes housing, and an at least air channel is formed with the housing；Positive air exhausting structure, the positive air exhausting structure are fixed on the housing, and with the positive air outlet connected with air channel described in；And top air-out structure, the top air-out structure located at the upper end of the housing, and with the ejection air port connected with an air channel, wherein：Housing includes fore shell and is removably connected to the back cover of fore shell, fore shell is equipped with the air inlet for connecting air channel with the lower end of back cover, heat exchanger is additionally provided with air channel, heat exchanger has multiple flat board heat-transfer surfaces around setting, between two flat board heat-transfer surfaces, the junction with bending connecting portion, fore shell and back cover is just to a bending connecting portion.This utility model can improve the air conditioning efficiency of cabinet air-conditioner, and improve the heat exchange efficiency of heat exchanger.

Description

Cabinet air-conditioner

Technical field

This utility model is related to air-conditioning technical field, more particularly to a kind of cabinet 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 only set, but an air outlet is only set, air-out mode is more single, it is impossible to meet air-out area and air-out The demand of amount, makes the temperature of room air effectively be rapidly achieved the temperature of setting.Existing cabinet air-conditioner is typically in its shell The latter half of body arranges the air inlet structure of two strips, by the bar shaped air inlet structure air intake.However, bar shaped air inlet structure its Intake is unable to reach the requirement for pre-setting so that the heat exchange efficiency of cabinet air-conditioner is reduced.

Utility model content

Main purpose of the present utility model is to provide a kind of cabinet air-conditioner, it is intended to improve the air adjustment effect of cabinet air-conditioner Rate, and improve the heat exchange efficiency of heat exchanger.

To achieve these goals, the utility model proposes 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 are fixed on the housing, and with the positive air-out connected with air channel described in Mouthful；

And top air-out structure, the top air-out structure located at the upper end of the housing, and with connecting with air channel described in Ejection air port, wherein：

The housing includes fore shell and is removably connected to the back cover of the fore shell, under the fore shell and the back cover End is equipped with the air inlet for connecting the air channel,

Heat exchanger is additionally provided with the air channel, the heat exchanger has multiple flat board heat-transfer surfaces around setting, described in two The junction that bending connecting portion, the fore shell and the back cover are formed between flat board heat-transfer surface just connects to bending described in Portion.

Preferably, the top air-out structure is connected with the first rotating mechanism, and first rotating mechanism is fixed on the housing, The top air-out structure is driven to rotate in the upper end of the housing.

Preferably, the cross section of the heat exchanger is square.

Preferably, the cross section of the bending connecting portion is in circular arc, the scope of the angle [alpha] of its circular arc be 10 °≤α≤ 50°。

Preferably, the scope of length L of the cross section of the flat board heat-transfer surface is 40mm≤L≤200mm.

Preferably, the heat exchanger is provided with the fit-up gap for vertically extending, and the fit-up gap is provided with baffle plate.

Preferably, flat board heat-transfer surface described in baffle plate connection two, the baffle plate just to the fore shell and the back cover Junction.

Preferably, the fore shell includes upper casing and lower casing, and the heat exchanger is located at the lower casing and the back cover is surrounded Space in.

Preferably, the positive air exhausting structure includes the positive outlet frame being connected with the back cover, and the positive outlet frame has described Positive air outlet, the upper casing are provided with the resigning mouth coordinated with the positive air outlet, and the positive outlet frame is connected with the second rotating mechanism, Second rotating mechanism drives the positive outlet frame rotation, makes the positive air outlet just to the resigning mouth or is hidden in the shell In vivo.

Preferably, the positive outlet frame has deep bead, and the deep bead is bordered by the positive air outlet and arranges, the positive air-out knot When structure is closed, second rotating mechanism drives the positive outlet frame rotation so as to allow described in deep bead closure Position mouth.

Preferably, the top air-out structure includes top air-out frame, and the top air-out frame has the ejection air port, the back cover Upper end be convexly equipped with capping plate, when the top air-out structure is closed, the capping plate blocks the ejection air port.

Preferably, the top air-out structure includes top air-out frame, and the top air-out frame has the ejection air port, the ejection Wind frame is connected with lifting structure, and the lifting structure drives the top air-out frame to move up and down, and the ejection air port is hidden or aobvious Expose the housing.

