CN212481620U

CN212481620U - Infrared air conditioner control device and control system

Info

Publication number: CN212481620U
Application number: CN202021692350.6U
Authority: CN
Inventors: 杨德勇; 龚政
Original assignee: Nanjing Titanium Technology Co ltd
Current assignee: Nanjing Titanium Technology Co ltd
Priority date: 2020-08-14
Filing date: 2020-08-14
Publication date: 2021-02-05
Anticipated expiration: 2030-08-14

Abstract

The utility model provides an infrared air conditioner controlling means and control system belongs to the air conditioner control field. This infrared air conditioner controlling means includes: the communication module is in communication connection with the cloud server and used for receiving infrared code library information and air conditioner working mode control instructions sent by the cloud server, the infrared code library information is obtained according to model information of the air conditioner control device sent by the mobile terminal, and the air conditioner working mode control instructions are generated by the mobile terminal and sent to the cloud server; the storage chip is connected with the communication module and used for storing the infrared code library information; the control chip is connected with the communication module and the storage chip and used for generating an infrared control signal according to the air conditioner working mode control instruction and the infrared code library information; and the plurality of infrared transmitters are connected with the control chip and used for transmitting infrared signals to an air conditioner control panel or an infrared receiving end of an air conditioner indoor unit according to the infrared control signals. The utility model discloses an infrared air conditioner controlling means can improve control efficiency and widen the range of application.

Description

Infrared air conditioner control device and control system

Technical Field

The utility model belongs to the air conditioner control field especially relates to an infrared air conditioner controlling means and control system.

Background

The existing air conditioning devices are generally controlled by a control panel or an infrared remote controller which is connected with a wire. In order to realize intelligent control of the air conditioner, an air conditioning system that automatically adjusts according to a set program has also appeared in the prior art, such as an intelligent home, which automatically controls the on/off and the operation mode control of the air conditioner.

However, the existing intelligent control is usually performed for a single air conditioner, and a control system inside the air conditioner needs to be specially set, so that the application range is relatively limited, and the control efficiency is not high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an infrared air conditioner controlling means can improve control efficiency and widen the range of application.

The utility model discloses an accurate control of humiture is realized to another purpose.

An object of the second aspect of the present invention is to provide a control method capable of improving control efficiency and widening an application range.

Particularly, the utility model provides an infrared air conditioner controlling means for control air conditioner's operating condition, air conditioner includes air conditioner control panel and air conditioner internal unit, air conditioner control panel with air conditioner internal unit all includes infrared receiving terminal, infrared air conditioner controlling means includes:

the communication module is in communication connection with the cloud server and used for receiving infrared code library information and an air conditioner working mode control instruction sent by the cloud server, the infrared code library information is obtained according to model information of the air conditioner control device sent by a mobile terminal, and the air conditioner working mode control instruction is generated by the mobile terminal and sent to the cloud server;

the storage chip is connected with the communication module and used for storing the infrared code library information;

the control chip is connected with the communication module and the storage chip and used for generating an infrared control signal according to the air conditioner working mode control instruction and the infrared code library information;

and each infrared emitter is connected with the control chip and used for sending an infrared signal to the air conditioner control panel or an infrared receiving end of the air conditioner indoor unit according to the infrared control signal so as to control the air conditioner device to enter a corresponding working mode.

Optionally, the infrared air conditioner control device further includes:

the temperature and humidity sensor is connected with the control chip and used for acquiring temperature information and humidity information in the current environment;

the control chip is further used for generating an infrared control signal according to the temperature information and the humidity information acquired by the temperature and humidity sensor, the air conditioner working mode control instruction and the infrared code library information.

Optionally, the communication module is in communication connection with the mobile terminal, and is configured to send the temperature information and the humidity information collected by the temperature and humidity sensor to the mobile terminal, so as to display a corresponding temperature value and a corresponding humidity value on the mobile terminal.

Optionally, the temperature and humidity sensor is placed in an area where precise temperature control is required.

Optionally, each of the infrared emitters comprises an optical fiber for directionally guiding infrared light.

Optionally, the communication module is a Zigbee communication module.

Optionally, the communication module, the storage chip, the control chip and the temperature and humidity sensor are all integrated in a base, and the base is further provided with a plurality of infrared emission jacks;

each infrared transmitter and any infrared transmitting jack form pluggable connection.

