CN206989321U - Air-conditioner indoor wall on-hook - Google Patents

Abstract

The utility model provides a kind of air-conditioner indoor wall on-hook, including：The first air outlet and the second air outlet are offered respectively on the preceding surface of first indoor set and the second indoor set, the first indoor set and the second indoor set, and is configured to controlled to open at the same time or separately, to allow the first indoor set and the second indoor set to be blown to its front；Wherein, the first indoor set and the second indoor set are transversely arranged side by side, and the two adjacent connection end is rotatably connected to each other；And first indoor set and the second indoor set be configured to, the junction of the connection end of the two can be controllably moved forward or rearward, and drive the first indoor set and the second indoor set to be rotated by axle synchronous backward of junction, so that the free end of the first indoor set and the second indoor set is posteriorly or anteriorly moved relative to its junction.Air-conditioner indoor wall on-hook of the present utility model passes through foldable and expansion two sections of indoor sets so that its blowing range can carry out wide-angle regulation.

Description

Air-conditioner indoor wall on-hook

Technical field

Filed of air conditioning is the utility model is related to, more particularly to a kind of air-conditioner indoor wall on-hook.

Background technology

The improvement of people's living standards makes people propose higher demand to the quality of household electrical appliances.For air-conditioning, only It can realize that simple heat exchange can not meet the needs of user.How air-conditioning is in interior when being freezed or being heated Can to feel comfortably cool per family be a urgent problem to be solved for diverse location and use with different active states.

Utility model content

A purpose of the present utility model is to provide for a kind of segmented air-conditioner indoor wall on-hook.

The utility model one is further objective is that will cause the blowing range of air-conditioner indoor wall on-hook can carry out big angle Degree regulation.

The utility model another further objective is that make it that the multistage indoor set of air-conditioner indoor wall on-hook can basis The quantity and its active state of indoor user are blown respectively.

Especially, the utility model provides a kind of air-conditioner indoor wall on-hook, including：

Opened respectively on the preceding surface of first indoor set and the second indoor set, first indoor set and second indoor set Provided with the first air outlet and the second air outlet, and it is configured to controlled to open at the same time or separately, to allow first indoor set Blown with second indoor set to its front；Wherein,

First indoor set and second indoor set are transversely arranged side by side, and the two adjacent connection end is rotatable Ground is connected with each other；And

First indoor set and second indoor set are configured to, and the junction of the connection end of the two can be controllably It is moved forward or rearward, and drives first indoor set and second indoor set to turn by axle synchronous backward of the junction It is dynamic so that the free end of first indoor set and second indoor set relative to junction its described synchronously backward or to Preceding movement.

Further, first indoor set, which has, is connected to rotating shaft on first at the top of it and is connected to the of its bottom One lower rotary shaft, first indoor set is installed on wall, and allows shifting of first indoor set with the junction Move and rotate；And

Machine has the second lower rotary shaft for being connected to rotating shaft on second at the top of it and being connected to its bottom in the second Room, So that second indoor set is installed on wall, and second indoor set is allowed to be rotated with the movement of the junction； And

Rotating shaft on described first, first lower rotary shaft, rotating shaft and the second lower rotary shaft are configured to make jointly on described second First indoor set and second indoor set turn forward a default angle of inclination.

Further, described air-conditioner indoor wall on-hook also includes：

Connecting shaft component, it has mutually solid with the connection end of first indoor set and second indoor set respectively Fixed the first connecting shaft and the second connecting shaft, and first connecting shaft and the second connection end are rotatable by adjustable spring Ground is coaxially disposed；Wherein,

The bottom of first connecting shaft is connected with the top of the adjustable spring, the bottom of the adjustable spring and second The top of connecting shaft is connected, so that first indoor set and second indoor set are pivotally connected by the connecting shaft component.

Further, the connecting shaft component has and is arranged in first connecting shaft or second connecting shaft, and The not parallel expansion link with the axial direction of first connecting shaft or second connecting shaft；And

The expansion link is configured to controlled to stretch out or withdrawal is so that the connection component is moved forward or rearward.

Further, described air-conditioner indoor wall on-hook also includes：

It is arranged at the First Heat Exchanger with first switch valve of first indoor set and is arranged in the second Room The second heat exchanger with second switch valve of machine；Wherein

The first switch valve and the second switch valve are configured to controllably while to connect, be respectively communicated with or hinder simultaneously It is disconnected, to respectively allow for or prevent heat carrier to enter the First Heat Exchanger and second heat exchanger.

Further, described air-conditioner indoor wall on-hook also includes：

It is arranged at the first blower fan of first indoor set and is arranged at the second blower fan of second indoor set；Wherein

First blower fan and second blower fan are configured to discriminably controlled unlatching, so that described first to exchange heat respectively First indoor set and the second Room described in heat exchange Air blowing caused by heat exchange air caused by device and second heat exchanger Interior machine.

Further, described air-conditioner indoor wall on-hook also includes：

At least two human body infrared sensing device furthers, and the preceding surface of first indoor set and second indoor set is distinguished At least one human body infrared sensing device further is provided with, to sense the number of users in the air-conditioner indoor wall on-hook front region Amount, position distribution and the shell temperature of each user.