Preferably, the top air-out frame includes the side that the lamina tecti and the periphery from the lamina tecti of circle are extended downwardly Plate, the side plate offer the ejection air port.

Technical solutions of the utility model by cabinet air-conditioner arrange two air outlets so that cabinet air-conditioner have it is various go out Wind pattern, can select wind pattern according to indoor temperature and area.It is such as under cryogenic conditions, under normal mode of operation, only logical Cross positive air exhausting structure air-out.When detecting indoor temperature and being too high, top air-out structure can be rotated, by positive air exhausting structure Air-out is carried out simultaneously with top air-out structure.When detecting temperature and being too low, can select to close positive air exhausting structure, and only by top Air exhausting structure carries out air-out.Thus, being capable of achieving various air-out modes, meet the demand of air-out area and air output, make Interior Space The temperature of gas can effectively be rapidly achieved the temperature for pre-setting.

Additionally, housing is set to back cover and is removably connected to the fore shell of back cover by this utility model cabinet air-conditioner, make The assembling process for obtaining cabinet air-conditioner is more simple and convenient, and in cabinet air-conditioner regular maintenance and maintenance process, before need to only opening Shell is capable of achieving to operate cabinet air-conditioner inner body, safeguards and maintenance process is simple and convenient.

By around the heat exchanger for arranging, contrasting existing plate type heat exchanger and U-shaped heat exchanger, around the heat exchanger for arranging Because its flat board heat-transfer surface increases, and heat exchange efficiency is lifted, and then the overall height distance of cabinet air-conditioner can be shortened so that be empty Cabinet-type air conditioner is adjusted to be easy to lay.

Meanwhile, the heat exchange efficiency of the bending connecting portion of heat exchanger is relatively low, and the junction of the fore shell and back cover is because needing to arrange Attachment structure so that the junction cannot arrange air inlet, namely the junction cannot connect extraneous air.Based on this, pass through By the bending connecting portion of two flat board heat-transfer surfaces just to fore shell and the junction of back cover, the heat exchange efficiency of heat exchanger can be improved.

Description of the drawings

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, below will be to embodiment Or accompanying drawing to be used is briefly described needed for description of the prior art, 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, in the premise for not paying creative work Under, other accompanying drawings can be obtained with the structure according to these accompanying drawings.

Structural representations of the Fig. 1 for one embodiment of this utility model cabinet air-conditioner；

Fig. 2 is the configuration schematic diagram of cabinet air-conditioner in Fig. 1；

Fig. 3 is the heat exchanger mounting structure schematic top plan view of cabinet air-conditioner in Fig. 1；

Fig. 4 is the positive structure diagram of cabinet air-conditioner in Fig. 1；

Fig. 5 is the sectional view at A-A in Fig. 4；

Fig. 6 is the exploded perspective view of the part-structure of cabinet air-conditioner in Fig. 1.

Drawing reference numeral explanation：

Label	Title	Label	Title
				100	Cabinet air-conditioner	313	Deep bead
10	Housing	33	First horizontal wind deflector
				10a	Junction	50	Top air-out structure
11	Fore shell	51	Top air-out frame
				13	Upper shell	511	Ejection air port
131	Resigning mouth	53	Lamina tecti
				15	Lower house	55	Side plate
17	Back cover	57	Second horizontal wind deflector
				171	Hole clipping	59	Second longitudinal direction stator
173	Capping plate	70	Blower fan
				19	Base	90	Heat exchanger
191	Locating slot	91	Heat exchanger support
				30	Positive air exhausting structure	93	Drip tray
31	Positive outlet frame	90a	Flat board heat-transfer surface
				311	Positive air outlet	90b	Bending connecting portion
94	Baffle plate	95	Fit-up gap
				92	Heat exchanger tube

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

Specific embodiment

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this 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 this 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 this utility model protection.

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

In this 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 integral；Can be mechanically connected, also may be used Be electrical connection；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, can be the connection of two element internals Or the interaction relationship of two elements, unless otherwise clearly restriction.For the ordinary skill in the art, can be with Concrete meaning of the above-mentioned term in this utility model is understood as the case may be.

In addition, and can not manage such as relating to the description of " first ", " second " etc. is only used for describing purpose in this utility model Solve to indicate or implying 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 occurring conflicting or will be understood that the combination of this technical scheme is not present when cannot realize, also not in this utility model Within the protection domain of requirement.

