CN108826617B - Air conditioner controller with laser projection function and air conditioner - Google Patents

Abstract

The application discloses air conditioner controller and air conditioner with radium-shine function, air conditioner controller include the casing and set up in radium-shine device on the casing, radium-shine device be used for with the operation interface of air conditioner forms radium-shine projection interface, and catches radium-shine projection interface is sheltered from the region to according to being sheltered from regional definite operator's operating instruction. This application produces the laser projection interface of operation interface through laser device to operate in order to realize through laser projection interface right the control of air conditioner can make things convenient for the operator to operate on the one hand like this, and the another side also need not to carry out the unit to air conditioner controller and keeps, has improved the simplicity and convenience that the air conditioner used.

Description

Air conditioner controller with laser projection function and air conditioner

Technical Field

The application relates to the technical field of air conditioners, in particular to an air conditioner controller with a laser projection function and an air conditioner.

Background

With the development of society, the vertical air conditioner has become popular in every family as one of the indispensable important members of the household appliance industry. At present, the vertical air conditioner is generally placed at the corner of a living room according to the placing requirement and is controlled by a remote controller or a wire controller. However, the remote controller or the line controller is separately disposed from the air conditioner, and it is necessary to store and use the remote controller or the line controller, which requires a user to memorize the storage location of the remote controller or the line controller, which causes inconvenience to the user, and especially for the elderly, the user may easily forget the storage location of the remote controller or the line controller. In addition, to the environment that the stream of people is complicated, air conditioner or drive-by-wire ware dead angle itself is more, and is difficult for cleaning, and frequency of use is high in addition, causes bacterial growing easily and is unfavorable to user's health.

Disclosure of Invention

In view of the defects of the prior art, the application provides an air conditioner controller with a laser projection function and an air conditioner, so that a user can conveniently control the air conditioner.

The technical scheme adopted by the application is as follows:

the air conditioner controller with the laser projection function comprises a shell and a laser device arranged on the shell, wherein the laser device is used for enabling an operation interface of an air conditioner to form a laser projection interface and capturing a shielded area of the laser projection interface so as to determine an operation instruction of an operator according to the shielded area.

The air conditioner controller with the laser projection function is characterized in that the laser device comprises a laser LED lamp, a grid plate and a light sensor, the grid plate is located in front of the laser LED lamp, and the light sensor is used for capturing a shielded area of the laser projection interface.

The air conditioner controller with the laser projection function is characterized in that an adjusting device is arranged in the shell in a sliding mode, and the adjusting device is connected with the laser device and drives the laser device to slide relative to the shell.

The air conditioner controller with the laser projection function is characterized in that the adjusting device comprises a sliding positioning column, a sliding guide plate and an elastic connecting column, the sliding guide plate is used for assembling the laser device, the sliding positioning column and the sliding guide plate are connected through the elastic connecting column, and the distance between the sliding positioning column and the sliding guide plate is adjusted through the elastic change of the elastic connecting column.

The air conditioner controller with the laser projection function is characterized in that a sliding groove is formed in the shell, a plurality of positioning protrusions are arranged on at least one side wall of the sliding groove at intervals, and two adjacent positioning protrusions form a limiting groove.

The air conditioner controller with laser projection function, wherein, the spout bottom is provided with the slip track, the slip track with the slip reference column cooperatees, and the slip reference column can be followed the slip track extending direction slides.

Air conditioner controller with radium-shine projection function, wherein, slide guide including be used for with spout matched with mounting panel and be used for with spacing groove matched with limiting plate, when elastic connection spare does not take place deformation, the mounting panel is located in the spout, the limiting plate is arranged in the spacing inslot, and pass through protruding card in location is held the limiting plate is in order to fix radium-shine device.

The air conditioner controller with laser projection function, wherein, when elastic connecting piece takes place deformation, the slide guide is arranged in the spout, the slip reference column can follow the motion of sliding guide in order to adjust laser device's position.

The air conditioner controller with the laser projection function is characterized in that the laser projection interface comprises a display area for displaying parameter information and a control area for displaying a control key, and the display area is located above the control area.

The air conditioner is characterized by comprising the air conditioner controller with the laser projection function, wherein the air conditioner controller is in communication with an air conditioner mainboard of the air conditioner.

