CN108204655A - Air-conditioning internal machine universal machine selects initialization system and method - Google Patents
Air-conditioning internal machine universal machine selects initialization system and method Download PDFInfo
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Abstract
The present invention provides a kind of air-conditioning internal machine universal machines to select initialization system, and the air-conditioning internal machine universal machine selects initialization system to include:Tooling is set, machine matches the set information of function in reception, and the set information is converted to wireless signal and is emitted;Interior machine controller including general utility functions wiring board, and is stored with all apolegamy functional parameters, the interior machine controller receives the wireless signal, according to machine configuration information in wireless signal acquisition, corresponding apolegamy functional parameter is called, function setting is carried out to interior machine.Air-conditioning internal machine universal machine of the present invention selects initialization system, function selection setting is carried out by air-conditioning internal machine controller using general external setting tooling, so as to enhance air-conditioning internal machine controller versatility, reduce workload and production complexity of the research staff in type apolegamy.
Description
Technical Field
The invention relates to the field of air conditioners, in particular to a universal machine selection setting system and a universal machine selection setting method for an air conditioner indoor unit.
Background
At present, the air conditioner industry is developed according to the demands of markets and customers, and the air conditioner internal unit controllers are diversified in style and function design. In the prior art, according to different functional requirements of customers (heat pump/single cooling, temperature setting/ring temperature, platform selection, wind speed combination, power failure memory and the like), functional matching needs to be performed through a patch or a hand-plugging corresponding component or module, so that the matching process is complex and the workload is large, for example, the difference of the selection of a functional selection resistor causes the difference of a surface mount layer (SMT) or a horizontally-plugged AW layer, and further causes the change of a vertically-plugged AI layer; corresponding function settings (a stepping motor terminal, an anion wire, a Wi-Fi wire, a four-way valve relay and the like) are also arranged on the CJ layer of the hand-inserting process, and then differentiation of the controller is caused. Because a large number of material numbers are generated due to a small number of device differences for selecting functions, great influence is brought to design and production, and the problem of generalization needs to be solved.
Disclosure of Invention
In view of the above, the present invention provides a system and a method for universal machine selection setting of an air conditioner internal unit, in which a universal external setting tool is used to perform function selection setting through an air conditioner internal unit controller, so as to achieve the purposes of reducing the types of circuit boards and improving the matching degree.
In order to achieve the purpose, the technical scheme of the invention is realized as follows:
the utility model provides a general machine of air conditioner indoor unit selects settlement system, the general machine of air conditioner indoor unit selects settlement system includes:
the setting tool is used for receiving the setting information of the internal machine matching function and converting the setting information into a wireless signal to be transmitted;
the internal machine controller comprises a universal function circuit board and stores all matching function parameters, receives the wireless signal, acquires internal machine configuration information according to the wireless signal, calls corresponding matching function parameters, and sets functions of the internal machine.
Further, set up the frock and include:
the interface module receives the setting information;
the interface module is connected with the tool MCU, and the tool MCU receives the setting information from the interface module and temporarily stores the setting information; when the function of the internal machine is set, the tool MCU converts the setting information into an electric signal to be sent;
and the wireless transmitting module is connected to the tool MCU and used for converting the electric signal into a wireless signal and outputting the wireless signal to the to-be-set internal machine controller.
Further, the indoor unit controller includes:
the wireless receiving module is used for receiving the wireless signals sent by the wireless transmitting module and converting the wireless signals into electric signals;
the memory chip stores all the matching function parameters and is used for being provided for the internal machine board MCU303 to be called and carrying out function setting on the internal machine;
and the internal machine board MCU is connected with the wireless receiving module and the storage chip and is used for receiving the electric signals acquired by the wireless receiving module, processing the signals to acquire setting information, calling and matching corresponding parameters in the storage chip according to the setting information and correspondingly setting the universal function circuit board according to the corresponding functional parameters.
Further, set up the frock and still include:
the reset key is used for resetting the tool MCU;
and the power supply module is used for providing a working power supply for the tool MCU.