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

Incorporated by reference to referring to figs. 1 to Fig. 3, in one embodiment of this utility model, the cabinet air-conditioner 100 includes：Housing 10, should An at least air channel (sign) is formed with housing 10；

Blower fan 70 and heat exchanger 90 are installed in the air channel, the lower end of the housing 10 is provided with the air inlet connected with the air channel 12, the air inlet 12 is arranged around the housing 10；

The air channel is mainly formed in the inside of housing 10, and extraneous air is entered in air channel via air inlet 12, by blower fan 70 drive, and are exchanged heat through heat exchanger 90, and air inlet 12, heat exchanger 90, blower fan 70 are arranged in order from the bottom to top, heat exchanger 90 It is fixed in housing 10 by heat exchanger support 91, the lower end of heat exchanger 90 is provided with drip tray 93, for receiving condensation Water, general 93 setting in the form of annular discs of drip tray.

Positive air exhausting structure 30, the positive air exhausting structure 30 are fixed on housing 10, and with the positive air outlet connected with an air channel 311；And top air-out structure 50, the top air-out structure 50 located at the upper end of housing 10, and with the ejection connected with an air channel Air port 511, the top air-out structure 50 are connected with the first rotating mechanism (not shown), and first rotating mechanism drives top air-out structure 50 rotate relative to housing 10, wherein：Housing 10 includes fore shell 11 and is removably connected to the back cover 17 of fore shell 11, top air-out Structure 50 and positive air exhausting structure 30 are mounted on back cover 17, and blower fan 70 and heat exchanger 90 are fixed on back cover 17.The heat exchanger 90 There are multiple flat board heat-transfer surface 90a around setting, bending connecting portion 90b is formed with described in two between flat board heat-transfer surface 90a, institute The junction 10a of fore shell and the back cover is stated just to a bending connecting portion 90b.

Fore shell 11 and back cover 17 can be made by injection molding manner production using plastic material.The present embodiment fore shell 11 is with after Shell 17 all has the cross section of arc-shaped, and preferably semi-circular cross-section so that fore shell 11 and back cover 17 constitute circle after connecting Tubulose, accordingly, air channel is formed in the cavity surrounded by fore shell 11 and back cover 17, and the cross section in air channel is circle.This air-conditioning An air channel is formed with the housing 10 of cabinet-type air conditioner 100, positive air exhausting structure 30 and top air-out structure 50 are located in same air channel, accordingly , blower fan 70 is also equipped with one, and e.g., the upper and lower ends of positive air exhausting structure 30 are communicated with the openings in air channel (sign), Extraneous air is entered by air inlet 12, is driven via blower fan 70, is just entered into through the heat exchanger openings via lower end after 90s In air exhausting structure 30, can blow out via the positive air outlet 311 of the positive air exhausting structure 30.Meanwhile, the air after heat exchange is via this The openings of positive 30 upper end of air exhausting structure can be blown out via the ejection air port 511 of top air-out structure 50 to top air-out structure 50. In the case of an air channel, 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 30 and top air-out structure 50 can be located at different air channels, housing Two air channels can be formed with 10, positive air exhausting structure 30 is connected with a wherein air channel, and top air-out structure 50 is connected with another air channel, In the case that air channel is two, the blower fan 70 of this cabinet air-conditioner 100 can arrange one or two, you can with by a blower fan 70 Air flow in two air channels is driven simultaneously, can also be each air channel one blower fan 70 of correspondence.In the situation in two air channels Under, the air output in positive air outlet 311 and ejection air port 511 is easy to control with wind velocity is gone out, then the air adjustment of cabinet air-conditioner 100 Ability is higher.

The first rotating mechanism of the present embodiment can be the knot that motor, driving gear and driven gear or tooth bar are engaged Structure, wherein driving gear are connected with the output shaft of motor, and driving gear is engaged with driven gear or tooth bar, driven gear or Tooth bar is fixedly connected top air-out structure 50.

