CN209414223U - A kind of fan, fan remote controller and fan system - Google Patents

Abstract

This specification embodiment provides a kind of fan, fan remote controller and fan system, wherein the fan includes: touch panel, for detecting touching position information of the user on the touch panel；Processing component is connect with the touch panel, and the touching position information for being sent according to the touch panel obtains corresponding swaying angle information；Yaw controls motor, connect with the processing component, and the swaying angle information for being sent according to the processing component controls oscillating fan.

Description

A kind of fan, fan remote controller and fan system

Technical field

This disclosure relates to intelligent appliance technical field, in particular to a kind of fan, fan remote controller and fan system.

Background technique

Current common oscillating fan control mode is that user can mention button by fan rear, pulls up this and mentions button, wind Fan is dried with regard to fixed angle, is no longer rotated；When pressing this and mentioning button, fan begins to yaw, but this yaw is at one (for example, 30 degree to 120 degree angular interval) swings back and forth in fixed polarizers of big angle scope, once the angle model after yaw It is constant for enclosing.The control mode of this oscillating fan, it will usually have the following disadvantages: that user needs to wait oscillating fan to certainly Orientation where oneself, could be blown to by fan, and user can have found that the angle of only one very little of fan turn great circle ability can be blown to Oneself.

Utility model content

In view of this, this specification one or more embodiment provides a kind of fan, fan remote controller and fan system, with So that more flexible to the control of oscillating fan angle.

Specifically, this specification one or more embodiment is achieved by the following technical solution:

In a first aspect, providing a kind of fan, the fan includes:

Touch panel, for detecting touching position information of the user on the touch panel；

Processing component is connect with the touch panel, and the touching position information for being sent according to the touch panel obtains Take corresponding swaying angle information；

Yaw controls motor, connect with the processing component, the swaying angle letter for being sent according to the processing component Breath control oscillating fan.

Second aspect, provides a kind of fan remote controller, and the fan remote controller includes:

Touch panel, for detecting touching position information of the user on the touch panel；

Communication component is connect with the touch panel, for according to the touching position information, Xiang Suoshu fan to send touching The corresponding fan control information of location information is touched, so that fan controls oscillating fan according to the fan control information.

The third aspect, provides a kind of fan system, and the fan system includes: fan and fan control apparatus；

The fan control apparatus includes touch interface, for that will be believed by the position of touch that the touch interface detects Breath is sent to fan；

The fan is used for according to the position of touch information acquisition swaying angle information, and according to swaying angle information Control oscillating fan.

Fourth aspect, provides a kind of fan, and the fan includes:

Touch panel, for detecting touching position information of the user on the touch panel；

Processing component is connect with the touch panel, and the touching position information for being sent according to the touch panel obtains Take corresponding flabellum rotating speed data；

Motor is controlled, is connect with the processing component, the flabellum rotation speed letter for being sent according to the processing component Breath control flabellum rotation.

5th aspect, provides a kind of fan remote controller, the fan remote controller includes:

Touch panel, for detecting touching position information of the user on the touch panel；

Communication component is connect with the touch panel, for according to the touching position information, Xiang Suoshu fan to send touching The flabellum rotating speed data for touching location information or corresponding touching position information, so that fan is believed according to the touch location The flabellum rotation speed of breath or flabellum rotating speed data control fan.

Fan, fan remote controller and the fan system of this specification one or more embodiment, by fan or wind Increase touch panel, and the touching position information acquisition pair detected by processing component according to touch panel in fan control equipment The swaying angle information answered carries out oscillating fan control according to the swaying angle information by yaw control motor, so that user can More freely and flexibly to carry out touch control according to the blowing angle range oneself wanted by touch panel.

Detailed description of the invention

In order to illustrate more clearly of this specification one or more embodiment or technical solution in the prior art, below will A brief introduction will be made to the drawings that need to be used in the embodiment or the description of the prior art, it should be apparent that, it is described below Attached drawing is only some embodiments recorded in this specification one or more embodiment, and those of ordinary skill in the art are come It says, without any creative labor, is also possible to obtain other drawings based on these drawings.

Fig. 1 is a kind of structural schematic diagram for fan that at least one embodiment of this specification provides；

Fig. 2 is a kind of structural schematic diagram for touch panel that at least one embodiment of this specification provides；

Fig. 3 is the structural schematic diagram for another touch panel that at least one embodiment of this specification provides；

Fig. 4 is a kind of application scenarios for fan that at least one embodiment of this specification provides；

Fig. 5 is that schematic diagram is arranged in a kind of illuminating module that at least one embodiment of this specification provides；

Fig. 6 is the structural schematic diagram for another fan that at least one embodiment of this specification provides；

Fig. 7 is the flow chart for the one mode storage that at least one embodiment of this specification provides；

Fig. 8 is the flow chart that the one mode that at least one embodiment of this specification provides is called；

Fig. 9 is a kind of structure for fan remote controller that at least one embodiment of this specification provides；

Figure 10 is a kind of scene for remote control control oscillating fan that at least one embodiment of this specification provides；

Figure 11 is a kind of structural schematic diagram for fan system that at least one embodiment of this specification provides；

Figure 12 is the structural schematic diagram for another fan that at least one embodiment of this specification provides.

Specific embodiment

In order to make those skilled in the art more fully understand the technical solution in this specification one or more embodiment, Below in conjunction with the attached drawing in this specification one or more embodiment, to the technology in this specification one or more embodiment Scheme is clearly and completely described, it is clear that and described embodiment is only this specification a part of the embodiment, rather than Whole embodiments.Based on this specification one or more embodiment, those of ordinary skill in the art are not making creativeness The range of disclosure protection all should belong in every other embodiment obtained under the premise of labour.