Further, the general machine selection setting system for the air conditioner internal unit further comprises:
the bar code identification system is connected to the setting tool, the setting information of the corresponding machine type is obtained through matching by scanning the characteristic code of the internal machine, the bar code system is an MES bar code functional component or a computer with a bar code identification module, and the bar code identification system comprises:
the scanning gun scans the internal machine feature code to obtain the internal machine feature code and outputs the obtained internal machine feature code;
and the bar code system is connected to the scanning gun, and is used for matching the characteristic bits of the internal machine characteristic codes with the characteristic code information of the machine type code matching table to obtain the internal machine type codes, determining the functions of the corresponding machine types according to the machine type codes and the machine type configuration table, and outputting the set information of the corresponding functions through the communication interface.
Furthermore, the model configuration table defines functions of each model, and is updated at regular time through the configuration table in the PDM; the setting information is a three-bit hexadecimal code generated by the internal machine after function matching and is used for representing the function needing to be set.
Further, the general machine selection setting system for the air conditioner internal unit further comprises:
and the detection remote controller is used for sending verification information to the internal controller, and the verification information comprises setting information for verification and verification commands corresponding to various functions.
Compared with the prior art, the universal machine selection setting system for the air conditioner internal unit has the following advantages:
the general machine selection setting method for the air conditioner indoor unit realizes half reduction of production material types of the machine selection setting controller through producing a general board of the full-function controller and calling parameters of the storage chip through the external setting tool, reduces the workload of research and development personnel on machine type matching, can reduce the material types after sale, reduces the production complexity by half, and increases the lean management space; the parameter type electric control repair is not disassembled, so that the efficiency is greatly improved; and effectively reduce the kind of circuit board, improve the matching degree, fundamentally has solved the controller and has replaced the influence that frequent brings for production.
The invention also aims to provide a universal machine selection setting method for the air conditioner indoor unit, so as to achieve the purposes of enhancing the universality of a controller of the air conditioner indoor unit and reducing the workload and production complexity of research personnel on machine type selection.
In order to achieve the purpose, the technical scheme of the invention is realized as follows:
a general machine selection setting method for an air conditioner indoor unit comprises the following steps:
step S1, acquiring the setting information of the internal machine matching function;
step S2, the setting tool receives the setting information, and when the setting of the internal machine selection is needed, the setting tool converts the setting information into a wireless signal to be transmitted;
step S3, the internal machine controller receives the wireless signal from the setting tool, processes the wireless signal to obtain the setting information, and calls the corresponding parameter in the storage chip according to the setting information; and correspondingly setting the universal functional circuit board according to the corresponding functional parameters to realize the setting of the air-conditioning functional device.
Further, the step S1 further includes: the bar code recognition system (10) outputs the setting information of the corresponding function after matching the obtained feature codes by scanning the feature codes on the internal machine;
before the step S1, the method further includes:
step S0, burning parameters corresponding to all the matching functions in the memory chip, including: heat pump/single cooling, temperature setting/ring temperature setting, platform selection, wind speed combination and power failure memory;
after the step S3, the method further includes:
and step S4, sending setting information to the internal machine controller by detecting the remote controller, wherein if the setting information sent by the detecting remote controller is matched with the internal machine feature code information, the internal machine controller responds to the detecting remote controller, and the detecting remote controller sends corresponding checking commands of various functions to check the accuracy of the set functions.
Further, the step S1 includes:
the bar code recognition system scans the feature codes on the internal machine through the scanning gun, transmits the obtained feature codes to the bar code system, the bar code system corresponds to the corresponding machine type codes through the feature codes, determines the functions to be set and the corresponding set information according to the machine type codes, and outputs the set information through the communication interface;
the step S2 includes:
the interface module receives the setting information output by the bar code system and sends the setting information to the tool MCU; the setting information is temporarily stored in the tool MCU; when the function of the internal machine is set, the tool MCU converts the setting information into an electric signal and sends the electric signal to the wireless transmitting module; the wireless transmitting module converts the electric signal into a wireless signal and transmits the wireless signal to the internal machine controller to be set;
the step S3 includes:
the wireless receiving module 301 receives a wireless signal sent by the wireless transmitting module in the setting work and converts the wireless signal into an electric signal; and the inner machine board MCU processes the electric signal acquired by the wireless receiving module to acquire setting information, reads a control signal to a storage chip according to the setting information, calls corresponding parameters in the storage chip and correspondingly sets the universal function circuit board according to the corresponding functional parameters.