Has the advantages that: compared with the prior art, this application provides an air conditioner controller and air conditioner with radium-shine function, air conditioner controller include the casing and set up in radium-shine device on the casing, radium-shine device be used for with the operation interface of air conditioner forms radium-shine projection interface, and catches radium-shine projection interface is sheltered from the region to according to being sheltered from regional definite operator's operating instruction. This application produces the laser projection interface of operation interface through laser device to operate in order to realize through laser projection interface right the control of air conditioner can make things convenient for the operator to operate on the one hand like this, and the another side also need not to carry out the unit to air conditioner controller and keeps, has improved the simplicity and convenience that the air conditioner used.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of an air conditioner controller with a laser projection function according to the present application.

Fig. 2 is a partially enlarged schematic structural diagram of an embodiment of an air conditioner controller with a laser projection function provided in the present application.

Fig. 3 is a schematic diagram of a laser projection interface in an air conditioner controller with a laser projection function according to the present application.

Fig. 4 is a schematic view of a control area of a laser projection interface in an air conditioner controller with a laser projection function according to the present application.

Fig. 5 is a schematic structural diagram of an embodiment of an air conditioner provided by the present application.

Detailed Description

In order to make the purpose, technical scheme and effect of the present application clearer and clearer, the present application is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The following further describes the content of the application by describing the embodiments with reference to the attached drawings.

The embodiment provides an air conditioner controller with a laser function, as shown in fig. 1 and 2, which includes a housing 200 and a laser device 100, wherein the laser device 100 is disposed on the housing 200 and can communicate with an air conditioner motherboard of an air conditioner on which the controller is mounted. The laser device 100 is configured to form a laser projection interface on an operation interface of an air conditioner, capture a blocked area of the laser projection interface, and determine an operation instruction of an operator for the laser projection interface according to the blocked area. The operation instruction can be determined according to the shielded area through the air conditioner mainboard. That is to say, after the control controller acquires the blocked region, the blocked region may be sent to an air conditioner motherboard connected to the control controller, and the air conditioner motherboard may determine a control instruction by calculating a shadow area of the blocked region, so that the air conditioner executes a corresponding operation according to the control instruction. According to the air conditioner controller, the laser device 100 projects the operation interface to form the laser projection interface, the control instruction is formed by collecting the shielded area of the laser projection interface, the air conditioner with the air conditioner controller is controlled, and the air conditioner control flow is simplified. Meanwhile, the laser projection interface is generally a flat wall surface and the like, has no dead angle, is convenient to clean, is not easy to breed bacteria, and is beneficial to the health of an operator. In practical application, the laser projection device can project the laser projection interface on a wall surface, an air conditioner wall surface or other plane structures, and the arrangement mode of the laser projection interface can be flexibly selected according to the type of the air conditioner and the installation environment.

As shown in fig. 3, the laser projection interface may include a display area 40 and a control area 50, where the display area 40 is used for displaying parameter information of an air conditioner, and the control area 50 is used for displaying control keys of the air conditioner. Preferably, the display area 40 is located above the control area 50, and when the blocked area is formed in the control area 50, the blocked area does not cover the display area 40, so as to improve the identification speed and accuracy of the blocked area. The display area 40 and the control area 50 may be divided according to the area of the laser projection interface, for example, the laser projection interface is divided into an upper area and a lower area, the upper area is set as the display area 40, and the lower area is set as the control area 50. Of course, in the modified embodiment of this embodiment, the dividing manner may also be different, for example, the laser projection interface is divided according to the middle display parameter of the operation interface and the dividing manner of the control key.