Embodiment one

Fig. 1 illustrates a kind of structural schematic diagram of fan, as shown in Figure 1, the fan may include: touch panel 11, deposit Reservoir 12, controller 13 and yaw control motor 14.Wherein, the memory 12 and controller 13 are properly termed as processing group Part, in addition, in other examples, processing component can be a chip or multiple chips in hardware realization, not to this It is limited.In this example and subsequent other examples, retouched by taking the processing component that memory and controller are realized as an example It states, however, it is not limited to this.

Wherein, touch panel 11 can be used for detecting touching position information of the user on the touch panel.The touch-control The implementation of panel 11 includes but is not limited to optical touch control panel, as long as touch position of the user on touch panel can be detected It sets.

In one example, as shown in Fig. 2, can have a touch trajectory line 21, the touch trajectory on touch panel 11 Line 21 can be to be formed by multiple 22 continuous arrangements of sensor.Each sensor 22 can correspond to certain angular range, institute It is the swaying angle range of fan that the angular range stated is corresponding.For example, corresponding 10 degree of the swaying angle area of each sensor 22 Between.As shown in Fig. 2, multiple sensors 22 can be corresponding in turn to " 10 degree to 20 degree ", " 20 degree to 30 degree " angularly range.With right For the sensor for answering " 10 degree to 20 degree " range, if user touches the sensor, indicate that user will control fan 10 Degree to yaw in the range of 20 degree is blown.

The corresponding angular range of each sensor 22 can change, for example, can corresponding 20 degree of the angle of each sensor 22 Range is spent, alternatively, corresponding 5 degree of the angular range of each sensor 22.

In other examples, the shape of touch trajectory line 21 is not necessarily arc shown in Fig. 2, can also be other shapes Shape, for example, it may be the touch trajectory line 21 of straight line shape, as shown in Figure 3.No matter the touch trajectory line 21 of which kind of shape, Each sensor 22 can correspond to certain angular range.In addition, the shape of touch panel 11 be also not limited to it is shown in Fig. 2 Circle, for example, can also be rectangular, ellipse etc..

It can store the corresponding relationship between touching position information and swaying angle information in memory 22.The touch Location information can be intended to indicate that user touches the information of which sensor.For example, can wrap in the touching position information The mark for including sensor identification and whether being touched, illustratively, touching position information may include " A, 11 ", wherein A table Show sensor identification A, 11 indicate that the sensor is touched.The above-mentioned corresponding relationship stored in memory 22, it is each for recording The corresponding angular range of sensor.As the following table 1 illustrates the corresponding relationship in a kind of memory 22:

1 corresponding relationship of table

Sensor identification	Angular range (swaying angle information)
		A	10 degree to 20 degree
B	20 degree to 30 degree
		….	….

Illustrate a kind of course of work of the fan of structure shown in Fig. 1 as follows:

Incorporated by reference to referring to fig. 4, Fig. 4 illustrates the application scenarios of a fan.Touch panel 11 can be set at fan bottom The position of plate, such as the position 41 in Fig. 4, alternatively, touch panel can also be arranged in the rear portion of fan if it is stand fan The position 42 on top.Certainly, in specific implementation, touch panel is not intended to limit in the setting position of fan.In the scene, with circle Touch panel for, and by the panel be arranged at position 41 for.It is also possible that touch panel 11 can be flat with ground Row setting, and on panel multiple sensors arrangement the touch trajectory line be in the consistent arc in oscillating fan track, this Kind mode can make user's touch-control more intuitive when using.For example, if arc it is consistent with the practical yaw track of fan and It is parallel to the ground, then user can touch the track of the corresponding position according to the position shared by oneself.

Continuing with referring to fig. 4 and Fig. 2, it is assumed that user 43 is when setting out in advance to make arrangements in 10 degree to 20 degree of position of fan.

Firstly, user 43 can use hand to touch touch panel 41, and the touch trajectory line 21 on the touch-control panel.Assuming that with Touch range of the family in trajectory line has covered sensors A, which will can detecte and receive the touch of user.

Then, sensor can send touching position information to controller 13, for example, can wrap in the touching position information Include sensor identification A and the mark touched 11.

Then, it after controller 13 receives the touching position information, can be closed by the corresponding of look-up table 1 in memory 12 System, obtains angular range corresponding with touching position information, which is properly termed as swaying angle information.Such as, the yaw Angle information can be 10 degree to 20 degree.In addition, it should be noted that, the swaying angle information, controller is to yaw control Motor processed send such as the swaying angle information in table 1, be not necessarily 10 degree to 20 degree as angle values, and can be and be used for The some motor operation control parameters for controlling yaw control motor rotary head in the angular range, for example, if by these Parameter is sent to motor, so that it may so that the rotary head within the scope of 10 degree to 20 degree of motor control fan.But, in order to enable more holding It is easily intuitive understand, it is described for the time being with angle value.

Finally, swaying angle information can be sent to yaw control motor 14 by controller 13, motor 14 is controlled by yaw Control fan yaw in the range of 10 degree to 20 degree is blown.

In addition, touch range of the user in trajectory line may cover two sensors in actual implementation, for example, with Family touches 15 degree to 25 degree of range, which covers sensors A and sensor B, then controller 13 can be according to this Two sensors, 10 degree to 30 degree yaws of corresponding angular range in total.

