CN109211435A - Bending furnace cavity temperature test method and system - Google Patents
Bending furnace cavity temperature test method and system Download PDFInfo
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- CN109211435A CN109211435A CN201811102059.6A CN201811102059A CN109211435A CN 109211435 A CN109211435 A CN 109211435A CN 201811102059 A CN201811102059 A CN 201811102059A CN 109211435 A CN109211435 A CN 109211435A
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01K—MEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
- G01K13/00—Thermometers specially adapted for specific purposes
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Abstract
The present invention provides a kind of bending furnace cavity temperature test method and systems, this method comprises: the heating temperature of bending furnace is arranged according to default operating condition, and controls the bending furnace and are heated;When determining the temperature in bending furnace equal to the first preset temperature, temp probe and mold are placed in feed conveyor belt, so that the feed cavity, heating chamber, the heating temperature of process cavity and discharging chamber of bending furnace is sequentially detected and stored in temp probe;When temp probe completes discharging step, the temperature detection data stored in temp probe are obtained, and be adjusted according to heating parameters of the temperature detection data to furnace chamber each in bending furnace.The present invention can directly acquire the practical heating temperature of heating chamber in each workshop section, improve the temperature test precision to each workshop section's heating furnace, and by by test result can heating parameters to each workshop section's heating chamber directly carry out corresponding adjusting, it is therefore prevented that the phenomenon that debugging precision is low caused by heating parameters is debugged using sample effect.
Description
Technical field
The present invention relates to bending furnace technical field, in particular to a kind of bending furnace cavity temperature test method and system.
Background technique
Smart phone is developed so far, and huge innovation functionally has become to be increasingly difficult to, and to attract consumer more to renew
Machine must have new attraction, may seek to have breakthrough in design and return double-sided glass design, and more use
2.5D glass, 3D bend glass are likely to the trend of smart phone development.With the promotion and industry of 3D glass yields
The raising of permeability, by the innovation direction of the Fashion of Future consumer electronics appearance, while as 3D glass is in hot bending shape technique
It graduallys mature, while customer requirement is higher and higher, so that the requirement to hot bending furnace apparatus is also higher and higher.
The test of existing bending furnace cavity temperature debugs product by temperature that equipment is shown, because the temperature of display is
The actual temperature of heating plate tests the practical heating temperature of the cavity in each workshop section of bending furnace less than glass and mold, thus
In bending furnace cavity temperature debugging process, debugging temperature, pressure and time parameter can only be removed by sample effect after molding,
And then cause the temperature test precision of bending furnace low with debugging precision.
Summary of the invention
Based on this, the present invention is provided and a kind of can be detected heating chamber temperature in each workshop section to improve the temperature of bending furnace
It spends accurate testing degree and debugs the bending furnace cavity temperature test method and system of precision.
In a first aspect, the present invention provides a kind of bending furnace cavity temperature test method, the method, comprising:
The heating temperature of bending furnace is set according to default operating condition, and controls the bending furnace and is heated;
When determining the temperature in the bending furnace equal to the first preset temperature, temp probe and mold are filled
Match, and be placed on the mold after assembling is completed in the feed conveyor belt of the bending furnace, so that the temp probe companion
The feed cavity, heating chamber, the heating temperature of process cavity and discharging chamber of the bending furnace are detected and stored with the mold in turn;
When the temp probe and the mold complete discharging step by the discharge belt of the bending furnace, obtain
The temperature detection data stored in the temp probe, and according to the temperature detection data to each furnace chamber in the bending furnace
Heating parameters be adjusted.
Above-mentioned bending furnace cavity temperature test method, described in entering the directly adjoint mold of the temp probe
The heating chamber of each workshop section in bending furnace, so as to directly acquire the practical heating temperature of heating chamber in each workshop section, and then effectively
The temperature test precision improved to workshop section each in bending furnace heating furnace, and by by test result and expected tying
Fruit compares so that can the heating parameters directly to workshop section's heating chamber each in the bending furnace carry out corresponding adjusting, prevent
As going the phenomenon that debugging precision is low caused by debugging heating parameters using sample effect after molding.