Optionally, the infrared emitter comprises:

the infrared emission plug is arranged at the infrared emission jack in a pluggable manner;

the infrared signal transmitter is connected with the infrared transmitting plug through an infrared transmitting line;

and the universal fixed base is connected with the infrared signal emitter and is used for forming a plurality of postures.

Optionally, an identification code is further arranged on the base, so that the mobile terminal can identify the infrared air conditioner control device by shooting the identification code.

Particularly, the utility model also provides an infrared air conditioner control system, including air conditioning equipment, mobile terminal, high in the clouds server and any one of the aforesaid infrared air conditioner control device, air conditioning equipment includes air conditioner control panel and air conditioner internal unit, air conditioner control panel with air conditioner internal unit all includes infrared receiving terminal.

The utility model discloses an infrared air conditioner controlling means can realize the remote control of air conditioner to because infrared air conditioner controlling means is equipped with a plurality of infrared emitter, consequently can control the multichannel air conditioner, realize the high efficiency control of air conditioner. For example, each infrared transmitter is respectively aligned with an air conditioner control panel of an air conditioner in a place or an infrared receiving end of an air conditioner internal unit, so that the working states of a plurality of air conditioners can be simultaneously controlled, the air conditioner remote control device is particularly suitable for unattended scenes, such as an unattended selling store, and efficient remote management of the air conditioner device is realized.

Further, because the utility model provides an infrared air conditioner controlling means is set up alone, only need with infrared transmitter facing to air conditioner's infrared receiving terminal can, need not change current air conditioner, consequently application scope is wider, and realizes easily, can be applied to multiple set scene, has higher using value, has established the basis for air conditioner access intelligent management system under each scene.

Further, the utility model discloses the base that sets up alone can be placed according to the demand, provides reliable data basis to the accurate regulation that realizes the air conditioning equipment humiture.

Further, each infrared emitter comprises an optical fiber for directionally guiding infrared light so as to accurately control the infrared emission direction of each infrared emitter.

Furthermore, the communication module adopts a Zigbee communication protocol to communicate with the outside through the gateway, so that the power consumption is reduced.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the present invention will be described in detail hereinafter, by way of illustration and not by way of limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

fig. 1 is a schematic connection diagram of an infrared air conditioner control device according to an embodiment of the present invention;

fig. 2 is a schematic diagram of connection between an infrared air conditioner control device and an air conditioner, a cloud server and a mobile terminal according to an embodiment of the present invention;

fig. 3 is a schematic connection diagram of an infrared air conditioner control device according to another embodiment of the present invention;

fig. 4 is a schematic structural diagram of an infrared air conditioner control device according to an embodiment of the present invention.

Detailed Description

Fig. 1 is a schematic connection diagram of an infrared air conditioner control device 100 according to an embodiment of the present invention. Fig. 2 is a schematic diagram of connection between the infrared air conditioner control device 100 and the air conditioner, the cloud server 200 and the mobile terminal 300 according to an embodiment of the present invention. The utility model discloses an infrared air conditioner controlling means 100 is used for controlling air conditioner's operating condition, and air conditioner includes air conditioner control panel 401 and air conditioner internal unit 402, and air conditioner control panel 401 and air conditioner internal unit 402 all include infrared receiving terminal. As shown in fig. 1, in one embodiment, the infrared air conditioner control device 100 includes a communication module 30, a memory chip 40, a control chip 50 and a plurality of infrared transmitters 70. As shown in fig. 2, the communication module 30 is in communication connection with the cloud server 200, and is configured to receive infrared code library information and an air-conditioning operation mode control instruction sent by the cloud server 200, where the infrared code library information is obtained according to the model information of the air-conditioning control device sent by the mobile terminal 300, and the air-conditioning operation mode control instruction is generated by the mobile terminal 300 and sent to the cloud server 200. The air conditioner operation mode control command may include parameters such as a mode, a temperature, and a wind speed of the air conditioner. The storage chip 40 is connected to the communication module 30 and is used for storing the infrared code library information. The control chip 50 is connected to the communication module 30 and the storage chip 40, and is configured to generate an infrared control signal according to the air conditioner operating mode control instruction and the infrared code library information. And each infrared emitter 70 is connected with the control chip 50 and is used for sending an infrared signal to the air conditioner control panel 401 or the infrared receiving end of the air conditioner indoor unit 402 according to the infrared control signal so as to control the air conditioner to enter a corresponding working mode.