For another example, user can also be has put in trajectory line, can also be according to the touch point institute there is no sliding The sensor of covering obtains corresponding angular range, for example, the single corresponding angular range very little of sensor (e.g., 5 degree), that Controller can be fixed on an angle according to the angular range of the very little, for example, the position of 5 degree or 3 degree can be fixed on It sets.In this case, such as under type " A-5 degree ", " AB-0 degree is to 10 degree " can be set into the corresponding relationship of table 1, i.e., if connect There was only A in the touching position information received, can be fixed according to the blowings of 5 degree fixed angles similar to single-point, at this time controller to The swaying angle information that motor is sent is 5 degree.If in the touching position information received while including A and B, indicate that user is In sliding trace line, it is desirable to be a yaw range, then can be according to 0 to 10 degree yaw blowing.As above only example, can be with Corresponding relationship is independently set according to business demand to realize different function.

The fan of this example by increasing a touch panel in fan, and touch panel is connected with processing component Get up, processing component can be enabled to obtain corresponding swaying angle according to the touching position information that touch panel detects and believed Breath, and then the yaw that can be connected by processing component controls motor to control oscillating fan according to swaying angle information.It is above-mentioned The connection relationship of (touch panel, processing component and motor), makes it possible to user in touch panel side between this various components Touch operation, the parameter for controlling yaw motor operation is converted into, so that motor can control fan according to user The instruction of touch carries out yaw, realizes the touch control mode to oscillating fan.For example, if user wants fan at 30 degree Yaw in the range of to 40 degree touches as long as being corresponded in the angular range on touch trajectory line；For another example, user may be used also To touch in the range of the touch trajectory line in the orientation locating for face oneself, control fan is put in the angular range of face oneself Head, so that the control to swaying angle is more flexible.

In addition it is also necessary to which explanation is, on the one hand, in being sequentially connected for above-mentioned touch panel, processing component and motor In structure, touch panel transmits a detection signal to processing component, and triggering processing component transmits an operation control to motor Parameter, i.e., controllable motor are run according to the instruction of touch panel, and fast and easy is higher to the efficiency of oscillating fan control.Separately On the one hand, this touch control mode can satisfy user to a variety of demands of oscillating fan angle, allow user autonomous Oscillating fan angle is controlled, it is more flexible；Moreover, for example, the touch trajectory line when touch panel is consistent with oscillating fan track , will be more intuitive and when parallel to the ground, higher touch accuracy can be obtained.

Embodiment two

This example increases on fan and lights function on touch trajectory line.The trajectory line range that user is touched carries out It shines and lights, the more intuitive angular range for seeing oneself touch control of user can be made.

It is shown in Figure 5, it can also be arranged by taking the touch trajectory line of arc as an example, on touch panel along the touch-control rail Multiple illuminating modules 51 of trace, the illuminating module 51 can be LED light.Also, multiple illuminating module 51 can with it is multiple The setting position of sensor 22 is corresponding.For example, as shown in figure 5, can the top of sensor be arranged a LED light, or It can also be arranged along the side of touch trajectory line.The illuminating module 51 is corresponding with the setting position of sensor 22, refers to Be position that the illuminating module lighted can be identified for that sensor so that when user touches the somewhere position of trajectory line When, the LED light of the corresponding position is lighted, so that user intuitively sees which position range for oneself touching trajectory line.

The lighting mode of the illuminating module 51 can there are many, two kinds of ignitions of following example:

For example, can produce one when sensor detects user's touch sensor and light trigger signal.This lights triggering Signal can be transmitted to illuminating module, and triggering illuminating module is lighted.The corresponding fan structure of this ignition is to sense Device can be directly connected to illuminating module, and what sensor generated, which lights trigger signal, can be directly transferred to illuminating module and carry out a little It is bright.

In another example when sensor detects user's touch sensor touching position information can be sent to controller.The control When device processed receives touching position information, know that the sensor is touched, then the illuminating module of the available correspondence sensor, And trigger signal is lighted to illuminating module transmission, triggering illuminating module is lighted.Wherein, the controller is to luminous mould Group, which is sent, lights trigger signal, including controller directly lights trigger signal to illuminating module transmission, also passes through including controller Other assemblies light trigger signal to illuminating module transmission.The corresponding fan structure of this ignition is that sensor can lead to Controller connection illuminating module is crossed, alternatively, sensor can be connected to illuminating module by controller and other assemblies.

Only two illustrative examples as above, it is not limited to this in specific implementation, it can be more with flexible setting in fan The connection structure of seed type, as long as corresponding illuminating module can be lighted when sensor detects that user touches.Connection Structure is different, and the circuit configurations of inter-module also accordingly can be different.

In addition, multiple illuminating modules such as LED light can be continuous setting, it is also possible to discrete setting.Illuminating module Shape does not also limit, for example, it may be round, rectangular, heart-shaped etc..

Embodiment three

In this example, fan can also support the customized blowing mode of user.

In actual use, user may generate following demand: the fan in family wants to fix at home Some position can be dried when fan is swung within the scope of 10 degree to 30 degree with face bedroom.When fan is in 60 degree to 80 degree models When enclosing interior swing, it can be dried with face parlor.User wishes that the two angular ranges can be fixed up by storage, and next time opens It can directly be enabled when fan, without resetting every time, to provide better user experience.

In order to meet above-mentioned user demand, as shown in fig. 6, mode trigger assembly 15 is increased in the fan, the mode Trigger assembly 15 is connect with controller 13.It should be noted that the example in Fig. 6, it is shown that mode trigger assembly 15 is independent It except touch panel 11, but is not limited thereto in actual implementation, for example, a mould can be increased on touch panel 11 Formula trigger assembly 15, the mode trigger assembly being arranged on the panel can receive user and stored by the mode that touch manner is sent Triggering.