The present embodiment in 17 injection molding process of back cover can be formed dividing plate in the cavity wall of back cover 17 and be threaded The inner chamber of back cover 17 is separated into multiple installation regions and installs different parts, the present embodiment with correspondence by the connecting pole in hole, dividing plate Heat exchanger 90 also includes heat exchanger support 91, and drip tray 93 is provided with below heat exchanger 90, and heat exchanger support 91 is provided with spiral shell Hole (sign) is connect, after heat exchanger 90 is fixed on heat exchanger support 91, heat exchanger support 91 passes through screw and bolt apertures and company Back cover 17 is fixed in the cooperation for connecing post, and back cover is fixed in screw thread cooperation of the drip tray 93 by the spacing of dividing plate and with connecting pole 17, miscellaneous part, such as top air-out structure 50, positive air exhausting structure 30 and blower fan 70 etc. are refer in the mounting means of back cover 17 Embodiment is stated, this is no longer going to repeat them.

Technical solutions of the utility model are by arranging two air outlets in cabinet air-conditioner 100 so that cabinet air-conditioner 100 has Various air-out modes, can select wind pattern according to indoor temperature and area.Such as under cryogenic conditions, normal mode of operation Under, only by 30 air-out of positive air exhausting structure.When detecting indoor temperature and being too high, by the ejection air port of top air-out structure 50 511 open, by 50 air-out simultaneously of positive air exhausting structure 30 and top air-out structure, while top can be driven by the first rotating mechanism Air exhausting structure 50 rotates so that cabinet air-conditioner has various air outlet angles to coordinate various air-out modes.When detecting temperature mistake When low, can select to close positive air exhausting structure 30, and air-out is carried out by top air-out structure 50 only.Thus, be capable of achieving it is various go out Wind pattern, meets the demand of air-out area and air output, enables the temperature of room air to be effectively rapidly achieved what is pre-set Temperature.Additionally, housing 10 is set to back cover 17 and is removably connected to before back cover 17 by this utility model cabinet air-conditioner 100 Shell 11, indoors in cabinet-type air conditioner assembling process, top air-out structure 50, positive air exhausting structure 30, blower fan 70 and heat exchanger 90 is respectively mounted After back cover 17, fore shell 11 completes the installation of 100 main part of cabinet air-conditioner by covering with back cover 17 so that cabinet air-conditioner 100 assembling process is simple and convenient, and in 100 regular maintenance of cabinet air-conditioner and maintenance process, only need to open fore shell 11 i.e. 100 inner body of cabinet air-conditioner can be operated, safeguard and maintenance process is simple and convenient.

The lower limb of the positive air exhausting structure of this cabinet air-conditioner 30 to the distance on ground be 900mm～1300mm；Thus, in routine Under positive air-out mode, the height of positive air outlet 311 just meets the demand aligned to people's blowing.The lower limb of top air-out structure 50 Distance to ground is 1750mm～1970mm；Thus, when top air-out structure air-out, can avoid ejecting the blowout of air port 511 Wind is directly blown onto the upper bit (such as head) of human body.

By around the heat exchanger 90 for arranging, can greatly strengthen heat transfer effect.Contrast existing plate type heat exchanger and U-shaped Heat exchanger, around the heat exchanger 90 for arranging because its flat board heat-transfer surface 90a increases, and causes heat exchange efficiency to be lifted, and then can shorten The height distance of 100 entirety of cabinet air-conditioner, therefore, the heat exchanger 90 is applied in cylindric housing 10 so that the air-conditioning The heat exchange efficiency of cabinet-type air conditioner 100 is improved, installation it is convenient, be suitable for different installation environments.

Meanwhile, the heat exchange efficiency of the flat board heat-transfer surface 90a of heat exchanger 90 is higher, connects in the bending of two flat board heat-transfer surface 90a The heat exchange efficiency of socket part 90b is relatively low.The junction 10a of the fore shell and 11 back covers 17 is because needing to arrange attachment structure, the junction 10a cannot arrange air inlet 12, namely the junction cannot connect extraneous air.Based on this, by by two flat boards in the application Junction 10as of the bending connecting portion 90b of heat-transfer surface 90a just to fore shell 11 and back cover 17, can improve the heat exchange of heat exchanger 90 Efficiency, and then the heat exchange efficiency of cabinet air-conditioner 100 is lifted.

In an embodiment of the present utility model, with reference to Fig. 3, the cross section of heat exchanger 90 is square setting.That is, heat exchange The heat exchanger tube 92 of device 90 is arranged around squarely.Heat exchanger tube 92 is during so as to which position in curved surface is more, more holds Easily stress concentration is formed at curved surface, internal to produce micro-crack, if cold or overheated under some specific conditions, the micro-crack loses It is steady to extend, cause the grain boundaries of the heat exchanger tube 92 to rupture, so that 92 local of heat exchanger tube produces leakage, therefore, this is changed Around squarely (it is rectangle or square that this is square), which produces curved surface in four bending connecting portion 90b to heat pipe 92, because This, it is possible to decrease the difficulty of 92 coiling of heat exchanger tube, reduce the probability that 92 local of heat exchanger tube is revealed.

