CN109857415B - Burning device and automatic parameter selection burning method thereof - Google Patents
Burning device and automatic parameter selection burning method thereof Download PDFInfo
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- CN109857415B CN109857415B CN201910157407.8A CN201910157407A CN109857415B CN 109857415 B CN109857415 B CN 109857415B CN 201910157407 A CN201910157407 A CN 201910157407A CN 109857415 B CN109857415 B CN 109857415B
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Abstract
The invention relates to a burning device and a parameter automatic selection burning method thereof.A parameter modifier after sale is used for transmitting a parameter modification instruction, a data parameter and a transmission state inquiry instruction; the first infrared code sender is used for feeding back model information and parameters to the after-sales parameter modifier; the second air conditioner receiver is used for receiving the parameter modification instruction output by the after-sales parameter modifier, the data parameter and the transmission state query instruction and transmitting the data parameter and the transmission state query instruction; the decoder decodes and checks to obtain model parameters and modified parameter transmission; and the main control board is used for receiving model parameters and modification parameter transmission output by the decoder in decoding and checking and storing the model parameters and the modification parameters into the memory. The invention has the beneficial effects that: the structure combines and uses the first infrared code sender, the second air conditioner receiver, the decoder, the main control board and the memory device, and plays the roles of improving the production efficiency, avoiding dismounting and welding and directly modifying parameters.
Description
Technical Field
The invention relates to the technical field of household appliances, in particular to a burning device and a parameter automatic selection burning method thereof.
Background
In the existing instant heating type household appliance, components need to be tested for voltage in the production process, and the components are screened in a water flow mode, so that the difference of control programs to individuals of input parameters is reduced, and the production consistency of the product is ensured.
Not only does the manual work of screening components and parts waste time and energy, but also production efficiency is low to because leak probably leads to bad board to produce.
Disclosure of Invention
The invention aims to overcome the defects of the prior art and provides a burning device which can improve the production efficiency, is free from dismounting and welding and can directly modify parameters and an automatic parameter selection burning method thereof.
The invention describes a burning device, comprising:
and the after-sale parameter modifier is used for transmitting a parameter modification instruction, a data parameter and a transmission state query instruction.
And the first infrared code sender is used for feeding back the model information and the parameters to the after-sales parameter modifier.
And the second air conditioner receiver is used for receiving the parameter modification instruction output by the after-sale parameter modifier, the data parameter and the transmission state query instruction and transmitting the data parameter and the transmission state query instruction.
And the decoder is used for receiving the parameter modification instruction, the data parameter and the transmission state inquiry instruction transmitted by the second air conditioner receiver, decoding and checking to obtain the model parameter and the modification parameter transmission, and judging whether the model parameter and the modification parameter are legally fed back to the infrared code transmitter and sending information by the feedback infrared code transmitter.
And the main control board is used for receiving model parameters and modification parameter transmission output by the decoder in decoding and checking and storing the model parameters and the modification parameters into the memory.
Specifically, the after-sales parameter modifier further includes:
and the second infrared code sending unit is used for sending the parameter modification instruction, the data parameter and the inquiry state instruction.
And the second infrared receiving unit is used for receiving the model information and the parameters and implementing feedback.
And the operation processing unit is respectively connected with the second infrared code sending unit and the second infrared receiving unit, analyzes the model information and the parameters input by the second infrared receiving unit, and feeds back the model information and the parameters to the first infrared code sending device through the second infrared receiving unit according to the parameter modification instruction, the data parameters and the emission state inquiry instruction.
And the liquid crystal screen, the first infrared code transmitter and the operation processing unit are connected, and the use state of the operation processing unit is displayed.
And the key is used for setting parameters by an operator and inputting the parameters to the arithmetic processing unit.
Specifically, the main control board is connected with a display, and the display is used for displaying the working state of the main control board.
The invention also discloses a parameter automatic selection burning method of the burning device, which comprises the following steps:
step one, the after-sales parameter modifier transmits a parameter modification instruction, a data parameter and a transmission state query instruction.