Air-conditioner indoor wall on-hook of the present utility model, and can be according to the tool of user by setting two sections of rotatable indoor sets Body demand, two sections of indoor sets is rotated opposite to each other and efficiently blown with concentration or make the opposite liftoff rotation of two sections of indoor sets with a wide range of Air-supply, and then the heat exchange efficiency of air-conditioner indoor wall on-hook is improved, and reduce energy consumption.

According to the accompanying drawings will be more to the detailed description of the utility model specific embodiment, those skilled in the art Add clear of the present utility model above-mentioned and other purposes, advantages and features.

Brief description of the drawings

It is described in detail by way of example, and not by way of limitation with reference to the accompanying drawings hereinafter more of the present utility model specific real Apply example.Identical reference denotes same or similar part or part in accompanying drawing.It should be appreciated by those skilled in the art that What these accompanying drawings were not necessarily drawn to scale.In accompanying drawing：

Fig. 1 is the schematic diagram according to the air-conditioner indoor wall on-hook of the utility model one embodiment；

Fig. 2 is the schematic side elevation of air-conditioner indoor wall on-hook shown in Fig. 1；

Fig. 3 is the schematic plan according to the air-conditioner indoor wall on-hook of the utility model one embodiment；

Fig. 4 is the diagrammatic top under another state of air-conditioner indoor wall on-hook according to the utility model one embodiment Figure；

Fig. 5 is the schematic diagram according to the air-conditioner indoor wall on-hook heat-exchange system of the utility model one embodiment；

Fig. 6 is the schematic flow according to the control method of the air-conditioner indoor wall on-hook of the utility model one embodiment Figure；

Fig. 7 is that control method is shown under the refrigeration mode according to the air-conditioner indoor wall on-hook of the utility model one embodiment Meaning property flow chart；

Fig. 8 is another indicative flowchart of control method under refrigeration mode shown in Fig. 7；

Fig. 9 is that control method is shown under the heating mode according to the air-conditioner indoor wall on-hook of the utility model one embodiment Meaning property flow chart；

Figure 10 is another indicative flowchart of control method under heating mode shown in Fig. 9.

Embodiment

Fig. 1 is the schematic diagram according to the air-conditioner indoor wall on-hook 1 of the utility model one embodiment.In air conditioning chamber Wall hanging machine 1 includes the first indoor set 10, the second indoor set 20.On the preceding surface of first indoor set 10 and the second indoor set 20 respectively The first air outlet 100 and the second air outlet 200 are offered, and is configured to controlled to open at the same time or separately, to allow the first Room The interior indoor set 20 of machine 10 and second is blown to its front.First indoor set 10 and the second indoor set 20 can transversely be arranged side by side, And the two adjacent connection end is rotatably connected to each other.It that is to say, the first indoor set 10 and the second indoor set 20 can be one The first from left right side is set up in parallel, with least part region for the side to the left being each responsible for into the front region of air-conditioner indoor wall on-hook 1 Blown with least part region of side to the right, the blowing range both it there can be the coincidence of certain area, with into air conditioning chamber The front of wall hanging machine 1, indoor main activities region provide sufficient air quantity.Further, the first indoor set 10 and second Room Interior machine 20 can with roughly the same profile (for example, with roughly equal length, width and height etc.) so that the two The area coverage of air-out is roughly equal, and then makes the air-out of air-conditioner indoor wall on-hook 1 more uniform.

Further, the first indoor set 10 and the second indoor set 20 are configured to, and the junction of the connection end of the two can be controlled Ground is moved forward or rearward, and drives the first indoor set 10 and the second indoor set 20 to be rotated by axle synchronous backward of junction, with The first indoor set 10 and the free end of the second indoor set 20 is set posteriorly or anteriorly to be moved relative to its junction.

It that is to say, when junction is moved rearwards, the first indoor set 10 and the second indoor set 20 of air-conditioner indoor wall on-hook 1 It can be packed up to interior folding and carry out small range air-supply in " ^ " shape (being seen from the top of air-conditioner indoor wall on-hook 1, hereafter similarly), with Targetedly to indoor a certain region, be user's consentrated air supply positioned at the region, so as to improve refrigeration or heating efficiency, and Time and energy consumption are saved.When junction moves forward, the first indoor set 10 and the second indoor set 20 can also flex outward Open (that is to say, fold back) to be blown on a large scale in " v " shape, to expand the air supply areas to indoor air-supply, so as to protect Use of the card position in indoor any position can experience the refrigeration or heating effect of air-conditioner indoor wall on-hook 1 per family, improve whole The heat exchange efficiency of body, enhances Consumer's Experience.

Air-conditioner indoor wall on-hook 1 of the present utility model, and can be according to user's by setting two sections of rotatable indoor sets Real needs, two sections of indoor sets is turned folding opposite to each other with concentrate efficiently blow or make the opposite liftoff rotation of two sections of indoor sets with A wide range of air-supply, so that its blowing range, which can carry out wide-angle regulation, carries out specific aim air-supply, and then make air-conditioner indoor wall The heat exchange efficiency of on-hook 1 in varied situations is improved, and enhances Consumer's Experience, and reduce energy consumption.