During specific application, in a scene including a plurality of air conditioning devices, an infrared air conditioning control device 100 is arranged, and the infrared air conditioning control device 100 is connected with the mobile terminal 300 and the cloud server 200 in an all-in-one mode. The mobile terminal 300 may acquire model information of an air conditioner to be controlled by the infrared air conditioner control device 100 through networking. For example, a corresponding application program is set on a mobile phone, and a target air conditioning device and a corresponding air conditioning operation mode control instruction, such as a control instruction for maintaining the temperature at 25-27 ℃ or controlling the wind speed at 2 steps, are selected on an interface of the application program. The mobile terminal 300 transmits the model information of the target air conditioner and a corresponding air conditioner operation mode control command to the cloud server 200. The cloud server 200 may provide corresponding infrared code library information according to the model information, and download the infrared code library information to the memory chip 40 of the infrared air conditioner control device 100 through the communication module 30. Here, the memory chip 4040 may be an HXD019D chip. Meanwhile, the cloud server 200 forwards the air conditioner working mode control instruction of the mobile terminal 300. The control chip 50 of the infrared air-conditioning control device 100 generates a corresponding infrared control signal according to the information, and controls the corresponding infrared emitter 70 to perform infrared communication with the air-conditioning control panel 401 of the target air-conditioning device or the infrared receiving end of the air-conditioning indoor unit 402, so that the target air-conditioning device performs corresponding working mode adjustment.

The infrared air-conditioning control device 100 of the above embodiment can realize remote control of the air-conditioning device, and since the infrared air-conditioning control device 100 is provided with the plurality of infrared transmitters 70, it is possible to control a plurality of air conditioners, and to realize efficient control of the air conditioners. For example, each infrared emitter 70 is respectively aligned with an air conditioner control panel 401 of an air conditioner in a place or an infrared receiving end of an air conditioner indoor unit 402, so that the working states of a plurality of air conditioners can be simultaneously controlled, and the air conditioner control panel is particularly suitable for unattended scenes, such as unattended sales shops, and realizes efficient remote management of air conditioners.

Further, since the infrared air conditioner control device 100 in this embodiment is separately installed, only the infrared emitter 70 needs to be aligned with the infrared receiving end of the air conditioner, and the existing air conditioner does not need to be modified, the application range is wide, the implementation is easy, the infrared air conditioner control device can be applied to various given scenes, has a high application value, and lays a foundation for the air conditioner to access the intelligent management system in each scene.

Fig. 3 is a schematic connection diagram of an infrared air conditioner control device 100 according to another embodiment of the present invention. As shown in fig. 3, in another embodiment, the infrared air conditioner control device 100 further includes a temperature and humidity sensor 10 connected to the control chip 50 for collecting temperature information and humidity information in the current environment. The control chip 50 is further configured to generate an infrared control signal according to the temperature information and the humidity information acquired by the temperature and humidity sensor 10, the air conditioner operating mode control instruction, and the infrared code library information.

In this embodiment, the temperature and humidity sensor 10 is arranged, and closed-loop control can be formed according to real-time real information of the temperature and humidity sensor 10, so that an area where an air conditioner is located can meet the requirement of target parameters as truly as possible.

In a further embodiment, the temperature and humidity sensor 10 is placed in an area where precise temperature control is required. Due to the arrangement, the temperature and humidity sensor 10 can reflect the real temperature better, and the air conditioning device can provide service better. This is because the existing air conditioner is provided with the temperature and humidity sensor 10, the position of the existing air conditioner is consistent with that of the air conditioner, and the position of the air conditioner is not necessarily a key area where the user really wants to perform temperature control, for example, a general air conditioner is arranged on the top of a house, but the temperature and humidity at the bedside when the user possibly wants to perform temperature control, which is that the temperature and humidity sensor 10 in the air conditioner cannot accurately reflect the actual temperature and humidity of the area. And because the temperature sensor of air conditioner is generally in the air outlet, because cold air subsides downwards, hot-air rises upwards, so there is very big difference in the temperature of air outlet and the regional temperature of actual refrigeration, can't satisfy people to the requirement of environmental comfort. Temperature and humidity sensor 10 that this embodiment set up alone can place according to the demand, provides reliable data basis to realizing the accurate regulation of air conditioning equipment humiture.