And step two, the second air conditioner receiver receives the parameter modification instruction output by the after-sale parameter modifier, the data parameter and the transmission state query instruction and transfers the data parameter and the transmission state query instruction.
And step three, the decoder receives the parameter modification instruction, the data parameter and the transmission state inquiry instruction transmitted by the second air conditioner receiver, decodes and checks the parameter modification instruction, obtains the model parameter and the modification parameter transmission which can be identified by the main control board, and judges whether the information is legally fed back to the infrared code sender and is transmitted by the feedback infrared code sender.
And step four, the master control board carries out decoding and checks the output model parameters and modification parameter transmission, and stores the parameters into the memory.
Specifically, further, in the step one: when the mobile terminal is started, the first infrared code sender feeds back the model information and the parameters to the after-sales parameter modifier.
Specifically, further, in the step one: after the after-sale parameter modifier receives the primary model information and the primary model parameters, the model information and the primary model parameters are converted and displayed on the liquid crystal display screen in the operation processing unit, and operation of an operator is facilitated.
Specifically, further, in the step one: when the setting is needed, the related modified data parameters are input through the keys, and the operation processing unit sends the modified data parameters through the second infrared receiving unit.
The invention has the beneficial effects that: this structure uses through first infrared code sender, second air conditioner receiver, decoder, main control board and the combination of RAM ware, plays can promote production efficiency, exempts from to dismantle the welding and can directly modify the parameter.
Drawings
FIG. 1 is a schematic connection diagram of a recording apparatus according to the present invention.
FIG. 2 is a connection diagram of the internal components of the after-market parameter modifier of the present invention.
The figures are numbered as follows: a first infrared code transmitter 1; a second air conditioner receiver 2; a decoder 3; a main control board 4; a memory device 401; a display 5; an after-market parameter modifier 6; a second infrared code-sending unit 601; a second infrared receiving unit 602; an operation processing unit 603; a liquid crystal screen 604; and a key 605.
Detailed Description
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.
The following describes a recording apparatus according to an embodiment of the present invention with reference to fig. 1 to 2, including:
and the after-sale parameter modifier 6 is used for transmitting a parameter modification instruction, a data parameter and a transmission state query instruction.
And the first infrared code sender 1 is used for feeding back model information and parameters to the after-sales parameter modifier 6.
And the second air conditioner receiver 2 is used for receiving the parameter modification instruction, the data parameter and the transmission state query instruction output by the after-sales parameter modifier 6 and transmitting the parameter modification instruction, the data parameter and the transmission state query instruction.
And the decoder 3 is used for receiving the parameter modification instruction, the data parameter and the transmission state inquiry instruction transmitted by the second air conditioner receiver 2, decoding and checking the parameter modification instruction, obtaining the model parameter and the modification parameter transmission, judging whether the model parameter and the modification parameter transmission are legal or not, feeding back the information to the infrared code transmitter 1, and sending the information by the feedback infrared code transmitter 1.
And the main control board 4 is configured to receive model parameters and modification parameter transmission output by the decoder 3 for decoding and checking, and store the model parameters and modification parameter transmission into the memory 401.
Specifically, the after-sales parameter modifier 6 further includes:
the second infrared code sending unit 601 is configured to send a parameter modification instruction, a data parameter, and a query status instruction.
And a second infrared receiving unit 602, configured to receive model information and parameters, and implement feedback.
And the operation processing unit 603 is connected with the second infrared code sending unit 601 and the second infrared receiving unit 602 respectively, analyzes the model information and parameters input by the second infrared receiving unit 602, and feeds back the model information and parameters to the first infrared code sender 1 through the second infrared receiving unit 602 according to the parameter modification instruction, the data parameters and the emission state query instruction.
The liquid crystal panel 604, the first infrared code transmitter 1 and the arithmetic processing unit 603 are connected to each other, and the operation state of the arithmetic processing unit 603 is displayed.