Fig. 2 is the schematic side elevation of air-conditioner indoor wall on-hook shown in Fig. 11.Referring to Fig. 2, more of the present utility model In embodiment, the first indoor set 10 has first lower turn for being connected to rotating shaft 11a on first at the top of it and being connected to its bottom Axle 11b, the first indoor set 10 is installed on wall, and allows the first indoor set 10 to be rotated with the movement of junction.Phase Ying Di, the second indoor set 20, which has, is connected to rotating shaft 22a and the second lower rotary shaft for being connected to its bottom on second at the top of it 22b, the second indoor set 20 is installed on wall, and allows the second indoor set 20 to be rotated with the movement of junction.Enter one Step ground, rotating shaft 11a on first, the first lower rotary shaft 11b, rotating shaft 22a and the second lower rotary shaft 22b is configured to make first jointly on second The indoor set 20 of indoor set 10 and second turns forward a default angle of inclination.Specifically, the angle of inclination is to the first indoor set With the second indoor set in the parallel state, the acute angle formed between its rear wall and metope.

Further, angle of inclination could be arranged to any angle between 10 ° to 30 °.For example, can be 12 °, 14 °, 16 °, 18 °, 20 °, 22 °, 24 °, 26 °, 28 ° etc..In some embodiments of the utility model, angle of inclination is preferably set For 20 °, to cause air-supply wind path to cover the height of general user zone of action, so as to realize optimal air-supply effect.

Further, the tie point of rotating shaft 11a and the first lower rotary shaft 11b respectively with the first indoor set 10 can be located on first In same perpendicular, it that is to say that two tie points connect the axis to be formed and the first indoor set 10 and the second indoor set 20 The axis that junction is formed is parallel.Correspondingly, on second rotating shaft 22a and the second lower rotary shaft 22b respectively with the second indoor set 20 Tie point may be alternatively located in same perpendicular, and two tie points connect the axis to be formed also with the first indoor set 10 and The axis that the junction of second indoor set 20 is formed is parallel.Thus, it is possible to make two indoor sets with the junction between it Movable rotation is more smooth, and reduces the requirement of the position relationship to upper rotating shaft and lower rotary shaft, simplifies its entirety Structure.

In some embodiments of the utility model, air-conditioner indoor wall on-hook 1 can also pass through rotating shaft 11a, first on first Lower rotary shaft 11b, rotating shaft 22a and the second lower rotary shaft 22b is fixed on wallboard 60 on second, and is further advanced by wallboard 60 It is arranged on metope, to ensure the complete of wall, and makes the installation of air-conditioner indoor wall on-hook 1 more firm.

Further, rotating shaft 22a can be configured to slightly longer than the first lower rotary shaft 11b and on rotating shaft 11a and second on first Two lower rotary shaft 22b, thus, when the first indoor set 10 and the second indoor set 20 set install after, its upper end can be located at its lower end Front side so that the air outlet being arranged on the preceding surface of indoor set slightly tilts down air-supply, it is easier to realize above-mentioned inclination Angle, so that the altitude range of its air-out wind path covering is more bonded User Activity region, and make its effective air supplying distance farther, And then further improve its heat exchange efficiency.

In some embodiments of the utility model, air-conditioner indoor wall on-hook 1 also includes connecting shaft component.Connecting shaft component With the first connecting shaft 31 and the second connecting shaft mutually fixed with the connection end of the first indoor set 10 and the second indoor set 20 respectively 32, and the first connecting shaft 31 and second connection end are rotationally coaxially disposed by adjustable spring 33.

Specifically, the bottom of the first connecting shaft 31 is connected with the top of adjustable spring 33, the bottom of adjustable spring 33 and the The top of two connecting shafts 32 is connected, so that the first indoor set 10 and the second indoor set 20 are pivotally connected by connecting shaft component.

It that is to say, the junction of the first indoor set 10 and the second indoor set 20 is formed by connecting shaft component.Connecting shaft component With two corresponding and at least partly symmetrical connecting shafts 32 of first connecting shaft 31 and second.By taking the first connecting shaft 31 as an example, It includes the main body of a rotating shaft shape, and from the week side of boss of the main body to the connecting portion extended laterally out, rotating shaft shape main body passes through The connecting portion is connected to the connection end of the first indoor set 10.Correspondingly, the connecting portion of the second connecting shaft 32 is to prolong round about Stretch, and be connected with the connection end of the second indoor set 20.Specifically, the rotating shaft shape main body of the first connecting shaft 31 and the second connecting shaft 32 With roughly the same size and dimension, and it is configured to be coaxially disposed one on the other, to form the first indoor set 10 and second Room The center of rotation of interior machine 20.

Further, the rotating shaft shape main body of the first connecting shaft 31 and the second connecting shaft 32 can be connected by an adjustable spring 33 Connect, thus can the first connecting shaft 31 and the second connection in rotation or moving process to the first indoor set 10 and the second indoor set 20 Issuable move radially is offset between axle 32, and then reduces and each rotating shaft and connection member manufacturing process are wanted Ask and manufacturing cost.

Further, because the support needed for the installation of the first indoor set 10 and the second indoor set 20 is mainly by about first Lower rotary shaft provides in rotating shaft and second, therefore the first connecting shaft 31, the second connecting shaft 32 and adjustable spring in connecting shaft component Interconnection between 33 simultaneously need not have excessive intensity, so as to make each connecting shaft caused damage in rotation or movement Consumption reduces, and it is more light convenient it is replaced the operation of installation.