Further, described so that the temp probe with the mold in turn be detected and stored the bending furnace into
The step of material chamber, heating chamber, heating temperature of process cavity and discharging chamber includes:
It controls the feed conveyor belt to be transmitted with the first pre-set velocity towards the feed cavity, and it is default to continue first
Time, to obtain the first detection data, first detection data is described in the feed cavity in first preset time
Heating temperature changes with time data;
It controls the feed conveyor belt to be transmitted with the second pre-set velocity towards the heating chamber, and it is default to continue second
Time, to obtain the second detection data, second detection data is described in the heating chamber in second preset time
Heating temperature changes with time data.
Further, described so that the temp probe with the mold in turn be detected and stored the bending furnace into
The step of expecting the heating temperature of chamber, heating chamber, process cavity and discharging chamber further include:
When detecting that the heating temperature in the heating chamber is equal to the second preset temperature, the charging transmission is controlled
Band is transmitted with third pre-set velocity towards the process cavity, and continues third preset time, to obtain third detection data,
The third detection data is that heating temperature described in the process cavity changes with time data in the third preset time;
It controls the feed conveyor belt to be transmitted with the 4th pre-set velocity towards the discharging chamber, and it is default to continue the 4th
Time, to obtain the 4th detection data, the 4th detection data is described in the discharging chamber in the 4th preset time
Heating temperature changes with time data.
Further, described the step of obtaining the temperature detection data stored in the temp probe, includes:
Sequentially obtain first detection data stored in the temp probe, second detection data, described
Three detection datas and the 4th detection data;
By preset temperature curve and first detection data, second detection data, the third detection data
Curve corresponding with the delta data stored in the 4th detection data compares, to obtain temperature fluctuation data;
The temperature fluctuation data are shown by the way of table or curve.
Further, described so that the temp probe with the mold in turn be detected and stored the bending furnace into
After the step of expecting the heating temperature of chamber, heating chamber, process cavity and discharging chamber, the method also includes:
When the temperature value that the temp probe detects is greater than temperature threshold, alarm is issued.
Further, be stored in the default operating condition heating temperature parameter, heating pneumatic parameter, heating humidity parameter and
Throughput parameter.
Further, acquisition modes used by the temperature detection data stored in the temp probe are obtained as number
It is obtained according to the mode of the transmission of line signal, wireless signal transmission or readable memory.
Second aspect, the present invention provides a kind of bending furnace cavity temperature test macros, comprising:
Heating module, the heating temperature for bending furnace to be arranged according to operating condition is preset, and control the bending furnace and added
Heat;
Delivery module, for when determining the temperature in the bending furnace equal to the first preset temperature, by temp probe
It is assembled with mold, and be placed on the mold after assembling is completed in the feed conveyor belt of the bending furnace, so that institute
State the bending furnace is detected and stored with the mold in turn for temp probe feed cavity, heating chamber, process cavity and discharging chamber
Heating temperature;
Data acquisition module, it is complete by the discharge belt of the bending furnace for working as the temp probe and the mold
When at discharging step, the temperature detection data stored in the temp probe are obtained, and according to the temperature detection data to institute
The heating parameters for stating each furnace chamber in bending furnace are adjusted.
Above-mentioned bending furnace cavity temperature test macro, by the delivery module by the temp probe directly with described
Mold enters the heating chamber of each workshop section in the bending furnace, so as to directly acquire the practical heating temperature of heating chamber in each workshop section
Degree, and then the temperature test precision to workshop section each in bending furnace heating furnace is effectively raised, and pass through the number
Test result and expected results are compared according to module is obtained, so that can be directly to workshop section's heating chamber each in the bending furnace
Heating parameters carry out corresponding adjusting, it is therefore prevented that as going debugging caused by debugging heating parameters using sample effect after molding
The low phenomenon of precision.
Further, the delivery module includes:
First detection unit is passed with the first pre-set velocity towards the feed cavity for controlling the feed conveyor belt
It send, and continues the first preset time, to obtain the first detection data, first detection data is in first preset time
Heating temperature described in the feed cavity changes with time data;
Second detection unit is passed with the second pre-set velocity towards the heating chamber for controlling the feed conveyor belt
It send, and continues the second preset time, to obtain the second detection data, second detection data is in second preset time
Heating temperature described in the heating chamber changes with time data.