A key 605 for an operator to set parameters and input to the arithmetic processing unit 603.
Specifically, the main control board 4 is connected to a display 5, and the display 5 is used for displaying the working state of the main control board 4.
Meanwhile, the invention also discloses a parameter automatic selection burning method implemented by applying the burning device, which comprises the following steps:
step one, the after-sales parameter modifier 6 transmits a parameter modification instruction, a data parameter and a transmission state query instruction.
And step two, the second air conditioner receiver 2 receives the parameter modification instruction, the data parameter and the emission state query instruction output by the after-sale parameter modifier 6 and transmits the parameter modification instruction, the data parameter and the emission state query instruction.
And step three, the decoder 3 receives the parameter modification instruction, the data parameter and the transmission state inquiry instruction transmitted by the second air conditioner receiver 2 for decoding and checking, obtains the model parameter and the modification parameter transmission which can be identified by the main control board 4, and judges whether the information is legally fed back to the infrared code sender 1 and the information is transmitted by the feedback infrared code sender 1.
And step four, the main control board 4 carries out decoding and checks to output model parameters and modification parameter transmission, and stores the model parameters and the modification parameters into the memory 401.
Specifically, further, in the step one: when the mobile phone is started up, the first infrared code sender 1 feeds back model information and parameters to the after-sales parameter modifier 6.
Specifically, further, in the step one: after the after-sale parameter modifier 6 receives the initial model information and parameters, the model information and parameters are converted and displayed on the liquid crystal display 604 in the arithmetic processing unit 603, so that an operator can operate the model information and parameters conveniently.
Specifically, further, in the step one: when setting is needed, the data parameters related to modification are input through the key 605, and the arithmetic processing unit 603 sends the data parameters through the second infrared receiving unit 602 according to the modification data parameters.
For example: the main control board 4 is a PCB board, which has the main advantage of greatly reducing errors in wiring and assembly, in this embodiment, the main control board 4 serves as a slave, the after-sales parameter modifier 6 serves as a host, and the host can send out a query command and an operation command. The inquiry command is used for inquiring the current state and parameters of the slave computer, the slave computer replies data corresponding to the inquiry command after receiving the inquiry command and transmits the data to the host computer, the host computer displays the data on the liquid crystal display 604 after receiving the data, and the parameters for the operator to check the conditions include: the installation time, the valve working times, the fault codes and the modification records, the consulted parameters, the installation time, the valve working times, the fault codes and the modification records, and the consulted parameters are stored in the memory 401. In addition, the operation instruction \20476isused for changing the current state and parameters of the slave, and after the slave receives the operation instruction, the parameters corresponding to the slave instruction are modified, wherein the parameters can be modified as follows: and power failure memorization of the switch and the parameters of the wind speed and the like.
The main control board 4 can be connected with detection devices such as a water flow meter and a temperature sensor, water flow and temperature are detected, the solidification deviation value on the main control board 4 is matched, whether deviation occurs or not is calculated according to parameter values output by the water flow meter and the temperature sensor, if deviation occurs, the deviation value can be fed back to the host computer through the slave computer, an operator presses a key 605 to input a parameter needing to be compensated, the host computer is sent to the slave computer and stored by a memory 401 in the main control board 4 of the slave computer, and the deviation parameter of the memory 401 is controlled during each operation, so that devices and loads (electric heating tubes) connected with the main control board 4 reach preset targets, and the problems that in the prior art, each device needs to be welded and replaced again once errors occur, and time and labor are wasted are solved.