Fig. 3 is the schematic plan according to the air-conditioner indoor wall on-hook 1 of the utility model one embodiment.Fig. 4 is root According to the schematic plan under 1 another state of air-conditioner indoor wall on-hook of the utility model one embodiment.Referring to Fig. 3 and Fig. 4, In some embodiments of the utility model, connecting shaft component, which has, to be arranged in the first connecting shaft 31 or the second connecting shaft 32, And the expansion link 34 not parallel with the axial direction of the first connecting shaft 31 or the second connecting shaft 32.Further, expansion link 34 is configurable Into can it is controlled stretching or withdrawal so that connection component is moved forward or rearward.

Specifically, expansion link 34, which can be configured to, is vertically disposed in the first connecting shaft 31 or the second connecting shaft 32, one End can be connected with the first connecting shaft 31 or the second connecting shaft 32, and its other end can be connected with wallboard 60.It that is to say, work as expansion link During 34 controlled stretching, its one end being connected with the first connecting shaft 31 or the second connecting shaft 32 is released forward, so that connecting shaft component Stress moves forward, thus, the connection end reach of the first indoor set 10 and the second indoor set 20.Now, due to the first indoor set 10 and second indoor set 20 be restricted to respectively on first between lower rotary shaft and on second between lower rotary shaft, it is located at connection end The free end of opposite end can be with moving, so that the first indoor set 10 and the second indoor set 20 are formed and folded back to front opening afterwards " v " shape, and then the blowing range of air-conditioner indoor wall on-hook 1 is greatly increased, not by flow-guiding structures such as the wind deflectors of air outlet Limitation, and improve its overall heat exchange efficiency.

Correspondingly, when 34 controlled retraction of expansion link, its one end being connected with the first connecting shaft 31 or the second connecting shaft 32 Withdraw backward, so that connecting shaft component stress is moved rearwards, thus, behind the connection end of the first indoor set 10 and the second indoor set 20 Move.Now, because the first indoor set 10 and the second indoor set 20 are limited on first between lower rotary shaft respectively and about second turns Between axle, it, which is located at the free end of the opposite end of connection end, to move forward therewith, so that the first indoor set 10 and the second indoor set 20 " ^ " shape of collapsed forward is formed, and then make it that the air-out direction of air-conditioner indoor wall on-hook 1 is more targeted, it is greatly enhanced and goes out Monsoon intensity and Local Heat Transfer efficiency.

Fig. 5 is the schematic diagram according to the heat-exchange system of air-conditioner indoor wall on-hook 1 of the utility model one embodiment.Referring to figure 5, in some embodiments of the utility model, air-conditioner indoor wall on-hook 1 also includes two heat exchangers, is respectively：It is arranged at The First Heat Exchanger 41 with first switch valve 71 of one indoor set 10 and be arranged at the second indoor set 20 with second switch Second heat exchanger 42 of valve 72.The heat exchanger 42 of First Heat Exchanger 41 and second is connected by pipeline with outdoor unit 80 respectively, with reality Now exchange heat.41 and second heat exchanger of First Heat Exchanger, 42 times water receivings that can be separately provided for collecting and discharging condensed water Disk.

Further, first switch valve 71 and second switch valve 72 be configured to can controllably and meanwhile connect, be respectively communicated with or Block simultaneously, to respectively allow for or prevent heat carrier to enter the heat exchanger 42 of First Heat Exchanger 41 and second.It that is to say, first is indoor 10 and second indoor set of machine, 20 respective heat exchanger can speed the heat exchange of interior according to the demand while startup optimization of user Efficiency, operation can also be respectively started to reduce energy consumption needed for work.

Specifically, first switch valve 71 and second switch valve 72 can be electric expansion valve, be controlled in order to which user realizes Operation., can be accordingly by remote control control, by when user only needs the first indoor set 10 to be freezed or heat work The first switch valve 71 of one indoor set 10 is opened, and the second switch valve 72 of the second indoor set 20 is closed, so that heat carries Body only flows to the heat exchanger that work is needed in the first indoor set 10.Certainly, user can also select machine 10 in first as needed First switch valve 71 close, the second switch valve 72 of the second indoor set 20 is only opened, so that the second indoor set 20 is individually carried out Exchange heat work.

In some embodiments of the utility model, air-conditioner indoor wall on-hook 1 also includes corresponding with two heat exchangers Two blower fans, it is respectively：It is arranged at the first blower fan of the first indoor set 10 and is arranged at the second blower fan of the second indoor set 20.Enter One step, the first blower fan and the second blower fan are configured to discriminably controlled unlatching, will be changed respectively caused by the first heat-exchange system Heat exchange Air blowing the first indoor set 10 and the second indoor set 20 caused by hot-air and the second heat-exchange system.

Further, the first indoor set 10 and/or the second indoor set 20 is only needed to be blown to keep indoor in user Air flow, when being exchanged heat without it, the first indoor set 10 and/or the second indoor set 20 can be air supply pattern.This When, the first corresponding blower fan of each indoor set and/or the second blower fan can also be activated individually when heat-exchange system does not work, so as to protect Demonstrate,prove the various use demands of user.