Optionally, the communication module 30 is a Zigbee communication module, that is, a Zigbee communication protocol is used to communicate with the outside through a gateway, so as to reduce power consumption.

In one embodiment, the memory chip 40 is further pre-stored with temperature and humidity control policy information. The control chip 50 is further configured to generate an infrared control signal according to the temperature and humidity control policy information, the temperature information and the humidity information acquired by the temperature and humidity sensor 10, and the infrared code library information.

In this embodiment, the operating state of the air conditioning device is controlled according to the preset temperature and humidity control policy information and the temperature information and humidity information collected by the temperature and humidity sensor 10, so that the infrared air conditioning control device 100 can also perform automatic adjustment without depending on the control instruction of the mobile terminal 300, thereby implementing automatic intelligent control of the air conditioning device.

The utility model discloses an in some embodiments, communication module 30 still with mobile terminal 300 communication connection for temperature information and humidity information that temperature and humidity sensor 10 gathered are sent to mobile terminal 300, with corresponding temperature value and humidity value of demonstration on mobile terminal 300. Therefore, a user can conveniently check the specific temperature and humidity conditions on the mobile phone in real time, and remote management is facilitated.

The existing infrared air conditioner control device 100 on the market is suitable for only one remote controlled device in the current environment. When a plurality of infrared receiving ends of a plurality of air conditioners exist in one room, the air conditioner panel cannot be accurately controlled. There is a possibility of false control and leakage control. Although the air conditioner has a wired protocol, the wired protocol of the air conditioner manufacturer is not open to a third party, and it is difficult to control the air conditioner through the wired protocol. To this problem, the present invention is improved as follows.

In one embodiment, each infrared emitter 70 includes an optical fiber for directionally guiding infrared light to precisely control the infrared emission direction of each infrared emitter 70. We have found that infrared light can be directed efficiently using optical fibers. The optical fiber can solve the problem of rough infrared control in the prior art. When the air conditioner is implemented, the optical fiber circuit can be guided to the air conditioner panel which is desired to be controlled at will. The infrared receiving end of the alignment panel can easily realize the accurate control of the air conditioner.

Fig. 4 is a schematic structural diagram of an infrared air conditioner control device 100 according to an embodiment of the present invention. As shown in fig. 4, in an embodiment, the communication module 30, the memory chip 40, the control chip 50 and the temperature and humidity sensor 10 are integrated in a base 60, and the base 60 is further provided with a plurality of infrared emission jacks 61 (4 are shown in fig. 4). Each infrared emitter 70 forms a pluggable connection with any infrared emitting jack 61.

The present embodiment forms an independent device, and the number of the connected devices can be selectively controlled by a plurality of pluggable infrared transmitters 70, so as to adapt to the application scenarios of a plurality of air conditioners.

In a further embodiment, as shown in FIG. 4, the infrared emitter 70 includes an infrared emitting plug 71, a gimbal mounting base 72, and an infrared signal emitter 73. The infrared-emitting plug 71 is provided at the infrared-emitting jack 61 in a pluggable manner. The infrared signal transmitter 73 is connected to the infrared transmitting plug 71 via an infrared transmitting line. The gimbal mount 72 is coupled to an infrared signal emitter 73 for forming a plurality of poses.

Alternatively, the infrared emitting jack 61 and the infrared emitting plug 71 are 3.5mm jacks and plugs, the infrared emitting jack 61 and the infrared emitting plug 71 are connected through soft infrared emitting rays, and the infrared light can be guided by the optical fiber.

The direction of the infrared signal emitter 73 can be adjusted at will through the arrangement of the universal fixing seat, so that the infrared signal emitter can better face the infrared receiving end of the air conditioner, the control is more accurate, and the infrared air conditioner control device 100 can adapt to various application scenes due to multi-directional adjustment.