Further, the delivery module further include:
Third detection unit is equal to the second preset temperature for working as the heating temperature detected in the heating chamber
When, it controls the feed conveyor belt and is transmitted with third pre-set velocity towards the process cavity, and continue third preset time,
To obtain third detection data, the third detection data is to heat temperature in the third preset time described in the process cavity
Spend the data that change with time;
4th detection unit is passed with the 4th pre-set velocity towards the discharging chamber for controlling the feed conveyor belt
It send, and continues the 4th preset time, to obtain the 4th detection data, the 4th detection data is in the 4th preset time
Heating temperature described in the discharging chamber changes with time data.
Detailed description of the invention
Fig. 1 is the flow chart for the bending furnace cavity temperature test method that first embodiment of the invention provides;
Fig. 2 is the flow chart for the bending furnace cavity temperature test method that second embodiment of the invention provides;
Fig. 3 is the structural schematic diagram for the bending furnace cavity temperature test macro that third embodiment of the invention provides.
Specific embodiment
For the ease of more fully understanding the present invention, the present invention is carried out further below in conjunction with related embodiment attached drawing
It explains.The embodiment of the present invention is given in attached drawing, but the present invention is not limited in above-mentioned preferred embodiment.On the contrary, providing
The purpose of these embodiments be in order to make disclosure of the invention face more sufficiently.
Expression or logic and/or step described otherwise above herein in flow charts, for example, being considered use
In the order list for the executable instruction for realizing logic function, may be embodied in any computer-readable medium, for
Instruction execution system, device or equipment (such as computer based system, including the system of processor or other can be held from instruction
The instruction fetch of row system, device or equipment and the system executed instruction) it uses, or combine these instruction execution systems, device or set
It is standby and use.For the purpose of this specification, " computer-readable medium ", which can be, any may include, stores, communicates, propagates or pass
Defeated program is for instruction execution system, device or equipment or the dress used in conjunction with these instruction execution systems, device or equipment
It sets.
In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show
The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example
Point is included at least one embodiment or example of the invention.In the present specification, schematic expression of the above terms are not
Centainly refer to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be any
One or more embodiment or examples in can be combined in any suitable manner.
Referring to Fig. 1, the flow chart of the bending furnace cavity temperature test method provided for first embodiment of the invention, including
Step S10 to S30.
Step S10, the heating temperature of bending furnace is arranged according to default operating condition, and controls the bending furnace and heated;
Wherein, heating temperature parameter, heating pneumatic parameter, heating humidity parameter and air-flow are stored in the default operating condition
Parameter is measured, the default operating condition is used to open the preheating of the bending furnace, to ensure the bending furnace normal operating conditions
Operation, so as to effectively ensure the subsequent detection to cavity temperature in the bending furnace;
Step S20, when determining the temperature in the bending furnace equal to the first preset temperature, by temp probe and mold
It is assembled, and be placed on the mold after assembling is completed in the feed conveyor belt of the bending furnace, so that the temperature
It pops one's head in and the heating of the feed cavity, heating chamber, process cavity and discharging chamber of the bending furnace is detected and stored with the mold in turn
Temperature;
Wherein, by comparing the temperature in the bending furnace with first preset temperature, so that described in judgement
Whether bending furnace has worked normally, it is therefore prevented that is not started to work normally due to the bending furnace and begins to carry out testing caused essence
The phenomenon that accuracy reduces, and then effectively raise the accurate testing degree of the bending furnace cavity temperature test method;
Specifically, by by the temp probe directly with the mold enter the bending furnace in each workshop section plus
Hot chamber so as to directly acquire the practical heating temperature of heating chamber in each workshop section, and then is effectively raised to the bending furnace
In each workshop section's heating furnace temperature test precision so that the present embodiment without sample effect go debugging temperature,
Pressure and time parameter effectively raise debugging precision;
Step S30, when the temp probe and the mold are completed discharging by the discharge belt of the bending furnace and walked
When rapid, the temperature detection data stored in the temp probe are obtained, and according to the temperature detection data to the bending furnace
The heating parameters of interior each furnace chamber are adjusted;
Wherein, obtaining acquisition modes used by the temperature detection data stored in the temp probe is data line
The mode of signal transmission, wireless signal transmission or readable memory is obtained.
In the present embodiment, by the way that the temp probe is directly entered each workshop section in the bending furnace with the mold
Heating chamber, so as to directly acquire the practical heating temperature of heating chamber in each workshop section, and then effectively raise to the heat
The temperature test precision of each workshop section's heating furnace in curved furnace, and by comparing test result and expected results, so that
Can the heating parameters directly to workshop section's heating chamber each in the bending furnace carry out corresponding adjusting, it is therefore prevented that after using molding
Sample effect go the low phenomenon of debugging precision caused by debugging heating parameters.