In some embodiments of the utility model, air-conditioner indoor wall on-hook 1 also includes at least two human body infrareds and sensed Device 50.The preceding surface of first indoor set 10 and the second indoor set 20 is respectively arranged with least one human body infrared sensing device further 50, to sense number of users, moving position and its shell temperature in the front region of air-conditioner indoor wall on-hook 1, thus air-conditioning Indoor wall hanging machine 1 can adjust wind direction by the position of user and quantity etc., and then can cause the first indoor set 10 and the Two indoor sets 20 can blow respectively according to the quantity and its active state of indoor user, so as to realize that higher efficiency exchanges heat.

In some embodiments of the utility model, air-conditioner indoor wall on-hook 1 also has human comfort intelligent control system System.Further, the indoor circumstance temperature and shell temperature and the people of user that the system can be obtained by human body infrared sensing device further 50 Number etc. Parameters Calculations go out corresponding human comfort index, and judge whether each user feels cold in current environment temperature, Heat feels comfortably cool.It should be noted that the general work principle on human comfort control system is people in the art Member is easier to obtain and known content, therefore repeats no more here.It is understood that mentioning hereinafter is felt not Comfortable user can be equal to the user for feeling cold heat.

Specifically, when human comfort control system judges thoughts in the front region of the first indoor set 10 to be only present to not relaxing During suitable user, air-conditioner indoor wall on-hook 1 correspondingly can only make that the first indoor set 10 starts refrigeration or heating mode is exchanged heat. Now, the second indoor set 20 can only open air supply pattern or standby not blow.It that is to say, the first Room of air-conditioner indoor wall on-hook 1 The interior indoor set 20 of machine 10 and second can operate independently from heating, freeze or air supply pattern.As a result, in segmented air conditioning chamber Wall hanging machine 1 can more be flexibly adapted to the demand of user, rapid to realize part targetedly to indoor offer heat exchange air Region exchanges heat, and improves the heat exchange efficiency of air-conditioner indoor wall on-hook 1, reduces its energy consumption.

Fig. 6 is the schematic flow according to the control method of the air-conditioner indoor wall on-hook of the utility model one embodiment Figure.Referring to Fig. 6, the utility model also provides a kind of control method of air-conditioner indoor wall on-hook, and the control method can be by take up an official post The air-conditioner indoor wall on-hook of one embodiment performs.Specifically, the control method includes：

Step S100, make the first indoor set and the second indoor set keeping parallelism, and make human body infrared sensing device with first The front region of angle scanning air-conditioner indoor wall on-hook.

Step S102, human comfort control system judge in the region and (that is to say, in the range of first angle) whether deposit Feeling the user of cold heat.

If so, step S124 is then performed, if it is not, then performing step S104.

Step S124, the first indoor set and/or the second indoor set correspondingly run refrigeration mode or heating mode.

Step S104, judges whether human body infrared sensing device further has completed multiple default scan periods；

If so, step S106 is then performed, if it is not, then continuing executing with step S102.

Step S106, expansion link forward extend out, and move forward the junction of the first indoor set and the second indoor set, so that The sensing range of human body infrared sensing device further increases to second angle.

Step S108, human comfort control system judge in the region and (that is to say, in the range of second angle) whether deposit Feeling the user of cold heat.

If so, step S124 is then performed, if it is not, then performing step S110.

Step S110, expansion link are retracted backward, are moved rearwards the first indoor set and the junction of the second indoor set, are reduced The scanning angle of human body infrared sensing device further.

Step S112, human body infrared sensing device further is during its sensing range is contracted to first angle, lasting scanning The front region of air-conditioner indoor wall on-hook, and judge to whether there is in the region by human comfort control system and feel cold/ The user of heat.

If so, step S124 is then performed, if it is not, then performing step S114.

Step S114, judges whether the sensing range of human body infrared sensing device further has been decreased to first angle；

If so, S116 is then performed, if it is not, then continuing executing with step S110.

Step S116, after the sensing range of human body infrared sensing device further is contracted to the process of first angle, human comfort Degree control system is judged in the region and (that is to say, in the range of first angle) with the presence or absence of the user for feeling cold heat.

If so, step S124 is then performed, if it is not, then performing step S118.

Step S118, air-conditioner indoor wall on-hook operation air supply pattern, human body infrared sensing device further continue to scan on.

Step S120, air-conditioner indoor wall on-hook bring into operation after air supply pattern, and whether human body infrared sensing device further has swept Retouch the first preset time.

If so, step S122 is then performed, if it is not, then continuing executing with step S118.

Step S122, air-conditioner indoor wall on-hook bring into operation after air supply pattern, if the user for feeling cold heat be present.

If so, step S124 is then performed, if it is not, then performing step S126.

Step S126, after air-conditioner indoor wall on-hook runs air supply pattern, it is useful whether human body infrared sensing device further scans Family activity.

If so, step S100 is then performed, if it is not, then performing step S128.

Step S128, air-conditioner indoor wall on-hook is standby, and human body infrared sensing device further continues to scan on.

Step S130, after air-conditioner indoor wall on-hook enters holding state, human body infrared sensing device further whether scanned the Two preset times.

If so, step S132 is then performed, if it is not, then continuing executing with step S128.

Step S132, after air-conditioner indoor wall on-hook enters holding state, it is useful whether human body infrared sensing device further scans Family activity.

If so, step S100 is then performed, if it is not, then air-conditioner indoor wall on-hook is shut down.