For trigger assembly 15 is the physical button on fan in mode, for example, multiple physical buttons are provided on fan, Including key T1, key T2 and key T3.Each key can be known as a mode trigger assembly, and each key can be right A mode Mode is answered, which can be indicated with a pattern identification, for example, key T1 associative mode Mode1, key T2 Associative mode Mode2.User can carry out the storage of mode by pressing the physical button.

Following example one carries out the process of mode storage and mode invocation by above-mentioned physical button, needs to illustrate It is the process of the mode storage or calling, is to describe these in fan on the basis of fan structure shown in Fig. 6 Implementation pattern how is cooperated to store and call between component (e.g., mode trigger assembly, controller etc.), it is clearer to describe these Circuit configurations between component, the signal transmission between them.

Mode storage

Fig. 7 illustrates the process of mode storage, and when user wants to store some mode, the stream can be used Journey.As shown in fig. 7, the process may include:

In step 700, mode trigger assembly receives user and presses the mode storage triggering sent.

For example, user can be above-mentioned with long-pressing key T1 illustratively can grow and temporally reach 2 seconds or more, then key T1 can receive mode storage triggering, that is, know that user wants one mode of storage.

User wants the mode of storage, can be current fan-status.For example, user passes through the touch surface on fan Plate selection is provided with one 10 degree to 20 degree of swaying angle.So, when user has sent mode storage triggering, show that user thinks This angle is stored, and desired that the angle is corresponding with key T1 foundation, so that subsequent can be direct by pressing T1 Control the angle yaw that fan enables 10 degree to 20 degree.

In a step 702, mode trigger assembly is stored according to the mode and is triggered, and is referred to controller sending mode storage Show.The information format specifically indicated, this example without limitation, indicate for example, can be stored with 000111 intermediate scheme.The mould Formula storage instruction is used to indicate the operation that controller executes Mode storage.

In step 704, controller is stored according to the mode and is indicated, obtains current swaying angle information.

For example, controller can check that the swaying angle information used when forefan is 10 degree to 20 degree.Wherein, controller Know current angular mode can also there are many, for example, controller can obtained according to touch panel touch location letter When swaying angle information is sent to yaw control motor by breath, the swaying angle information is recorded, alternatively, can also be by memory The correspondence setting of the swaying angle information of middle enabling is using mark.

In step 706, the corresponding relationship of controller storage swaying angle information and mode trigger assembly.

For example, controller can store the corresponding relationship of key T1 associative mode Mode1 and swaying angle information, such as " Mode1 --- 10 degree to 20 degree ".When key T1 is stored to controller sending mode to be triggered, it is corresponding that key T1 can be carried Pattern identification Mode1, allow controller that fan current state and Mode1 are directly established corresponding relationship.

In addition, other current status informations of fan and Mode1 can also be established corresponding relationship by controller, for example, can To include the current wind-force information of fan.

One usage scenario of example: it is 10 degree to 20 degree that angular range, which is arranged, by the touch panel on fan in user, control Fan processed yaw in the range of this 10 degree to 20 degree, and face parlor.Also, it is level-one gentle breeze that user, which is also provided with wind-force,. Then, the key T1 on user's long-pressing fan, triggering key T1 are stored to controller sending mode and are indicated.Controller refers to according to this Show, obtains the current state " 10 degree to 20 degree of swaying angle information, wind-force level-one " of fan, these information and Mode1 are established Corresponding relationship can store into memory, complete the storage of Mode1 mode.The storage of other modes similarly, repeats no more.

Mode invocation

Fig. 8 illustrates the process of a mode invocation, can before user wants to enable when some mode of storage To use the process.As shown in figure 8, the process may include:

In step 800, mode trigger assembly receives user and presses the mode invocation triggering sent.

For example, user can be with short-press key T1, then key T1 can receive mode invocation triggering, indicate that user wants to adjust With the corresponding fan-status of the T1.

In addition, in order to enable user is more convenient to know whether some key has stored mode, it can also be in fan It is upper to increase an indicator light below the key.If mode storage has been carried out in the key, can be on fan The indicator light is lighted after electricity, can be lighted by controller.If the key not yet carries out mode storage, indicator light may be at extinguishing State.User so directly can carry out mode invocation by the short-press key when the indicator light for seeing some key is lighted；If User has found that the indicator light of some key is in OFF state, can know that the key not yet carries out mode storage, can be with long-pressing To trigger mode storage.

As above it is a kind of mode of example, is not limited thereto in actual implementation.

In step 802, mode trigger assembly is triggered according to the mode invocation, is referred to controller sending mode calling Show.Calling instruction is used to indicate the state stored in controller control fan enabling mode.

In step 804, controller is indicated according to the mode invocation, obtains the swaying angle of associative mode trigger assembly Information.If there are also other information such as wind-force information, can obtain together.

In step 806, controller by swaying angle information be sent to yaw control motor, by yaw control motor according to Angle carries out yaw control.

Still exemplified by Fig. 7 for usage scenario, when user stores Mode1 and " 10 degree to 20 of swaying angle information After the corresponding relationship of degree, wind-force level-one ", user's short-press key T1, T1 can be called to controller sending mode and be indicated, be carried Mode1.Controller inquires the corresponding relationship of storage accordingly, obtain corresponding Mode1 " 10 degree to 20 degree of swaying angle information, wind Power level-one ".Then, swaying angle information can be sent to yaw control motor by controller, and the information of wind-force level-one is sent out Give wind control component.User it is seen that, behind short-press key 1, fan just enables 10 degree to 20 degree of yaw angle Range is spent, and with the blowing of level-one wind-force.User is very convenient there is no need to reset again.