Further, the cross section of the bending connecting portion 90b is arranged in circular arc, and the scope of the angle [alpha] of its circular arc is 10°≤α≤50°.The bending connecting portion 90b arranged by circular arc, can reduce the windage at this, and the angle [alpha] of its circular arc Scope while Bending Processing is facilitated, just with assembling can minimize windage for 10 °≤α≤50 °.

In the present embodiment, with reference to Fig. 3, the scope of length L of the cross section of the flat board heat-transfer surface 90a is 40mm≤L ≤200mm.Thus, the flat board heat-transfer surface is capable of achieving maximum heat exchange efficiency while assembling is not affected.

In the present embodiment, with reference to Fig. 2 and Fig. 3, heat exchanger 90 is provided with the fit-up gap 95 for vertically extending, the dress Baffle plate 94 is provided with gap 95.The baffle plate 94 is fixedly installed on heat exchanger support 91.

The fit-up gap 95 of heat exchanger 90 is formed in coiling heat exchanger tube 92, but, if having extraneous air via this Fit-up gap 95 is entered in air channel, then the heat transfer effect of the extraneous air for entering at this is poor, is arranged baffle plate 94, can be prevented this Extraneous air is entered at fit-up gap 95, is prevented the air exchanged heat without flat board heat-transfer surface 90a to be flowed in air channel, thus can be carried High heat exchange efficiency.

Further, flat board heat-transfer surface 90a described in the connection of the baffle plate 94 two, the baffle plate is just to the fore shell 11 and described One junction 10a of back cover 17.

Because at baffle plate 94 cannot air intake, therefore, by the baffle plate 94 is connected two flat board heat-transfer surface 90a, it is possible to decrease bending The number of connecting portion 90b, further improves the heat exchange efficiency of heat exchanger 90.

With reference to Fig. 5, the height of height of the heat exchanger 90 on 10 axis of the housing and the air inlet 12 It is identical.Thus, the extraneous air entered from air inlet 12 all can be exchanged heat by flat board heat-transfer surface 90a, heat exchange is improved Efficiency.

Fig. 2 is refer to, in order to realize the convenience of 17 disassembly process of fore shell 11 and back cover, 17 alternative one of fore shell 11 or back cover Buckle is provided with, another in the two is provided with hole clipping 171, the fore shell 11 and back cover 17 pass through the cooperation card of buckle and hole clipping 171 Close connection.

The present embodiment fore shell 11 is provided with buckle (not shown), and back cover 17 is provided with hole clipping 171.Buckle and hole clipping 171 are located at The sidewall edge of fore shell 11 and back cover 17, and the uniform intervals distribution on the length direction of fore shell 11 and back cover 17, so can be with Improve the steadiness of 17 attachment structure of fore shell 11 and back cover.Wherein hole clipping 171 can be inverted bottle shape, i.e. hole clipping 171 May include the above and larger lead segment (sign) of being open, and be located at lower section and the less fastening section that is open (is not marked Show), during buckle insertion hole clipping 171, lead segment is guided to buckle, in buckle folding process, fastens section to card Button is clamped.It is more convenient by the disassembly process of the setting of multiple buckles and hole clipping 171, fore shell 11 and back cover 17 and connect Stabilized structure.In other embodiment, fore shell 11 and back cover 17 also can start bolt apertures in sidewall edge, and the two is connected by screw Tap into capable locking.

Fore shell 11 and 17 lower end of back cover are connected with base 19, and the lower end of fore shell 11 is provided with locating dowel (not shown), base 19 are provided with locating slot 191, and fore shell 11 and the base 19 are detachably connected by the cooperation of locating dowel and locating slot 191, after Shell 17 is fixedly connected with base 19.

Base 19 can be in the form of annular discs or square.Base 19 is more than housing 10 in horizontal plane in the projected area of horizontal plane Projected area, such base 19 can provide more strong support, the steadiness of cabinet air-conditioner 100 for this cabinet air-conditioner 100 It is higher.Also, fore shell 11 is detachably connected by the cooperation of locating dowel and locating slot 191 with base 19, cabinet air-conditioner 100 is torn open Dress process is more convenient.