The advantages of the general machine selection setting method for the air conditioner indoor unit and the advantages of the general machine selection setting system for the air conditioner indoor unit relative to the prior art are the same, and are not described herein again.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:
fig. 1 is a schematic diagram of a general machine selection setting system for an air conditioner internal unit according to an embodiment of the present invention;
fig. 2 is a flowchart of a general machine selection setting method for an air conditioner internal unit according to an embodiment of the present invention.
Description of reference numerals:
10-a bar code identification system-the bar code identification system,
101-a scanning gun, 102-a bar code system,
20-setting a tool, namely setting a tool,
201-interface module, 202-tooling MCU, 203-wireless transmitting module, 204-reset button, 205-power module;
30-the internal machine controller is used for controlling the internal machine,
301-wireless receiving module, 302-memory chip, 303-internal machine board MCU
40-detecting the remote controller.
Detailed Description
It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.
In addition, the option mentioned in the embodiment of the present invention refers to configuring functions of an air conditioner internal unit, for example, setting a function selection resistor, a stepping motor terminal, an anion line, a Wi-Fi line, a four-way valve relay, and the like.
The invention provides a universal machine selection setting system and method for an air conditioner indoor unit. All the functions of the whole machine are integrated into one circuit board to realize a 'full-function' circuit board, a universal program is used for burning all matching function parameters, such as heat pump/single cooling, temperature setting/loop temperature, platform selection, wind speed combination, power failure memory and the like, into a storage chip, the universal function circuit board is correspondingly set according to the corresponding function parameters, and the function setting is carried out on the machine, so that the universality of the controller of the air conditioner machine is enhanced, and the workload and the production complexity of research personnel on machine type matching are reduced.
The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.
In a first embodiment of the invention, a general-purpose machine selection setting system for an air conditioner indoor unit is provided. Fig. 1 is a schematic diagram of a general machine selection setting system for an air conditioner internal unit according to an embodiment of the present invention. As shown in fig. 1, the general machine selection setting system for the air conditioner internal unit includes: bar code identification system 10, setting tool 20 and internal machine controller 30.
The bar code identification system 10 includes a scan gun 101 and a bar code system 102. Wherein,
the scan gun 101 typically communicates with the bar code system using a serial communication interface. The scanning gun 101 scans the internal machine feature code to obtain the internal machine feature code, and transmits the obtained internal machine feature code to the bar code system 102; the serial communication interface may be an RS232 interface.
And the bar code system 102 is connected to the scanning gun, and the bar code system 102 matches the characteristic code information of the internal machine characteristic code with characteristic code and model code matching table to obtain the internal machine model code, determines the function of the corresponding model according to the model code and the model configuration table, and outputs the setting information of the corresponding function.
The feature codes and the model code matching table are in one-to-one mapping relationship, and the feature codes can correspond to unique model codes through feature bits contained in the feature codes. The model configuration table specifies functions of each model, and can be updated at regular time by a configuration table in a PDM (Product Data Management). The setting information is a three-bit hexadecimal code generated by the internal machine after function matching and is used for representing the function needing to be set. In particular, the barcode System is an MES (Manufacturing Execution System) barcode functional component or a dedicated computer having a barcode recognition module.
The setting tool 20 includes: the device comprises an interface module 201, a tooling MCU202 and a wireless transmitting module 203. Wherein,
the interface module 201 is connected with a communication interface of the bar code system 102, communicates with a computer equipped with an MES or bar code system through a standard communication protocol, and sends set information to a tool MCU. The interface module employs an RS232 communication interface corresponding to the communication interface of the barcode system 102.