Example IV

Fan not only can also receive the control of fan control apparatus, example with states such as autonomous control yaw and wind-force Such as, user can be by remote control control fan, or can also control fan by mobile phone.

As follows by taking fan remote controller as an example, how description user, which passes through remote control control fan, is adjusted the angle.

Fig. 9 illustrates a kind of structure of fan remote controller, as shown in figure 9, the fan remote controller may include: to be connected Touch panel 91 and communication component 92.

Touch panel 91, for detecting touching position information of the user on the touch panel.The touch panel 91 Structure can be identical as the structure for the touch panel 11 being arranged on fan, for example, may include along the more of touch trajectory line setting A sensor can also include the multiple illuminating modules being correspondingly arranged with sensor position.Detailed construction may refer to fan Embodiment description, repeats no more.

Communication component 92 is connect with the touch panel 91, for according to the touching position information, Xiang Suoshu fan hair Send touching position information corresponding fan control information, so that fan controls oscillating fan according to the fan control information.

Wherein, the fan control information can be touching position information itself.

Alternatively, the fan control information can also be swaying angle information.It in this case, can be in fan remote controller Including processor, the touching position information that touch panel detects can be sent to the processor, and processor is available and touches The corresponding swaying angle information of location information is touched, and is sent to communication for the swaying angle information as the fan control information Component.

User described below controls the process of oscillating fan angle by the touch panel of fan remote controller:

0 application scenarios referring to Figure 1, user 1001 touch the touch panel 91 on fan remote controller 1002 with finger. After sensor on the touch panel 91 detects the touch of user, it can send and touch to the communication component 92 in fan remote controller Touch location information.The touching position information can be sent to fan 1003 by communication component 92, can be in the touching position information Carry the sensor identification on remote controler.Controller in fan 1003 can obtain corresponding pendulum according to the touching position information Head angle information, and the swaying angle information is sent to yaw control motor, to control oscillating fan.The process realizes use Family can be adjusted the swaying angle of fan on fan remote controller.

In addition, illuminating module also can be set on the touch panel on fan remote controller with the description of fan embodiment, and User touch when carry out it is corresponding light, detailed process may refer to fan embodiment description.

On the other hand, the fan 1003 controlled by fan remote controller 1002 can be with not set touch panel, then user is only Touch-control can be carried out by fan remote controller and control swaying angle.In this case, if the fan control that fan remote controller is sent to fan Information processed is touching position information, can store the corresponding relationship of the sensor and angular range on remote controler in fan, by wind Fan obtains swaying angle information according to touching position information and is sent to motor.Alternatively, it is also possible that if fan remote controller aweather The fan control information that fan is sent is swaying angle information, then fan directly can indicate yaw control according to the angle information Motor carries out yaw control.

Touch panel also can be set by the fan 1003 that fan remote controller 1002 controls, i.e., on fan and fan remote controller Identical touch panel can be set, and user, which can choose, carries out angle adjustment, or selection by fan remote controller by fan Carry out angle adjustment.In order to facilitate user this selection is carried out, for example, can be in the touch panel and fan remote controller of fan One touch switch is all set on touch panel, when user wants to adjust on fan, can be opened on fan touch panel Switch；When user wants to adjust on fan remote controller, the switch on remote controler touch panel can be opened.

Embodiment five

On the basis of example IV, the fan remote controller of this example can also increase mode trigger assembly, to support to use Family carries out the setting of mode Mode on fan remote controller.

The mode that remote controler carries out mode setting is similar with fan, but, if user will use remote controler to carry out mode Setting, the cooperation being involved between remote controler and fan interact.Example one kind is deposited by remote controler progress mode respectively as follows The process of storage and mode invocation.

Mode storage

For example, multiple physical buttons can be arranged on fan remote controller as mode trigger assembly.By taking key T5 as an example, As user's long-pressing key T5, mode trigger assembly receives mode storage triggering, at this point, the processor in fan remote controller Available current fan control information, such as can be touching position information or swaying angle information.Remote controler leads to Letter component, which can carry the fan control information, is sent to fan in mode storage instruction, is deposited with indicating that fan carries out mode Storage.Wherein, the corresponding mark of key T5 can also be carried in mode storage instruction, for example, the mark can be pattern identification Mode1。

Fan is after receiving mode storage instruction, if fan control information is touching position information, the control in fan The corresponding swaying angle information of the available touching position information of device processed, and by swaying angle information storage corresponding with Mode1. If fan control information is swaying angle information, fan can be stored directly.After storing successfully, fan can be remotely controlled to fan Device one is successfully fed back, and remote controler side can light the corresponding mark of T5, so that user knows the mode stored success.

Mode invocation

By taking key T5 as an example, as user's short-press key T5, mode trigger assembly receives mode invocation triggering, this When, the communication component in fan remote controller can be called to fan sending mode to be indicated, to indicate that fan calls corresponding mode. Wherein, the corresponding pattern identification Mode1 of key T5 can also be carried in mode storage instruction.

Fan is after receiving mode storage instruction, the corresponding swaying angle letter of the Mode1 of the available storage of controller Breath, and the swaying angle information is sent to yaw control motor and carries out yaw.Certainly, if the corresponding letter of Mode1 of storage There are also other informations such as wind-force in breath, can enable together.Thereby realize user by press one on remote controler by Key T5 can control fan and enable the swaying angle prestored.