Incorporated by reference to reference to Fig. 4 to Fig. 6, the fore shell 11 includes upper shell 13 and lower house 15, blower fan 70 and heat exchanger 90 In the space surrounded by lower house 15 and back cover 17.

The present embodiment blower fan 70 and heat exchanger 90 are arranged at the bottom of cabinet air-conditioner 100, and positioned at lower house 15 with after In the space surrounded by shell 17, also corresponding heat exchanger 90 and blower fan 70 are opened in housing 10 to the air inlet of this cabinet air-conditioner 100 Bottom, it is possible to understand that, this cabinet air-conditioner 100 in air inlet go out be additionally provided with for cross air filtering in impurity drainage screen (not Sign).Fore shell 11 is set to 15 two sections of upper shell 13 and lower house by the present embodiment, in 100 daily demolition and maintenance of cabinet air-conditioner During, it is only necessary to open lower house 15, you can the drainage screen, blower fan 70, the cleaning of heat exchanger 90 and dimension to cabinet air-conditioner 100 Operation is repaiied, the regular maintenance of cabinet air-conditioner 100 is simple and convenient.

Referring once again to Fig. 2, specifically, positive air exhausting structure 30 includes the positive outlet frame 31 being connected with back cover 17, and this just goes out Wind frame 31 has positive air outlet 311, and upper shell 13 is provided with the resigning mouth 131 coordinated with positive air outlet 311, and the positive outlet frame 31 connects The second rotating mechanism (not shown) is connected to, and second rotating mechanism drives positive outlet frame 31 to rotate, and positive air outlet 311 is made just to allowing Position mouth 131 is hidden in housing 10.

The first rotating mechanism of the present embodiment and the second rotating mechanism may each be motor, driving gear and driven gear or The structure that person's tooth bar is engaged, wherein driving gear are connected with the output shaft of motor, driving gear and driven gear or tooth bar Engagement, driven gear or tooth bar are fixedly connected top air-out structure 50 or positive air exhausting structure 30.By the first rotating mechanism and The setting of the second rotating mechanism, realizes the automatic shutter in positive air outlet 311 and ejection air port 511 so that cabinet air-conditioner 100 has The different air-out modes that correspondence indoor temperature is required.

Specifically, positive outlet frame 31 has deep bead 313, and the deep bead 313 is bordered by positive air outlet 311 and arranges, positive air-out When structure 30 is closed, the second rotating mechanism drives positive outlet frame 31 to rotate so that the closure resigning mouth of deep bead 313 131.During room air is adjusted, it is not necessary to when the positive air outlet 311 of positive air exhausting structure 30 carries out air-out, the second whirler Structure drives positive outlet frame 31 to rotate, by arranging deep bead 313 in positive outlet frame 31 so that keep off in 31 rotary course of positive outlet frame Aerofoil 313 is just aligning air outlet 311 and is being capable of achieving to align the closed procedure of air outlet 311 so that the overall knot of positive air exhausting structure Structure is simple, and the cost of cabinet air-conditioner 100 is reduced.

It should be understood that positive outlet frame 31 is also associated with the first horizontal wind deflector 33, the first horizontal wind deflector 33 can level Polylith is provided with, and the same side of the first horizontal wind deflector 33 of polylith is connected with a link rotatable, motor on connecting rod, can be passed through Drive and then pull the first horizontal wind deflector 33 to swing up and down, that realizes positive air outlet 311 sweeps wind up and down.

The top air-out structure 50 includes top air-out frame 51, and top air-out frame 51 includes the lamina tecti 53 of circle and from lamina tecti The side plate 55 that 53 periphery is extended downwardly, side plate 55 offer ejection air port 511.

The top air-out frame 51 of the present embodiment is overall cylindrical so that the first rotating mechanism drives the mistake of top air-out structure 50 Journey is more smooth, and has cylindrical cavity inside top air-out frame 51, and blower fan 70 drives air to enter top by the air channel of housing 10 After the inner chamber of outlet frame 51, circled round in cylindrical cavity, and blown out by the ejection air port 511 for being opened in side plate 55, so The air-out efficiency of top air-out structure 50 can be improved.