The tool MCU202 is connected to the interface module and the wireless transmitting module, and is used for receiving the setting information from the interface module and temporarily storing the setting information; when the function of the internal machine is set, the tool MCU202 converts the setting information into an electric signal and sends the electric signal to the wireless transmitting module. In particular, the tooling MCU202 adopts a single chip microcomputer.
The wireless transmitting module 203 is connected to the tool MCU202 and is used for converting an electric signal into a wireless signal and outputting the wireless signal to the internal machine controller to be set. Preferably, the wireless transmitting module 203 may adopt an infrared transmitting tube, an NFC device, a WiFi module, a bluetooth module, or the like. Particularly, when the wireless transmission module 203 adopts an infrared transmission tube, the infrared transmission tube receives a square wave signal transmitted by the tool MCU202 and converts the square wave signal into an infrared signal for transmission.
In some embodiments, the setting tool 20 further includes a reset key 204, and the reset key is used for resetting the tool MCU202 of the setting tool 20 to ensure that the program is normal.
In some embodiments, the setting tool 20 further includes a power module 205, configured to provide a working power supply to the tool MCU of the setting tool.
The internal controller 30 includes a wireless receiving module 301, a memory chip 302 and an internal board MCU 303. Wherein,
the wireless receiving module 301 is configured to receive a wireless signal sent by the wireless transmitting module during a setting operation, and convert the wireless signal into an electrical signal. Preferably, the wireless receiving module 301 may adopt an infrared receiving tube, an NFC device, a WiFi module, a bluetooth module, or the like. Particularly, when the wireless receiving module 301 adopts an infrared receiving tube, the infrared receiving tube receives an infrared signal and converts the infrared signal into a square wave signal to be transmitted to the internal circuit board MCU 303.
The memory chip 302 stores all matching function parameters including heat pump/single cooling, set temperature/loop temperature, platform selection, wind speed combination, power failure memory and the like, and is used for providing the parameters for the MCU303 of the internal machine board to call and carrying out function setting on the internal machine; the memory chip 302 may be an EE memory chip.
The internal machine board MCU303 is connected to the wireless receiving module 301 and the memory chip 302, and when receiving the electrical signal obtained by the wireless receiving module 302, processes the signal to obtain setting information, and invokes and matches corresponding parameters in the memory chip 302 according to the transmitted setting information to control some devices, for example, setting a function selection resistor, a stepping motor, an anion line, a Wi-Fi line, a four-way valve relay, and the like, so as to implement setting of corresponding functions.
In the embodiment, after the assembly of the whole internal machine is finished, the bar code of the internal machine is scanned, data is transmitted to the special computer, the feature code information in the bar code is matched with the configuration information of an MES or bar code system, the setting information obtained after matching is sent to a setting tool, and the setting tool is communicated with a special PC through an RS232 interface and is communicated with the special computer provided with the MES or bar code system through an RS232 standard communication protocol; the setting tool MCU passively receives setting information from the serial port, converts the setting information into an electric signal, transmits the electric signal to the wireless module, and controls the wireless module to transmit a wireless signal. Preferably, when the wireless signal is sent out through the wireless transmission module, a signal shielding plate is needed to enable the signal to be only transmitted and set to the directional air conditioner.
In some embodiments, it is necessary to detect the accuracy of the function setting after the air conditioner internal unit is set, and the detection is preferably performed by using the detection remote controller 40. The detection remote controller 40 included in the universal machine selection setting system for the indoor unit of the air conditioner is used for sending verification information to the indoor unit controller, and the verification information comprises setting information for verification and verification commands corresponding to various functions. The basic functions are detected by the detection remote controller 40 through the characteristic codes of the batch set in advance on the internal machine to be detected. If the setting information transmitted from the detection remote controller 40 does not match the indoor unit feature code information, the indoor unit controller 30 does not respond to the detection remote controller.
Thus, the first embodiment of the present invention has been described.