Equally, at least one of fan and fan remote controller can be set mode trigger assembly, user can choose by Fan carries out mode setting, also can choose and carries out mode setting by fan remote controller.

In addition it is also necessary to illustrate, the mode trigger assembly reception pattern on fan or fan remote controller stores touching Hair or the form of mode invocation triggering, are not limited to physical button as mode trigger assembly, are also not limited to and pass through user Pressing sends the triggering, for example, can also be that user passes through voice sending mode storage triggering or mode invocation triggering, mould Formula trigger assembly identifies the triggering by speech recognition.

Embodiment six

The fan control apparatus for controlling fan rotation may include above-mentioned fan remote controller, can also include other intelligence Terminal such as mobile phone.For example, mobile phone can download one for controlling the remote control APP of fan, wind also can control by the APP Adjustment, mode setting of fan angle degree etc..Whether the intelligent terminals such as fan remote controller or mobile phone can be known as fan control Equipment.

Figure 11 provides a kind of fan system, which may include fan 1101 and fan control apparatus 1102. The fan control apparatus 1102 can be used for controlling rotation and mode setting of fan 1101 etc..

It wherein, may include touch interface on fan control apparatus 1102, which can pass through institute Touch interface is stated to detect position of touch information and be sent to fan 1101.The touch interface for example can be fan remote control Touch trajectory line on touch panel on device, or the touch control detection module being remotely controlled on the interface APP being also possible on mobile phone. The position of touch information of acquisition may include sensor identification, even alternatively, remote control the interface APP on touch control detection module, The position of touch information can also indicate the touch location of user.

The position of touch information that fan 1101 can be sent according to fan control apparatus 1102, obtains corresponding swaying angle Information.For example, the swaying angle information can be obtained by searching the mapping relations prestored in the memory of fan.Also, fan Yaw control motor in 1101 can control oscillating fan according to the swaying angle information.

As above, it can control the adjustment of oscillating fan angle by fan control apparatus.

In addition, can there is no touch interface when using fan control apparatus control fan on fan 1101, only receive wind The control of fan control equipment；Alternatively, touch interface also can be set on fan 1101, such user can be with unrestricted choice in wind It fans and itself carries out controlling or being controlled by fan control apparatus.When being provided with touch interface on fan, on the interface Multiple illuminating modules along the setting of touch trajectory line, the setting of the multiple illuminating module and position of touch information can be set Position is corresponding.

For example, user carries out touch control by mobile phone or fan remote controller and adjusts yaw angle in a usage scenario When spending, the trajectory line controlled in equipment is lighted, e.g., the touch trajectory line range that user slips over streak also with the touch of user and It lights.The touch interface in touch interface and fan control apparatus on fan can be consistent, when fan control apparatus will After touching position information is sent to fan, fan can know corresponding illuminating module according to the touching position information, and light The illuminating module.User it finds that, the touch track on remote controler is bright, and corresponding track is also bright on fan, realize Both it lights.

In another example, user can also carry out the setting of fan mode on the intelligent terminals such as mobile phone, principle with The process of previously described fan remote controller setting mode is similar, is no longer described in detail.

In another example, the mode that user is arranged on fan, can also be synchronized to the intelligent terminals such as mobile phone for Family is checked.For example, may include touch interface and mode storage assembly on fan 1101, which can be touching above-mentioned Control panel.User can be by touch interface and mode storage assembly memory module information, for example, being provided with by touch interface 10 degree to 20 degree of swaying angle information, and some key of long-pressing triggering storage Mode1 is corresponding with above-mentioned swaying angle information.

Above-mentioned pattern information can be sent to fan control apparatus by fan 1101, such as be sent to mobile phone.Mobile phone can be with The pattern information is shown on the remote control interface APP.For example, the display of swaying angle information can be shown with text mode, it can also It is shown in a manner of being lighted with touch trajectory line.If in pattern information further including the other informations such as wind-force, can also show together Show.

Fan control apparatus such as mobile phone can also store above-mentioned pattern information, and can receive user to the pattern information It is adjusted.For example, user can adjust wind-force on the basis of pattern information, information adjusted can be sent to by mobile phone Fan.Fan is received after pattern information adjusted can be modified proterotype information and is stored.

Embodiment seven

As described above with touch control manner control fan swaying angle, same principle can also be applied to fan its The control of his motion state.For example, the rotation speed of electric fan can be controlled, by touch control manner to adjust the wind of fan Power.

Shown in Figure 12, which may include: touch panel 1201, memory 1202, controller 1203 and control Motor 1204 processed.

Wherein, touch panel 1201 can be used for detecting touching position information of the user on touch panel.For example, the face Multiple sensors can be set on plate, each sensor can be used for when detecting that user touches the sensor, to control Device 1203 processed sends the touching position information of the corresponding sensor.For example, the touching position information can be intended to indicate that use Family touches the information of which sensor, and e.g., " A, the A in 11 " indicate sensor identification A, and the 11 expression sensors are touched. The set-up mode of sensor is similar to shown in Fig. 2.