Further, the control area 50 may be divided into a plurality of independent sub-control areas, and a control key is configured in each sub-control area, so that each control key has an independent control area 50, and thus, the triggered control key may be determined according to the position relationship between the position of the shielded area and each sub-control area, and the accuracy of selecting the control key is further improved. The control key corresponding to each sub-area can be single touch control or combined control key. For example, in a preferred embodiment of the present application, each of the sub-control areas is a single touch, and when the blocked area completely covers two sub-control areas, it is determined that the touch operation forming the blocked area is an erroneous operation, and the blocked area is discarded, so as to avoid that the operation instruction corresponding to the blocked area cannot be identified. When the sheltered area at most completely covers one sub-control area, acquiring the completely covered sub-control area, taking a control key corresponding to the sub-control area as a triggered key, and taking a control instruction corresponding to the triggered key as an operation instruction corresponding to the sheltered area; and if the completely covered sub-control area is not acquired, acquiring the area ratio of the covered area of the covered sub-control area to the area of the sub-control area, taking the sub-control area with the largest area ratio as a control key corresponding to the covered area as a triggered key, and taking a corresponding control instruction as an operation instruction corresponding to the covered area.

Further, the control area 50 may be provided with an add control key and a subtract control key of a unit, and the add and subtract functions are realized by adding or subtracting through one touch. In addition, as shown in fig. 4, the sub-control regions where the add control key and the subtract control key are located may be located on the same horizontal line, and the two may be communicated, so that the movement track of the blocked region from the sub-control region corresponding to the add control key/the sub-control region corresponding to the subtract control key to the sub-control region corresponding to the subtract control key/the sub-control region corresponding to the add control key may be obtained to determine the corresponding operation instruction. That is, the determination method of the connected addition/subtraction control region may be to determine a sliding operation of a finger of the user, and determine whether or not the control key is operated by changing an area and/or a position of the blocked region.

In addition, to further describe the position of the control area 50 and the position of the blocked area of the laser projection interface, a coordinate system may be established on the laser projection interface or the control area 50, and the positions of the control area 50 and the blocked area may be determined by coordinate points. For example, in the coordinate system of the control area 50, the coordinates of the lower left corner of the control area 50 are set to (0, 0), and the upper right corner is set to (20, 20) as an example. As shown in fig. 4, the control region 50 is divided into upper and lower regions, the upper region is divided into four regions, which are denoted as A, B, C, D, wherein the a region is { (0.10), (3.20) }; region B is { (3.10), (5.20) }; c area is { (5.10), (7.20) }; the D area is { (7.10), (10.20) }, and the control mode of the A-D area is to shield the control key, namely, each area forms a shielded area and is the control key after leaving. The control modes of the areas A and B can be single touch, the control modes of the areas C and D comprise combined keys and independent control, and when the control modes are independently controlled, such as when the control keys corresponding to the areas C or D are triggered, the areas C or D only need to be shielded independently, and then corresponding operation instructions are triggered; when the C + D combined key is pressed, the C area and the D area need to be shielded simultaneously, and then the combined key of the C area and the D area is triggered. In addition, in order to distinguish the individual control and combination keys of the C area and the D area, a locking key is arranged between the C area and the D area, and the locking key is used for switching the individual control and combination keys of the C area and the D area. The unlocking mode of the locking key can be that the C area and the D area are simultaneously shielded for more than a preset time threshold, for example, 5 seconds.

Further, the lower area is divided into two areas, namely, an area E is { (0.0), (5.10) } and an area F is { (5.0), (10.10) }, the control modes of the area E and the area F are sliding control modes, namely, the area of the blocked area is changed or the motion track of the blocked area is recorded to trigger a corresponding control key, for example, the area E is provided with a reduction control key, and the area F is provided with an addition control key. The area E slides from the area of about { (5.0), (5.10) } to the origin, namely the left side through gestures, and the area of the blocked area of the area E is changed to judge that the function realizes the '-key'; the F area slides to the right from the area of about { (5.0), (5.10) } through gestures, and the function implementation + key is judged by changing the area of the shielded area of the F area, and the function key cannot be operated when the area is shielded. In addition, when the upper area and the lower area are simultaneously blocked, the key function is inactive.

Further, as shown in fig. 2, the laser apparatus 100 includes a laser head 1 and a light sensor 2; the housing 200 is provided with a mounting hole, the laser head 1 is assembled on the mounting hole, and light generated by the laser head is irradiated outside the housing 200 through the mounting hole. The light sensor 2 is located on the housing 200 below the mounting hole. The laser head comprises a laser LED and a grid piece, the grid piece adopts a nanometer-level high-precision grid piece and is positioned in front of the laser LED, high focusing performance and light which is not easy to disperse are sent by laser LED light, and the light maps an operation interface of the air conditioner to a plane outside the shell 200 through the nanometer-level high-precision grid piece so as to form a laser projection interface. The light sensor 2 is used for sensing a shielded area of the laser projection interface and sending the collected sensing signal to the air conditioner mainboard so as to judge and identify the shielded area.