In a second exemplary embodiment of the present invention, a method for setting a general machine selection of an air conditioner indoor unit is provided, and fig. 2 is a flowchart of the method for setting the general machine selection of the air conditioner indoor unit according to the embodiment of the present invention. As shown in fig. 2, the method includes:
step S0, burn in advance all parameters corresponding to the matching functions, such as heat pump/single cold, set temperature/ambient temperature, platform selection, wind speed combination, power failure memory and the like, in the memory chip 302 installed on the internal machine controller 30;
step S1, scanning the feature code on the internal machine through the code scanner 101, transmitting the obtained feature code data to the bar code system 102, and outputting corresponding setting information after matching by the bar code system 102;
step S2, the setting tool 20 receives the setting information, and when the internal machine selection setting is required, the setting tool 20 converts the setting information into a wireless signal for transmission;
step S3, the internal machine controller 30 receives the wireless signal from the setting tool 20, processes the wireless signal to obtain setting information, and calls corresponding parameters in the memory chip 302 according to the setting information; setting the air-conditioning functional device through the called parameters, and correspondingly setting the general functional circuit board according to the corresponding functional parameters;
in step S4, the accuracy of the setting function is verified by detecting that the remote controller 40 transmits verification information to the internal controller 30.
Further, the step S1 includes:
the scanning gun 101 scans the feature codes on the internal machine, the obtained feature codes are transmitted to the bar code system, the bar code system 102 outputs corresponding setting information after matching, and the bar code system 102 transmits the setting data to the setting tool 20 through the communication interface.
Furthermore, the matching is that the feature codes correspond to corresponding model codes, and the model codes determine the setting information and the functions required to be set. The feature bits contained in the feature codes can correspond to the model codes, and the model codes can correspond to the feature codes through the configuration table, which is a one-to-one mapping relation. The setting information is a three-bit hexadecimal code generated by the internal machine after function matching and is used for representing the function needing to be set. The model configuration table can be updated regularly through a configuration table in the PDM.
Further, the step S2 includes:
the interface module 201 communicates with a computer equipped with an MES or bar code system through a standard communication protocol, and sends the setting information to the tool MCU 202. The setting information is temporarily stored in the tool MCU 202; when the function of the internal machine is set, the tool MCU202 converts the setting information into an electric signal and sends the electric signal to the wireless transmitting module 203; the wireless transmitting module 203 converts the electric signal into a wireless signal and outputs the wireless signal, and transmits the wireless signal to the to-be-set internal machine controller 30.
Preferably, when the wireless signal is transmitted through the wireless transmission module 203, a "signal shielding plate" is needed to allow the signal to be set only for transmitting the directional air conditioner.
Preferably, when the setting tool 20 fails in operation, the reset key 204 is used to reset the setting tool 20, so as to ensure that the program is normal.
Preferably, a power module provides a working power supply for the tool MCU of the setting tool in the working process of the setting tool 20.
Further, the step S3 includes:
the wireless receiving module 301 receives a wireless signal sent by the wireless transmitting module 203 in the setting work; the MCU303 of the internal board processes the signal obtained by the wireless receiving module 301 to obtain setting information, transmits a control signal to the memory chip 302 according to the transmitted setting information, and invokes corresponding parameters in the memory chip 302 to control some devices, such as a function selection resistor, a stepping motor terminal, an anion line, a Wi-Fi line, a four-way valve relay, and the like, so as to set corresponding functions.
The memory chip 302 stores all matching function parameters including heat pump/single cooling, temperature setting/ring temperature, platform selection, wind speed combination, power failure memory and the like, and is used for providing the internal board computer MCU303 with EE parameters to call the internal board computer to perform function setting;
further, the step S4 includes:
after the air conditioner internal unit is set, the accuracy of function setting is preferably detected by using the detection remote controller 40. The detection remote controller 40 included in the universal machine selection setting system for the indoor unit of the air conditioner sends verification information to the indoor unit control module 30, wherein the verification information comprises setting information for verification and verification commands corresponding to various functions. Specifically, the characteristic code of the batch is set in advance on the internal machine to be detected, the setting information is sent to the internal machine controller 30 through the detection remote controller 40, if the setting information sent by the detection remote controller 40 is matched with the internal machine characteristic code information, the internal machine controller 30 responds to the detection remote controller 40, and the detection remote controller 40 sends corresponding verification commands of various functions again to verify the accuracy of the set function.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.