Memory 1202 can be used for storing the corresponding relationship between touching position information and flabellum rotating speed data.Its In, the corresponding flabellum rotating speed data of each sensor can be a fixed value, which can be It can indicate that control motor 1204 operates such that electric fan reaches the information of certain rotation speed V, for example, controller 1203 Flabellum rotating speed data can be sent to control motor 1204, control motor 1204 is transported according to the flabellum rotating speed data Row goes control electric fan rotation, it will be able to so that flabellum reaches certain rotation speed V.In order to enable more intuitively understand, Different flabellum rotating speed datas is identified with V1, V2 etc. for the time being, it is certain to indicate that these flabellum rotating speed datas correspond to Flabellum rotation speed.Similarly, the swaying angle information mentioned in each embodiment in front, such as the swaying angle information in table 1, The swaying angle information that controller is sent to yaw control motor is not necessarily 10 degree to 20 degree such angle values, and can To be some parameters for enabling to yaw control motor control fan rotary head in the angular range.It is related in each embodiment Other similar information similarly.

As follows with the corresponding relationship in a kind of memory 1202 of 2 example of table:

2 corresponding relationship of table

Sensor identification	Flabellum rotating speed data
		Y1	V1
Y2	V2
		….	….

In actual implementation, if it is desired to which fan can support more wind scales, and more sensors can be set, make The granularity for obtaining sensor is thinner；Alternatively, a small amount of sensor also can be set, the setting granularity of sensor is thicker, each sensing As soon as device corresponds to a rotation speed, that supports less rotation speed quantity.It can be arranged according to practical business demand.

Controller 1203 is connect with the memory 1202 and touch panel 1201 respectively, for according to the touch panel The touching position information of transmission is by obtaining corresponding flabellum rotating speed data in memory.

Control motor 1204 is connect with controller 1203, the flabellum rotation speed for being sent according to the controller 1203 Information controls flabellum rotation.Wherein, the yaw control motor 14 in the control motor 1204 and Fig. 1 can be the same electricity Machine is also possible to different motors.

A kind of fan of structure shown in Figure 12 is illustrated to pass through the course of work that touch control manner adjusts wind-force as follows:

Firstly, user can use hand to touch some position on touch panel 1201, in this example, flabellum is rotated The adjusting of speed can be single-touch.Assuming that the sensor where the touch location of user is sensors A, which can The touch of user is received to detect.

Then, sensor can send touching position information to controller 1203, for example, can be in the touching position information Including sensor identification A and the mark touched 11.

It then, can be by the correspondence of look-up table 2 in memory 1202 after controller 1203 receives the touching position information Relationship obtains flabellum rotating speed data V1 corresponding with touching position information.

Finally, flabellum rotating speed data V1 can be sent to control motor 1204 by controller 1203, by control motor The flabellum of 1204 control fans is with the rotation of V1 speed.

In actual implementation, the same fan can have above-mentioned " touch-control control swaying angle " and " touch-control control fan At least one function of leaf rotation speed ".

For example, if fan only individually has the function of " touch-control controls flabellum rotation speed ", then user can only pass through touching Control touching to adjust to obtain different flabellum rotation speeds on panel.

In another example if fan can support two kinds of above-mentioned functions simultaneously, then a kind of mode is, it can be in the same touching It controls and two touch trajectory lines is set on panel, a touch trajectory line controls swaying angle, another touch trajectory for touch-control Line can be used for touch-control control flabellum rotation speed.Correspondingly, also can store two different corresponding passes in memory 1202 System, such as Tables 1 and 2.

The function of touch-control control can be arranged in fan, can also equally be arranged in fan remote controller.For example, fan is remotely controlled Device may include touch panel and communication component.

Touch panel, for detecting touching position information of the user on the touch panel；

Communication component is connect with the touch panel, for according to the touching position information, Xiang Suoshu fan to send touching The flabellum rotating speed data for touching location information or corresponding touching position information, so that fan is believed according to the touch location The flabellum rotation speed of breath or flabellum rotating speed data control fan.

For example, when communication component sent to fan be touching position information when, may include in the touching position information The sensor identification of touch, the corresponding relationship that fan can search in memory according to the sensor identification obtain flabellum rotation speed Information is spent, and is sent to control motor and carries out speed control.In another example when communication component sent to fan be flabellum rotation speed When spending information, the corresponding relationship of table 2 can be stored in fan remote controller side.Fan remote controller can be detected in touch panel After touching position information, searches corresponding relationship and obtain flabellum rotating speed data, and be sent to fan, the control motor in fan The rotation speed of flabellum can be controlled accordingly.

The foregoing is merely the preferred embodiments of this specification one or more embodiment, not to limit this theory Bright book one or more embodiment, all within the spirit and principle of this specification one or more embodiment, that is done is any Modification, equivalent replacement, improvement etc. should be included within the scope of the protection of this specification one or more embodiment.

Claims (20)

1. a kind of fan, the fan include:

Touch panel, for detecting touching position information of the user on the touch panel；

Processing component is connect with the touch panel, the touching position information acquisition pair for being sent according to the touch panel The swaying angle information answered；

Yaw controls motor, connect with the processing component, the swaying angle information control for being sent according to the processing component Oscillating fan processed.

2. fan according to claim 1, multiple sensors, the multiple sensor edge are provided on the touch panel Scheduled touch trajectory line is arranged；

Each sensor, for when detecting that user touches the sensor, Xiang Suoshu processing component to send corresponding institute State the touching position information of sensor.

3. fan according to claim 2, the touch panel setting parallel to the ground；And the multiple sensor arrangement The touch trajectory line, be in and the consistent arc in oscillating fan track.

4. fan according to claim 2,

It is additionally provided on the touch panel: along multiple illuminating modules of touch trajectory line setting；The multiple luminous mould Group is corresponding with the setting position of the multiple sensor；

The illuminating module, for being lighted when receiving and lighting trigger signal, the trigger signal of lighting is described Generation when sensor detects user's touch sensor.