Specifically, when the first indoor set and the second indoor set be arranged in parallel, the scanning angle of human body infrared sensing device further For not less than 120 °.In step S104, default scan period and its scanning times can be set according to the demand of user, its The middle scan period can be 10 seconds, 1 minute, 15 minutes etc., and the number of scan period then can enter traveling one according to the duration in cycle Step ground is set, and in certain embodiments, in the step or detects whether to have completed once to preset the scan period.

In the step s 120, after air-conditioner indoor wall on-hook operation air supply pattern, human body infrared sensing device further continuous firing First preset time can be set according to the real needs of user and the particular condition in use of air-conditioner indoor wall on-hook, such as can Think 5 minutes, 10 minutes, 15 minutes etc..In step s 130, after air-conditioner indoor wall on-hook enters holding state, human body infrared Second preset time of sensing device further continuous firing can be according to the specifically used of the real needs of user and air-conditioner indoor wall on-hook Situation is set, such as can be 20 minutes, 30 minutes, 40 minutes etc..

It is understood that air-conditioner indoor wall on-hook operation air supply pattern can be the first indoor set and the in above-mentioned steps Two indoor sets run air supply pattern, or one of them operation air supply pattern, and another is holding state.Air-conditioner indoor wall is hung Machine refers to that the first indoor set and the second indoor set enter holding state into holding state, now, the first blower fan and the second wind Machine does not work.

It that is to say, in some embodiments of the utility model, control method may include, when human body infrared sensing device further sense Measure and user in the front region of the first indoor set and/or the second indoor set be present, and human comfort control system judges When it is the user to feel comfortably cool, then it is air supply pattern to make the first indoor set and the second indoor set.

Similarly, when in human body infrared sensing device senses to the front region of current first indoor set and the second indoor set User is not present, then it also can be air supply pattern to make the first indoor set and the second indoor set.

Further, after the first indoor set and the second indoor set holding air supply pattern persistently blow the first preset time, User is not present in the front region of the first indoor set and the second indoor set if still sensing, stops air-conditioner indoor wall on-hook Only blow, into holding state.After air-conditioner indoor wall on-hook enters the second preset time of holding state, if human body infrared senses Device, which still senses, is not present user in the front region of the first indoor set and the second indoor set, then air-conditioner indoor wall on-hook is closed Machine.

Thus, when there is User Activity interior or only the short time nobody when, air-conditioner indoor wall on-hook can only run air-supply mould Formula is effectively to maintain current indoor temperature, so as to avoid the energy that air-conditioner indoor wall on-hook uses because restarting repeatedly Consumption.

In some embodiments of the utility model, step S124 may include, when human body infrared sensing device senses to User in the front region of one indoor set and the second indoor set be present, and human comfort control system judges an only side region It is interior exist feel cold/user of heat when, then it be refrigeration mode or heating mode to make the indoor set positioned at the side, makes to be located at another The indoor set of side is air supply pattern.

It that is to say, the first indoor set and the second indoor set in step S124 can run refrigeration mode or heating mould simultaneously Formula, it can be also separately operable according to the scanning result of human body infrared sensing device further.For example, when human body infrared sensing device further is only the Scanning then can only start the first indoor set fortune to having users according to user's particular state in the front region of one indoor set Row refrigeration mode/heating mode or air supply pattern.Certainly, now the second indoor set can also be sent according to user's request, together operation Wind pattern, to promote indoor air flows, improve heat exchange efficiency.

In some embodiments of the utility model, step S124 also includes feeling when human comfort control judgement has In the presence of the user of cold heat, it determines whether the quantity for feeling the user of cold heat.Yet further, human comfort can be passed through Degree control system judges the comfort level of several users.

It that is to say, air-conditioner indoor wall on-hook of the present utility model can be different according to number of users and its active state operation Mode of operation.

In some embodiments of the utility model, air-conditioner indoor wall on-hook can be configured to, and be when human comfort controls System detect it is several be located at when feeling uncomfortable user of diverse location, first against the user of close air-conditioner indoor wall on-hook Air-supply.If several when feeling that uncomfortable user is identical with the distance of air-conditioner indoor wall on-hook, preferentially to feeling least comfortable User blown.Specifically, the comfort level of each user can judge that evaluation produces by human comfort control system, The general work principle of comfort level evaluation is that those skilled in the art are easier acquisition and known content, therefore here Repeat no more.

Fig. 7 is that control method is shown under the refrigeration mode according to the air-conditioner indoor wall on-hook of the utility model one embodiment Meaning property flow chart.Fig. 8 is another indicative flowchart of control method under refrigeration mode shown in Fig. 7.Specifically, in air conditioning chamber Wall hanging machine is in when being controlled by human comfort control system, when human body infrared sensing device further detects current indoor environment temperature During more than default first comfort temperature, then can determine that need to run refrigeration mode, when detecting that current indoor environment temperature is less than During default second comfort temperature, then can determine that needs to run heating mode.It is in air-conditioner indoor wall on-hook and is passed through by user When input directly controls, then different patterns can be run according to the control instruction that the input is sent.