Claims (10)
1. The utility model provides an air conditioner internal unit general machine selects settlement system which characterized in that, air conditioner internal unit general machine selects settlement system includes:
the setting tool (20) is used for receiving the setting information of the internal machine matching function and converting the setting information into a wireless signal to be transmitted;
the internal machine controller (30) comprises a universal function circuit board and stores all matching function parameters, the internal machine controller (30) receives the wireless signals, acquires internal machine configuration information according to the wireless signals, calls the corresponding matching function parameters, and sets functions of the internal machine.
2. The general machine selection setting system for the indoor unit of the air conditioner as claimed in claim 1, wherein the setting tool (20) comprises:
an interface module (201) that receives the setting information;
the tooling MCU (202), the interface module (201) is connected with the tooling MCU (202), and the tooling MCU (202) receives the setting information from the interface module (201) and temporarily stores the setting information; when the function of the internal machine is set, the tool MCU (202) converts the setting information into an electric signal to be sent;
and the wireless transmitting module (203) is connected to the tool MCU (202) and is used for converting the electric signal into a wireless signal and outputting the wireless signal to the internal machine controller (30) to be set.
3. The general machine selection setting system for an indoor unit of an air conditioner according to claim 2, wherein the indoor unit controller (30) includes:
the wireless receiving module (301) is used for receiving the wireless signal sent by the wireless transmitting module (203) and converting the wireless signal into an electric signal;
the memory chip (302) is used for storing all the matching function parameters and providing the parameters for the MCU (303) of the internal machine board to call so as to set the functions of the internal machine;
and the internal machine board MCU (303) is connected with the wireless receiving module (301) and the storage chip (302) and is used for receiving the electric signal acquired by the wireless receiving module (302), processing the signal to acquire setting information, calling and matching corresponding parameters in the storage chip (302) according to the setting information and correspondingly setting the universal function circuit board according to the corresponding function parameters.
4. The general machine selection setting system for the indoor unit of the air conditioner as claimed in claim 2, wherein the setting tool (20) further comprises:
a reset key (204) for resetting the tool MCU (202);
and the power supply module (205) is used for providing a working power supply for the tool MCU (202).
5. The general machine selection setting system for indoor units of air conditioners as claimed in claim 1, wherein the general machine selection setting system for indoor units of air conditioners further comprises:
bar code identification system (10), be connected to set for frock (20), through scanning interior machine feature code, obtain the settlement information of corresponding model through the matching, include:
the scanning gun (101) scans the internal machine feature code to obtain the internal machine feature code and outputs the obtained internal machine feature code;
the bar code system (102) is connected to the scanning gun (101), the bar code system (102) is an MES bar code functional component or a computer with a bar code identification module, the bar code system (102) matches the feature bit of the internal machine feature code with the feature code information of a machine model code matching table to obtain the internal machine model code, determines the function of a corresponding machine model according to the machine model code and the machine model configuration table, and outputs the setting information of the corresponding function to the setting tool (20) through a communication interface.
6. The general-purpose machine selection setting system for an indoor unit of an air conditioner according to claim 5,
the model configuration table specifies functions of each model, and is updated at regular time through the configuration table in the PDM; the setting information is a three-bit hexadecimal code generated by the internal machine after function matching and is used for representing the function needing to be set.
7. The system for setting the machine selection of an indoor unit of an air conditioner according to claim 6, further comprising:
and the detection remote controller (40) is used for sending verification information to the internal controller (30), and the verification information comprises setting information for verification and verification commands corresponding to various functions.