Further, as shown in fig. 1, an adjusting device is provided in the housing 200, and the adjusting device is slidable in the extending direction of the housing 200. The laser device 100 is connected to the housing 200 through the adjusting device, that is, the laser device 100 is disposed on the adjusting device and can slide relative to the housing 200 under the driving of the adjusting device, so as to adjust the position relationship between the adjusting device and the housing 200. Therefore, the position of the laser projection interface can be adjusted through the adjusting device, and the flexibility and the convenience of laser control are improved. For example, when the air conditioner controller is configured on a vertical air conditioner, the chute 9 extends in the vertical direction, so that on one hand, the height of the laser projection interface can be adjusted according to the height of an operator, and the air conditioner controller can be suitable for people with different heights; on the other hand, when the surface of the wall body near the vertical air conditioner is provided with the decorations, the position of the laser device 100 can be adjusted through the adjusting device so as to adjust the laser projection interface to the plane position of the wall body, so that the projection effect of the laser projection interface is improved, and the control accuracy is improved.

As shown in fig. 1 and 2, a sliding groove 9 extending along the extending direction of the housing 200 is provided on the housing 200, a sliding track 8 is provided at the bottom of the sliding groove 9, a plurality of positioning protrusions 5 are provided on at least one side wall of the sliding groove 9 at intervals, the positioning protrusions 5 extend towards the axis direction of the sliding groove 9, that is, the positioning protrusions 5 block the notch of the sliding groove 9, and two adjacent positioning protrusions 5 form a limiting groove 10, and the limiting groove 10 and the positioning protrusions 5 are alternately arranged. In this embodiment, a plurality of positioning protrusions 5 are disposed on two side walls of the sliding groove 9 at intervals, the positioning protrusions 5 on the two side walls are mirror-symmetrical, and one side of each positioning protrusion 5 away from the sliding rail 8 is flush with the side wall. The adjusting device is located in the sliding groove 9 and is connected with the sliding rail 8 in a sliding mode, and meanwhile one end, far away from the sliding rail 8, of the adjusting device is flush with a notch of the sliding groove 9 so as to be limited through the positioning protrusion 5.

Further, adjusting device includes slip reference column 7, elastic connection post 6 and slip baffle 11, slip reference column 7 pass through elastic connection post 6 with slip baffle 11 is connected to the elastic deformation through elastic connection post 6 adjusts the distance between slip baffle 11 and the slip reference column 7. The sliding positioning column 7 is matched with the sliding track 8, the sliding guide plate 11 is matched with a notch of the sliding groove 9, and the elastic connecting column 6 is arranged in the extending direction perpendicular to the sliding groove 9, so that the sliding guide plate 11 can move in the extending direction perpendicular to the sliding groove 9. In this embodiment, the sliding positioning column 7 is of a spherical structure, the elastic connection column 6 is of a spring, one end of the spring is sleeved on the sliding positioning column 7, the other end of the spring is connected with the sliding guide plate 11, when the sliding guide plate 11 is pressed towards the sliding positioning column 7, the elastic connection column 6 deforms, the sliding guide plate 11 moves into the sliding groove 9 towards the direction close to the sliding positioning column 7, and the surface of the sliding guide plate 11, which is not connected with the elastic connection column 6, is located below the positioning protrusion 5, so that the sliding positioning column 7 can slide along the sliding track 8, so that the laser device 100 arranged on the sliding guide plate 11 is opposite to the position of the shell 200, and the position of the laser device 100 is adjustable.