The present invention is not limited to the above preferred embodiments, but rather, any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (4)
1. A burning device is characterized in that: the method comprises the following steps:
the after-sale parameter modifier (6) is used for transmitting a parameter modification instruction, a data parameter and a transmission state query instruction;
the first infrared code sender (1) is used for feeding back model information and parameters to the after-sales parameter modifier (6);
the second air conditioner receiver (2) is used for receiving the parameter modification instruction, the data parameter and the transmission state inquiry instruction output by the after-sales parameter modifier (6) and transmitting the parameter modification instruction and the data parameter and the transmission state inquiry instruction;
the decoder (3) is used for receiving the parameter modification instruction, the data parameter and the transmission state inquiry instruction transmitted by the second air conditioner receiver (2), decoding and checking to obtain machine type parameters and modification parameter transmission, judging whether the after-sales parameter modifier (6) is legally fed back to the first infrared code sender (1) or not, and sending information by the first infrared code sender (1);
the main control board (4) is used for receiving model parameters and modification parameter transmission output by the decoder (3) in decoding and checking and storing the model parameters and the modification parameters into the memory (401),
the after-market parameter modifier (6) comprises:
the second infrared code sending unit (601) is used for sending parameter modification instructions, data parameters and inquiry state instructions;
a second infrared receiving unit (602) for receiving model information and parameters and implementing feedback;
the operation processing unit (603) is respectively connected with the second infrared code sending unit (601) and the second infrared receiving unit (602), analyzes the machine type information and the parameters input by the second infrared receiving unit (602), and feeds back to the first infrared code sending device (1) through the second infrared receiving unit (602) according to the parameter modification instruction, the data parameters and the emission state inquiry instruction;
the liquid crystal screen (604), the first infrared code transmitter (1) is connected with the arithmetic processing unit (603), and the using state of the arithmetic processing unit (603) is displayed;
and a key (605) for an operator to set parameters and input to the arithmetic processing unit (603).
2. The burning device of claim 1, wherein: the main control board (4) is connected with a display (5), and the display (5) is used for displaying the working state of the main control board (4).
3. A method for automatically selecting parameters of a recording apparatus as claimed in any one of claims 1 to 2, wherein: the method comprises the following steps:
step one, an after-sales parameter modifier (6) transmits a parameter modification instruction, a data parameter and a transmission state query instruction;
step two, the second air conditioner receiver (2) receives the parameter modification instruction, the data parameter and the transmission state inquiry instruction output by the after-sale parameter modifier (6) and transmits the parameter modification instruction, the data parameter and the transmission state inquiry instruction;
step three, the decoder (3) receives the parameter modification instruction, the data parameter and the transmission state inquiry instruction transmitted by the second air conditioner receiver (2) for decoding and checking, obtains the machine type parameter and modification parameter transmission which can be identified by the main control board (4), judges whether the after-sale parameter modifier (6) is legally fed back to the first infrared code transmitter (1), and transmits information by the first infrared code transmitter (1);
fourthly, the main control board (4) carries out decoding and checks the output model parameters and modification parameter transmission, and stores the parameters into the memory (401);
in the first step: after the after-sale parameter modifier (6) receives the initial model information and parameters, the model information and parameters are converted and displayed on a liquid crystal screen (604) in an operation processing unit (603), so that an operator can operate conveniently;
in the first step: when setting is needed, the data parameters related to modification are input through a key (605), and the arithmetic processing unit (603) transmits the data parameters through the second infrared receiving unit (602) according to the modification data parameters.
4. The method of claim 3, wherein the parameters are selected for recording: in the first step: when the mobile phone is started up, the first infrared code sender (1) feeds back model information and parameters to the after-sales parameter modifier (6).
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| Application Number | Priority Date | Filing Date | Title |
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| CN201910157407.8A CN109857415B (en) | 2019-03-01 | 2019-03-01 | Burning device and automatic parameter selection burning method thereof |
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| CN201910157407.8A CN109857415B (en) | 2019-03-01 | 2019-03-01 | Burning device and automatic parameter selection burning method thereof |
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| CN109857415B true CN109857415B (en) | 2022-10-04 |
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| WO2018166869A1 (en) * | 2017-03-17 | 2018-09-20 | K&F Industrial Coating Ivs | A heat transmission system |
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