Further, the first comfort temperature can be 26 DEG C to 28 DEG C between arbitrary temp value, such as can be 26 DEG C, 26.5 DEG C, 27 DEG C, 27.5 DEG C and 28 DEG C etc..Second comfort temperature can be the arbitrary temp value between 21 DEG C to 23 DEG C, such as It can be 21 DEG C, 21.5 DEG C, 22 DEG C, 22.5 DEG C and 23 DEG C etc..In some embodiments of the utility model, the first comfort temperature It preferably it is 27 DEG C, the second comfort temperature is preferably 22 DEG C, so that temperature is not suitable for user indoors for air-conditioner indoor wall on-hook When movable, the corresponding heat exchange pattern of operation in time, user is avoided not feel well, and air-conditioner indoor wall on-hook can be reduced to greatest extent Operating power consumption, both will not prematurely run increase energy consumption, or make it that air-conditioner indoor wall on-hook needs to run higher for operation too late Power or longer time are exchanged heat with realizing.

Referring to Fig. 7, in cooling mode, control method also includes：

Step S300, judge whether to feel not relax by human body infrared sensing device further and human comfort control system The user of suitable (that is to say, feel cold or feel hot).

If so, step S302 is then performed, if it is not, then performing step S312.

Step S312, expand the scanning range of human body infrared sensing device further.

Step S302, judgement feel whether uncomfortable user is only a people.

If so, step S314 is then performed, if it is not, then performing step S304.

Step S314, wind pushing temperature and air quantity are adjusted for a user.

Step S304, human comfort control system judge whether the user for feeling cold and feeling heat both be present, and simultaneously In the presence of the user to feel comfortably cool.

If so, step S316 is then performed, if it is not, then performing step S306.

Step S316, increase air-out volume, heighten design temperature, avoid creeping chill user and comfortable user, to thermal sensation user Around blowing.

Step S306, human comfort control system judge whether to only exist the user for feeling cold and feeling heat.

If so, step S318 is then performed, if it is not, then performing step S308.

Step S318, reduce air-out volume, heighten design temperature, avoid creeping chill user, to thermal sensation user around blowing.

Step S308, human comfort control system judge whether to only exist the user for feeling heat and feeling comfortably cool.

If so, step S320 is then performed, if it is not, then performing step S310.

Step S320, increase air-out volume, turn down design temperature, avoid comfortable user, to thermal sensation user around blowing.

Step S310, reduce air-out volume to minimum, heighten design temperature, uniform air-out.

Wherein, referring to Fig. 8, in step S314, in cooling mode, wind pushing temperature and air quantity are adjusted for a user Control method can further include：

Step S402, human comfort control system judge whether the user feels cold.

If so, step S310 is then performed, if it is not, then performing step S404.

Step S404, increase air-out volume, turn down design temperature, to the user around blowing.

Specifically, the increase in control method or reduce air outlet air quantity and refer to air-out volume heightening one grade or turn down one Shelves, air-conditioner indoor wall on-hook can have multiple air-out gears, and each grade of air-out volume may correspond to the different works of blower fan The rate of doing work.Heighten or turn down design temperature refer to design temperature to be heightened or turned down a preset temperature it is poor so that air-conditioner indoor wall The leaving air temp of on-hook is correspondingly risen or fallen, and the preset temperature difference can be set according to the real needs of user, such as It can be 0.5 DEG C, 0.7 DEG C, 0.9 DEG C, 1 DEG C, 2 DEG C etc..

In above-mentioned steps, the specific behaviour of the expansion scanning range in step S312 (and the step S512 below related to) Make to be the scan operation being related in one or many abovementioned steps S106 and step S108, it can also further comprise one Secondary or multiple abovementioned steps S110 is to the scan operation in step 118.

Further, the wind-guiding that above-mentioned steps middle ring refers to set on the first air outlet and/or the second air outlet around air-out Plate is rotated so that its air-out direction to be guided to the week side of boss to a certain position or several users, such as can be respectively to a certain position user's Left side, top and right side air-supply, or respectively the left side of from the leftmost side user to a few users, the right side of rightmost side user and The top air-supply of this several users.Uniform air-out refers to that wind deflector is opened completely so that the air-out area of air outlet reaches maximum Ground to indoor air-supply, thus make the temperature of each position in the air-out region that air-conditioner indoor wall on-hook covered synchronously rise or under Drop, to meet the heating of user positioned at indoor each position or the needs of cooling.

Fig. 9 is that control method is shown under the heating mode according to the air-conditioner indoor wall on-hook of the utility model one embodiment Meaning property flow chart.Figure 10 is another indicative flowchart of control method under heating mode shown in Fig. 9.

Referring to Fig. 9, in a heating mode, control method also includes：

Step S500, judge whether to feel not relax by human body infrared sensing device further and human comfort control system The user of suitable (that is to say, feel cold or feel hot).

If so, step S502 is then performed, if it is not, then performing step S512.

Step S512, expand the scanning range of human body infrared sensing device further.

Step S502, judgement feel whether uncomfortable user is only a people.

If so, step S514 is then performed, if it is not, then performing step S504.

Step S514, wind pushing temperature and air quantity are adjusted for a user.

Step S504, human comfort control system judge whether the user to feel cold.

If so, step S516 is then performed, if it is not, then performing step S506.

Step S516, increase air-out volume, heighten design temperature, avoid thermal sensation user and/or comfortable user, used to creeping chill Family is around blowing.

Step S506, reduce air-out volume to minimum, turn down design temperature, uniform air-out.

Wherein, referring to Figure 10, in step S514, in a heating mode, wind pushing temperature and wind are adjusted for a user The control method of amount can further include：

Step S602, human comfort control system judge whether the user feels cold.