Ejection air port 511 is additionally provided with the second horizontal wind deflector 57, and the second horizontal wind deflector 57 connects the ejection air port 511 Both sides, and in above-below direction swing, to adjust the air outlet angle in the ejection air port 511.By the second horizontal wind deflector 57 Setting, it is possible to achieve the above-below direction of top air-out structure 50 sweeps wind.

The ejection air port 511 is additionally provided with second longitudinal direction stator 59, the second longitudinal direction stator 59 and the second horizontal wind deflector 57 Form air outlet grate.By the setting of second longitudinal direction stator 59, the left and right directions for being capable of achieving top air-out structure 50 sweeps wind, this enforcement Example passes through the cooperation of the second horizontal wind deflector 57 and second longitudinal direction stator 59 so that top air-out structure 50 has various air-out moulds Formula, adapts to various demands that room air is adjusted.

From above-mentioned content, this cabinet air-conditioner 100 passes through the cooperation reality of top air-out structure 50 and positive air exhausting structure 30 Existing various air-out modes, then under some patterns, it is only necessary to which positive air exhausting structure 30 carries out air-out, and top air-out structure 50 needs to close Close, the closing of 100 top air-out structure 50 of this cabinet air-conditioner can be accomplished in several ways：

In one embodiment, can in the upper end of back cover 17 be convexly equipped with capping plate (not shown), when do not need top air-out structure During 50 air-out, drive installation site of the top air-out structure 50 in 10 upper end of housing to rotate by the first rotating mechanism, then turn over phase When answering angle, the ejection air port 511 of plate closure top air-out frame 51 is covered so that top air-out structure 50 is closed.Can be with Understand, in the case, when two air channels and two blower fans 70 is provided with housing 10, can be by correspondence ejection air port 511 Blower fan 70 close, and the acquisition of 70 shutdown signal of blower fan can be by install sensor on the housing 10 or in the first rotation Rotation mechanism setting angle sensor is realized.By said structure, the opening and closing in ejection air port 511 is realized by simple structure, such as This reduces the power consumption and production cost of this cabinet air-conditioner 100.

In another embodiment, the lifting structure being connected with top air-out frame 51, the lifting structure can be set in housing 10 Drive the top air-out frame 51 to move up and down, ejection air port 511 is hidden or is manifested the housing 10.Specifically so that Ejection air port 511 hides or manifests in the space surrounded described in upper shell 13 and back cover 17.

The lifting structure can be made up of motor, driving gear and tooth bar and auxiliary stand, and wherein auxiliary stand is fixed Connection back cover 17, tooth bar are connected with the first rotating mechanism, carry out elevating movement by Motor drive driving gear band carry-over bar, and Further realize by the first rotating mechanism lifting top air-out structure 50 that ejection air port 511 hides or manifests the housing 10。

This utility model also proposes a kind of air-out control method of cabinet air-conditioner 100, and which includes：

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 311 of positive air exhausting structure 30；

The temperature for detecting environment second, when the temperature of environment is higher than predetermined threshold value, opens ejection air port 511, controls Make the first rotating mechanism rotation top air-out structure 50.

It is in the case that this cabinet air-conditioner 100 is not provided with lifting structure for back cover 17 is convexly equipped with capping plate, empty closing When adjusting cabinet-type air conditioner 100, the ejection air port 511 of top air-out structure 50 is just to covering plate so that ejection air port 511 is closed, i.e. air-conditioning cabinet The initial state in the case where capping plate is provided with of machine 100 is the state for ejecting air port 511 just to capping plate.Tie for lifting is provided with For structure and being not provided with covers the cabinet air-conditioner 100 of plate, its initial state is that top air-out structure 50 is hidden in the state of housing 10. This cabinet air-conditioner 100 can arrange temperature sensor in air inlet to be used to detect the temperature of indoor environment, by temperature sensor Carry out first time temperature detection, when indoor environment temperature be higher than predetermined threshold value when, can by the first rotating mechanism rotate or The lift action of lifting structure causes positive air outlet 311 to open, and blower fan 70 starts, in the process, the first rotating mechanism Drive top air-out structure 50 to rotate, realize different air outlet angles.Realize the regulation stable to indoor environment.In cabinet air-conditioner 100 After work a period of time, temperature sensor carries out second temperature detection, when the temperature of environment is higher than predetermined threshold value, control the One rotating mechanism rotation top air-out structure 50, makes ejection air port 511 expose the housing 10 of cabinet air-conditioner 100,311 He of positive air outlet 511 air-out simultaneously of ejection air port, accelerates indoor air adjustment so as to reach predetermined threshold value.