8. A general machine selection setting method for an air conditioner indoor unit, which adopts the general machine selection setting system for the air conditioner indoor unit as claimed in any one of claims 1 to 7, and is characterized by comprising the following steps:
step S1, acquiring the setting information of the internal machine matching function;
step S2, the setting tool (20) receives the setting information, and when the internal machine selection setting is needed, the setting tool (20) converts the setting information into a wireless signal to be transmitted;
step S3, the internal machine controller (30) receives the wireless signal from the setting tool (20), processes the wireless signal to obtain the setting information, and calls the corresponding parameters in the storage chip (302) according to the setting information; and correspondingly setting the universal functional circuit board according to the corresponding functional parameters to realize the setting of the air-conditioning functional device.
9. The general-purpose machine selection setting method for an indoor unit of an air conditioner according to claim 8,
the step S1 further includes: the bar code recognition system (10) outputs the setting information of the corresponding function after matching the obtained feature codes by scanning the feature codes on the internal machine;
before the step S1, the method further includes:
step S0, burning parameters corresponding to all matching functions in the memory chip (302) in advance, including: heat pump/single cooling, temperature setting/ring temperature setting, platform selection, wind speed combination and power failure memory;
after the step S3, the method further includes:
and step S4, sending setting information to the internal machine controller (30) by detecting the remote controller (40), wherein if the setting information sent by the detecting remote controller (40) is matched with the internal machine feature code information, the internal machine controller (30) responds to the detecting remote controller (40), and the detecting remote controller (40) sends corresponding verification commands of various functions to verify the accuracy of the set functions.
10. The general-purpose machine selection setting method for an indoor unit of an air conditioner according to claim 8,
the step S1 includes:
the bar code recognition system (10) scans the feature codes on the internal machine through the scanning gun (101), transmits the obtained feature codes to the bar code system (102), the bar code system (102) corresponds to the corresponding machine type codes through the feature codes, determines the functions to be set and the corresponding set information according to the machine type codes, and outputs the set information through the communication interface;
the step S2 includes:
the interface module (201) receives the setting information output by the bar code system (102) and sends the setting information to the tool MCU (202); the setting information is temporarily stored in a tool MCU (202); when the function of the internal machine is set, the tool MCU (202) converts the setting information into an electric signal and sends the electric signal to the wireless transmitting module (302); the wireless transmitting module (302) converts the electric signal into a wireless signal and transmits the wireless signal to the internal machine controller to be set;
the step S3 includes:
the wireless receiving module (301) receives a radio signal sent by the wireless transmitting module (302) in the set work and converts the radio signal into an electric signal; and after receiving the electric signal acquired by the wireless receiving module (301), the internal machine board MCU (303) processes the signal to acquire setting information, reads a control signal to the memory chip (302) according to the setting information, calls corresponding parameters in the memory chip (302), and correspondingly sets the universal function circuit board according to the corresponding function parameters.
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| CN201711474712.7A CN108204655A (en) | 2017-12-29 | 2017-12-29 | Air-conditioning internal machine universal machine selects initialization system and method |
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| CN201711474712.7A CN108204655A (en) | 2017-12-29 | 2017-12-29 | Air-conditioning internal machine universal machine selects initialization system and method |
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| CN111895579A (en) * | 2020-07-28 | 2020-11-06 | 宁波奥克斯电气股份有限公司 | Control method and device for testing air conditioner, remote controller and air conditioner |
| CN112484246A (en) * | 2020-11-04 | 2021-03-12 | 珠海格力电器股份有限公司 | Auxiliary programming method, device and equipment for air conditioner controller |
| CN112503717A (en) * | 2020-11-02 | 2021-03-16 | 珠海格力电器股份有限公司 | Control method and device of universal air conditioner controller and universal air conditioner controller |
| CN113418270A (en) * | 2021-05-14 | 2021-09-21 | 青岛海尔空调电子有限公司 | Parameter configuration method, device and medium for indoor unit controller |
| CN113606734A (en) * | 2021-08-06 | 2021-11-05 | 珠海格力电器股份有限公司 | Air conditioner control method and device, storage medium and air conditioner |
| CN114034110A (en) * | 2021-11-29 | 2022-02-11 | 四川虹美智能科技有限公司 | Parameter setting method of air conditioning system |
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