The utility model discloses an infrared air conditioner controlling means 100's inside can set up the lithium cell and supply power, also can supply power by extrapolation 5V power, for example Micro USB 5V power supply interface 62 and power plug 80 on the base 60 in fig. 4. The base 60 is further provided with a networking key 63 and a working indicator lamp 64, the networking key 63 is used for operating networking or not, and the working indicator lamp 64 is used for indicating a corresponding working state. For example: electrifying, lighting the indicator light, and turning off the indicator light after the system initialization is finished (< 10S); pressing a key, if the equipment activates the indicator light, flashing once and then extinguishing, and sending an online data packet; pressing the key 5S for a long time, and lighting an indicator lamp to prompt a user to release the key to show that the adding process is ready to be carried out; pressing the key 10S for a long time, wherein the indicator light is turned off from the on state to prompt the user to release the key (automatically quitting after 15S), and the user is ready to enter a deleting process; and (4) slowly flashing the indicator lamp in the adding process, finally turning on the indicator lamp for about 3S, constantly turning on the indicator lamp in the deleting process, and turning off the indicator lamp after the deleting process is finished. The method comprises the steps that a key (5S-10S) is pressed for a long time, equipment enters an adding process, the equipment starts a network searching process, after the network is successfully accessed (the equipment exits the process after overtime within 1 min), a sub-equipment initiates a login request, then a login result is waited (the process exits and the network exits is started when the 30S is overtime or the login fails), and normal temperature collection and other work are started when the login success is received. After a key is pressed for a long time (10S), or a gateway deletion request is received, the equipment enters a deletion process, and after the equipment initiates a logout request, the equipment starts to quit the network.

In one embodiment, as shown in fig. 4, an identification code 65, such as a two-dimensional code, is further disposed on the base 60, so that the mobile terminal 300 can identify the infrared air conditioner control device 100 by shooting the identification code.

As shown in fig. 2, the utility model also provides an infrared air conditioner control system, including air conditioner device, mobile terminal 300, high in the clouds server 200 and any kind of infrared air conditioner control device 100 of the aforesaid. The air conditioner device comprises an air conditioner control panel 401 and an air conditioner internal unit 402, wherein the air conditioner control panel 401 and the air conditioner internal unit 402 both comprise infrared receiving ends. The mobile terminal 300 may be a mobile phone, a tablet, or the like, and may be replaced by a desktop computer or the like, and the remote control and state viewing of the air conditioner may be realized by setting a corresponding application program, so as to form a series of visual graphs for displaying, thereby facilitating the remote management of the user. The mobile terminal 300 is configured to send the model information of the infrared air conditioner control device 100 and an air conditioner operation mode control instruction to the cloud. The cloud server 200 is configured to obtain the infrared code library information of the air conditioner control device according to the model information, and send the infrared code library information and the air conditioner working mode control instruction to the infrared air conditioner control device 100. The cloud server 200 may be a platform such as an aricloud.

Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been shown and described in detail herein, many other variations and modifications can be made, consistent with the principles of the invention, which are directly determined or derived from the disclosure herein, without departing from the spirit and scope of the invention. Accordingly, the scope of the present invention should be understood and interpreted to cover all such other variations or modifications.

Claims

1. The utility model provides an infrared air conditioner controlling means for control air conditioner's operating condition, air conditioner includes air conditioner control panel and air conditioner internal unit, air conditioner control panel with air conditioner internal unit all includes infrared receiving terminal, its characterized in that, infrared air conditioner controlling means includes:

2. The infrared air conditioner control device according to claim 1, further comprising:

3. The infrared air-conditioning control device according to claim 2,

the communication module is in communication connection with the mobile terminal and is used for sending the temperature information and the humidity information collected by the temperature and humidity sensor to the mobile terminal so as to display corresponding temperature values and humidity values on the mobile terminal.

4. The infrared air-conditioning control device according to claim 2,

the temperature and humidity sensor is placed in an area where temperature needs to be accurately controlled.

5. The infrared air-conditioning control device according to claim 1,

each of the infrared emitters includes an optical fiber for directionally guiding infrared light.

6. The infrared air-conditioning control device according to claim 1,

the communication module is a Zigbee communication module.

7. The infrared air-conditioning control device according to any one of claims 2 to 4,

the communication module, the storage chip, the control chip and the temperature and humidity sensor are all integrated in a base, and the base is further provided with a plurality of infrared emission jacks;

8. The infrared air conditioner control device as claimed in claim 7, wherein said infrared transmitter comprises:

9. The infrared air-conditioning control device according to claim 7,

and an identification code is further arranged on the base, so that the mobile terminal can identify the infrared air conditioner control device by shooting the identification code.

10. An infrared air conditioner control system, includes air conditioner device, mobile terminal, high in the clouds server and the infrared air conditioner control device of any of claims 1-9, air conditioner device includes air conditioner control panel and air conditioner internal unit, air conditioner control panel with the air conditioner internal unit all includes infrared receiving terminal.