This control method also includes after step is opened in the ejection air port 511 of control top air-out structure 50：

Third time detects the temperature of environment, when the temperature of environment is less than predetermined threshold value, closes ejection air port 511.

Closing process can be that the first rotating mechanism drives the positive air outlet 511 of top air-out structure 50 just to covering plate, Lifting structure can be made to order about top air-out structure 50 and to be hidden in housing 10.

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 this utility model description and accompanying drawing content Conversion, or directly/be used in indirectly other related technical fields and be included in scope of patent protection of the present utility model.

Claims (13)

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

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

Positive air exhausting structure, the positive air exhausting structure are fixed on the housing, and with the positive air outlet connected with air channel described in；

And top air-out structure, the top air-out structure located at the upper end of the housing, and with the top connected with air channel described in Air outlet, wherein：

The housing include fore shell and be removably connected to the back cover of the fore shell, the fore shell and the back cover lower end it is equal The air inlet in the air channel is communicated with,

Heat exchanger is additionally provided with the air channel, the heat exchanger has multiple flat board heat-transfer surfaces around setting, flat board described in two The junction of bending connecting portion, the fore shell and the back cover is formed between heat-transfer surface just to bending connecting portion described in.

2. cabinet air-conditioner as claimed in claim 1, it is characterised in that the top air-out structure is connected with the first rotating mechanism, First rotating mechanism is fixed on the housing, drives the top air-out structure to rotate in the upper end of the housing.

3. cabinet air-conditioner as claimed in claim 1, it is characterised in that the cross section of the heat exchanger is square.

4. cabinet air-conditioner as claimed in claim 3, it is characterised in that the cross section of the bending connecting portion is in circular arc, its The scope of the angle [alpha] of circular arc is 10 °≤α≤50 °.

5. cabinet air-conditioner as claimed in claim 3, it is characterised in that the model of length L of the cross section of the flat board heat-transfer surface Enclose for 40mm≤L≤200mm.

6. the cabinet air-conditioner as described in arbitrary in claim 1 to 5, it is characterised in that the heat exchanger is provided with vertically The fit-up gap of extension, the fit-up gap are provided with baffle plate.

7. cabinet air-conditioner as claimed in claim 6, it is characterised in that flat board heat-transfer surface described in the baffle plate connection two, the gear Plate is just to the fore shell and a junction of the back cover.

8. cabinet air-conditioner as claimed in claim 1, it is characterised in that the fore shell includes upper casing and lower casing, the heat exchanger In the space surrounded by the lower casing and the back cover.

9. cabinet air-conditioner as claimed in claim 8, it is characterised in that the positive air exhausting structure includes what is be connected with the back cover Positive outlet frame, the positive outlet frame have the positive air outlet, and the upper casing is provided with the resigning mouth coordinated with the positive air outlet, should Positive outlet frame is connected with the second rotating mechanism, and second rotating mechanism drives the positive outlet frame rotation, makes the positive air outlet Just to the resigning mouth or it is hidden in the housing.

10. cabinet air-conditioner as claimed in claim 9, it is characterised in that the positive outlet frame has deep bead, and the deep bead is bordered by The positive air outlet is arranged, and when the positive air exhausting structure is closed, second rotating mechanism drives the positive air-out Frame rotates so that the deep bead blocks the resigning mouth.

11. cabinet air-conditioners as claimed in claim 2, it is characterised in that the top air-out structure includes top air-out frame, the ejection The upper end that wind frame has the ejection air port, the back cover is convexly equipped with capping plate, when the top air-out structure is closed, The capping plate blocks the ejection air port.

12. cabinet air-conditioners as claimed in claim 2, it is characterised in that the top air-out structure includes top air-out frame, the ejection Wind frame has the ejection air port, and the top air-out frame is connected with lifting structure, and the lifting structure is driven on the top air-out frame Lower motion, makes the ejection air port hide or manifest the housing.

13. cabinet air-conditioners as described in claim 11 or 12, it is characterised in that the top air-out frame includes the lamina tecti of circle The side plate extended downwardly with the periphery from the lamina tecti, the side plate offer the ejection air port.