Furthermore, slide guide 11 includes mounting panel 111, be provided with limiting plate 112 on at least one side in the parallel side of mounting panel 111 and spout 9 lateral wall, limiting plate 112 place side with protruding 5 place lateral walls in location correspond, and limiting plate 112 with spacing groove 10 cooperatees, works as when elastic connection post 6 is for taking place deformation, mounting panel 111 is located in spout 9 and its one side of keeping away from slip track 8 flushes with the notch of spout 9, limiting plate 112 is arranged in spacing groove 10 is passed through protruding 5 in the location is spacing, so that adjusting device for spout 9 is fixed, the fixed radium-shine device 100 that sets up on slide guide 11 promptly and the position of casing 200. In addition, the side that mounting panel 111 was provided with limiting plate 112 with the spout 9 is provided with the side of location arch 5 and is corresponding, when a lateral wall of spout 9 was provided with location arch 5 promptly, the side that mounting panel 111 and this lateral wall correspond is provided with limiting plate 112, and when two lateral walls of spout 9 were provided with location arch 5, two sides of mounting panel 111 all were provided with limiting plate 112.

As shown in fig. 1, the air conditioner controller may further include an audio player 4, where the audio player 4 is disposed on the sliding guide plate 11, and the audio player plays a key operation sound, an air conditioner use status, and the like, so that an operator may quickly and clearly know a use state of the air conditioner.

Based on the above-mentioned air conditioner controller that has radium-shine function, as shown in fig. 5, this application still provides an air conditioner, be provided with the mounting groove on the body 20 of air conditioner, the mounting groove is provided with air conditioner controller 30 as above embodiment, air conditioner controller 30 with the air conditioner mainboard of air conditioner is connected to the operation interface projection with the air conditioner is originally external and form radium-shine projection interface, through radium-shine projection interface is right the air conditioner carries out the air conditioner. In this embodiment, the air conditioner is preferably a vertical air conditioner, the mounting groove extends along the vertical direction, the air conditioner is controlled to be installed in the mounting groove, and when the laser device 100 is connected with the casing 200 through the adjusting device, the adjusting device can drive the laser device 100 to slide along the vertical direction, so as to adjust the position of the laser device 100 relative to the air conditioner body.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (5)

1. An air conditioner controller with a laser projection function is characterized by comprising a shell and a laser device arranged on the shell, wherein an adjusting device is arranged in the shell in a sliding mode, the laser device is used for forming an operation interface of an air conditioner into a laser projection interface and capturing a shielded area of the laser projection interface so as to determine an operation instruction of an operator according to the shielded area;

the adjusting device comprises a sliding positioning column, a sliding guide plate and an elastic connecting column, wherein the sliding guide plate is used for assembling the laser device, the sliding positioning column is connected with the sliding guide plate through the elastic connecting column, and the distance between the sliding positioning column and the sliding guide plate is adjusted through the elastic change of the elastic connecting column;

the shell is provided with a sliding chute, at least one side wall of the sliding chute is provided with a plurality of positioning bulges at intervals, two adjacent positioning bulges form a limiting groove, and the limiting groove and the positioning bulges are alternately arranged;

the bottom of the sliding chute is provided with a sliding rail, the sliding rail is matched with the sliding positioning column, and the sliding positioning column can slide along the extending direction of the sliding rail;

the sliding guide plate comprises a mounting plate matched with the sliding groove and a limiting plate matched with the limiting groove, when the elastic connecting piece is not deformed, the mounting plate is positioned in the sliding groove, the limiting plate is arranged in the limiting groove, and the limiting plate is clamped through the positioning protrusion to fix the laser device; when the elastic connecting piece deforms, the sliding guide plate is arranged in the sliding groove, and the sliding positioning column can move along the sliding guide rail to adjust the position of the laser device.

2. The air conditioner controller with laser projection function of claim 1, wherein the laser device comprises a laser LED lamp, a grating sheet and a light sensor, the grating sheet is located in front of the laser LED lamp, and the light sensor is used for capturing a shielded area of the laser projection interface.

3. The air conditioner controller with laser projection function of claim 1, wherein the adjusting device is connected with the laser device and drives the laser device to slide relative to the housing.

4. The air conditioner controller with laser projection function of claim 1, wherein the laser projection interface comprises a display area for displaying parameter information and a control area for displaying control keys, and the display area is located above the control area.

5. An air conditioner, characterized in that the air conditioner comprises the air conditioner controller with laser projection function according to any one of claims 1 to 4, and the air conditioner controller is communicated with an air conditioner mainboard of the air conditioner.

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