If so, step S604 is then performed, if it is not, then performing step S506.

Step S604, increase air-out volume, heighten design temperature, to the user around blowing.

Step S300 to step S310 and step S500 to step S506 can be the tool in abovementioned steps S124 jointly Body operating method.

In air-conditioner indoor wall on-hook control method of the present utility model by adjusting the comfort level of creeping chill user first, then The comfort level of other users is adjusted again, so as to avoid " air conditioner disease " etc. the uncomfortable situation of user can be caused to occur, greatly enhanced User uses the comfortableness of air-conditioner indoor wall on-hook.

In some embodiments of the utility model, air-conditioner indoor wall on-hook can also be control manually.Controlling manually Under pattern, user controls air-conditioner indoor wall on-hook by inputs such as remote controls, when receiving using the first indoor set and/or the After the control instruction that two indoor sets are blown or exchanged heat, air-conditioner indoor wall on-hook directly runs the work that the control instruction is included Operation mode, the mode of operation are related to the regulation of air-out volume size, the regulation of design temperature height and the change of air-out wind direction Deng.

Air-conditioner indoor wall on-hook of the present utility model can automatically be switched different air-supplies and be changed by above-mentioned control method Heat pattern, very strong specific aim is respectively provided with so that either running refrigeration mode and still running heating mode, and then improved The heat exchange efficiency of air-conditioner indoor wall on-hook, has saved the energy consumption of its work.

So far, although those skilled in the art will appreciate that herein it is detailed have shown and described it is of the present utility model more Individual exemplary embodiment, still, still can be public according to the utility model in the case where not departing from the spirit and scope of the utility model The content opened directly determines or derived many other variations or modifications for meeting the utility model principle.Therefore, this practicality is new The scope of type is understood that and regarded as to cover other all these variations or modifications.

Claims (7)

1. a kind of air-conditioner indoor wall on-hook, including：

Offered respectively on the preceding surface of first indoor set and the second indoor set, first indoor set and second indoor set First air outlet and the second air outlet, and be configured to controlled to open at the same time or separately, to allow first indoor set and institute The second indoor set is stated to blow to its front；Wherein,

First indoor set and second indoor set are transversely arranged side by side, and the two adjacent connection end rotationally phase Connect；And

First indoor set and second indoor set are configured to, and the junction of the connection end of the two can controllably forward Or be moved rearwards, and drive first indoor set and second indoor set to be rotated by axle synchronous backward of the junction, So that the free end of first indoor set and second indoor set relative to junction its described synchronously posteriorly or anteriorly It is mobile.

2. air-conditioner indoor wall on-hook according to claim 1, wherein,

First indoor set has the first lower rotary shaft for being connected to rotating shaft on first at the top of it and being connected to its bottom, general First indoor set is installed on wall, and allows first indoor set to be rotated with the movement of the junction；And

Machine has the second lower rotary shaft for being connected to rotating shaft on second at the top of it and being connected to its bottom, general in the second Room Second indoor set is installed on wall, and allows second indoor set to be rotated with the movement of the junction；And

Rotating shaft on described first, first lower rotary shaft, on described second rotating shaft and the second lower rotary shaft be configured to make jointly it is described First indoor set and second indoor set turn forward a default angle of inclination.

3. air-conditioner indoor wall on-hook according to claim 1, in addition to：

Connecting shaft component, it has what is mutually fixed with the connection end of first indoor set and second indoor set respectively First connecting shaft and the second connecting shaft, and first connecting shaft and the second connection end are rotationally same by adjustable spring Axle is set；Wherein,

The bottom of first connecting shaft is connected with the top of the adjustable spring, and the bottom of the adjustable spring is connected with second The top of axle is connected, so that first indoor set and second indoor set are pivotally connected by the connecting shaft component.

4. air-conditioner indoor wall on-hook according to claim 3, wherein,

The connecting shaft component, which has, to be arranged in first connecting shaft or second connecting shaft, and is connected with described first The not parallel expansion link in the axial direction of axle or second connecting shaft；And

The expansion link is configured to controlled to stretch out or withdrawal is so that the connection component is moved forward or rearward.

5. air-conditioner indoor wall on-hook according to claim 1, in addition to：

It is arranged at the First Heat Exchanger with first switch valve of first indoor set and is arranged at second indoor set The second heat exchanger with second switch valve；Wherein

The first switch valve and the second switch valve are configured to controllably while to connect, be respectively communicated with or block simultaneously, To respectively allow for or prevent heat carrier to enter the First Heat Exchanger and second heat exchanger.

6. air-conditioner indoor wall on-hook according to claim 5, in addition to：

It is arranged at the first blower fan of first indoor set and is arranged at the second blower fan of second indoor set；Wherein

First blower fan and second blower fan are configured to discriminably controlled unlatching, respectively to produce the First Heat Exchanger First indoor set and second indoor set described in heat exchange Air blowing caused by raw heat exchange air and second heat exchanger.

7. air-conditioner indoor wall on-hook according to claim 1, in addition to：

At least two human body infrared sensing device furthers, and the preceding surface of first indoor set and second indoor set is set respectively Have at least one human body infrared sensing device further, with sense the number of users in the air-conditioner indoor wall on-hook front region, Position distribution and the shell temperature of each user.