5. fan according to claim 4,

The illuminating module lights trigger signal for receive that the sensor sends；

Alternatively, the illuminating module, described to light trigger signal for receiving the trigger signal of lighting of the processing component transmission It is processing component generation when receiving the touching position information of sensor transmission.

6. fan according to claim 1,

It is also set up on the fan: mode trigger assembly；The mode trigger assembly is connect with processing component；

The mode trigger assembly, for when detecting mode storage triggering, Xiang Suoshu processing component sending mode storage to refer to Show；It is also used to call and indicate to processing component sending mode when receiving mode invocation triggering；

The processing component obtains current swaying angle information for storing instruction according to the mode, and stores the mould The corresponding relationship of formula trigger assembly and swaying angle information；It is also used to be indicated according to the mode invocation, obtains associative mode touching Swaying angle information is sent to yaw control motor to carry out yaw control by the swaying angle information for sending out component.

7. fan according to claim 6,

The mode trigger assembly includes: the physical button being arranged on the fan；

The physical button, for detecting user by pressing the mode storage triggering or mode that the physical button is sent Call triggering.

8. fan according to claim 1,

The processing component is also used to be stored according to mode and trigger, obtains the current wind-force information of fan, and store the wind-force The corresponding relationship of information and mode trigger assembly.

9. a kind of fan remote controller, the fan remote controller include:

Touch panel, for detecting touching position information of the user on the touch panel；

Communication component is connect with the touch panel, for according to the touching position information, Xiang Suoshu fan to send touch position Confidence ceases corresponding fan control information, so that fan controls oscillating fan according to the fan control information.

10. fan remote controller according to claim 9, the fan remote controller further include: processor；The processor point It is not connect with the touch panel and communication component；

The processor, for obtaining and touching position information pair when receiving the touching position information of touch panel transmission The swaying angle information is sent to communication component by the swaying angle information answered.

11. fan remote controller according to claim 10,

The fan remote controller further include: mode trigger assembly；

The mode trigger assembly, for detection pattern storage triggering or mode invocation triggering；

The communication component is also used to be stored according to mode and trigger, stores and indicate to fan sending mode, carry current remote controler Obtained fan control information, so that fan stores the corresponding relationship of the mode trigger assembly and swaying angle information, institute It is corresponding with fan control information to state swaying angle information；It is also used to be triggered according to mode invocation and refer to fan sending mode calling Show, the mark of carrying mode trigger assembly.

12. fan remote controller according to claim 9, multiple sensors are provided on the touch panel, it is the multiple Sensor is arranged along scheduled touch trajectory line；

Each sensor, for sending the corresponding biography to processing component when detecting that user touches the sensor The touching position information of sensor.

13. fan remote controller according to claim 12,

It is additionally provided on the touch panel: along multiple illuminating modules of touch trajectory line setting；The multiple luminous mould Group is corresponding with the setting position of the multiple sensor；

The illuminating module, it is described to light triggering for receiving being lighted when lighting trigger signal for sensor transmission Signal is the generation when the sensor detects user's touch sensor.

14. a kind of fan system, the fan system includes: fan and fan control apparatus；

The fan control apparatus includes touch interface, for that will be sent out by the position of touch information that the touch interface detects It send to fan；

The fan, for being controlled according to the position of touch information acquisition swaying angle information, and according to swaying angle information Oscillating fan.

15. fan system according to claim 14, it is provided with touch interface on the fan, and in the touch interface It is provided with multiple illuminating modules along the setting of touch trajectory line；The setting position of the multiple illuminating module and position of touch information Set correspondence；

The fan is also used to light the illuminating module when receiving position of touch information.

16. fan system according to claim 14,

The fan control apparatus further includes mode trigger assembly；It is also used to when detecting mode storage triggering, Xiang Suoshu wind Sending mode storage instruction is fanned, the mode storage instruction carries position of touch information；And when receiving mode invocation triggering, It calls and indicates to the fan sending mode；

The fan, is also used to store the corresponding relationship of the mode trigger assembly and swaying angle information, and is receiving When mode invocation indicates, the swaying angle information of associative mode trigger assembly is obtained, fan is carried out according to swaying angle information Yaw control.

17. fan system according to claim 14,

The fan includes touch interface and mode storage assembly, is also used to store mould by touch interface and mode storage assembly Formula information, and the mode stored information is sent to fan control apparatus, the mode stored information includes when forefan Swaying angle information；

The fan control apparatus, for storing and showing the mode stored information.

18. a kind of fan, the fan include:

Touch panel, for detecting touching position information of the user on the touch panel；

Processing component is connect with the touch panel, the touching position information acquisition pair for being sent according to the touch panel The flabellum rotating speed data answered；

Motor is controlled, is connect with the processing component, the flabellum rotating speed data control for being sent according to the processing component Flabellum rotation processed.

19. fan according to claim 18, multiple sensors are provided on the touch panel；

Each sensor, for when detecting that user touches the sensor, Xiang Suoshu processing component to send corresponding institute State the touching position information of sensor.

20. a kind of fan remote controller, the fan remote controller include:

Touch panel, for detecting touching position information of the user on the touch panel；

Communication component is connect with the touch panel, for according to the touching position information, Xiang Suoshu fan to send touch position The flabellum rotating speed data of confidence breath or corresponding touching position information so that fan according to the touching position information or The flabellum rotation speed of person's flabellum rotating speed data control fan.