Referring to Fig. 2, the flow chart of the bending furnace cavity temperature test method provided for second embodiment of the invention, described
Method includes step S11 to S71.
Step S11, the heating temperature of bending furnace is arranged according to default operating condition, and controls the bending furnace and heated;
Wherein, heating temperature parameter, heating pneumatic parameter, heating humidity parameter and air-flow are stored in the default operating condition
Parameter is measured, the default operating condition is used to open the preheating of the bending furnace, to ensure the bending furnace normal operating conditions
Operation, so as to effectively ensure the subsequent detection to cavity temperature in the bending furnace;
Step S21 controls the charging transmission when determining the temperature in the bending furnace equal to the first preset temperature
Band is transmitted with the first pre-set velocity towards the feed cavity, and continues the first preset time, to obtain the first detection data;
Wherein, by comparing the temperature in the bending furnace with first preset temperature, so that described in judgement
Whether bending furnace has worked normally, it is therefore prevented that is not started to work normally due to the bending furnace and begins to carry out testing caused essence
The phenomenon that accuracy reduces, and then effectively raises the accurate testing degree of the bending furnace cavity temperature test method, and described the
One detection data is that heating temperature described in the feed cavity changes with time data in first preset time, preferably
, first predetermined acceleration and first preset time can be independently configured according to demand, so that user can
Carry out parameter setting with corresponding according to different needs, first preset time for control the temp probe it is described into
Expect the heating duration in chamber;
Step S31 is controlled the feed conveyor belt and is transmitted with the second pre-set velocity towards the heating chamber, and is continued
Second preset time, to obtain the second detection data;
Wherein, second detection data is that heating temperature described in the heating chamber is at any time in second preset time
Between delta data, and second predetermined acceleration and second preset time can independently be set according to demand
It sets, so that user can correspond to according to different needs carries out parameter setting, second preset time is for controlling the temperature
Heating duration of the degree probe in the heating chamber;
Step S41, when detecting that the heating temperature in the heating chamber is equal to the second preset temperature, described in control
Feed conveyor belt is transmitted with third pre-set velocity towards the process cavity, and continues third preset time, to obtain third
Detection data;
Wherein, due to there is the setting of temperature condition in the heating chamber, pass through the heating temperature in the step
It is described so as to determine whether for the temp probe to be sent to the process cavity with the judgement between second preset temperature
Third detection data is that heating temperature described in the process cavity changes with time data, and institute in the third preset time
State third predetermined acceleration and the third preset time can independently be configured according to demand, so that user can basis
Different demands is corresponding to carry out parameter setting, and the third preset time is for controlling the temp probe in the process cavity
Heating duration;
Step S51 is controlled the feed conveyor belt and is transmitted with the 4th pre-set velocity towards the discharging chamber, and is continued
4th preset time, to obtain the 4th detection data;
Wherein, the 4th detection data is that heating temperature described in the discharging chamber is at any time in the 4th preset time
Between delta data, and the 4th predetermined acceleration and the 4th preset time can independently be set according to demand
It sets, so that user can correspond to according to different needs carries out parameter setting, the 4th preset time is for controlling the temperature
Heating duration of the degree probe in the input and output material;
Preferably, after step S51, the method also includes:
When the temperature value that the temp probe detects is greater than temperature threshold, alarm is issued.
Obtain the temperature detection data stored in the temp probe;
Wherein, size judgement is carried out by the temperature threshold and the temperature value detected, to judge current add
Warm status whether there is security risk, to enable staff is timely reminded, and then effectively raise the bending furnace furnace
The security performance of chamber temperature testing method;
Step S61, when the temp probe and the mold are completed discharging by the discharge belt of the bending furnace and walked
When rapid, first detection data, second detection data, the third inspection stored in the temp probe is sequentially obtained
Measured data and the 4th detection data;
Step S71, by preset temperature curve and first detection data, second detection data, the third
The corresponding curve of the delta data stored in detection data and the 4th detection data compares, to obtain temperature wave
Dynamic data, and the temperature fluctuation data are shown by the way of table or curve;
Wherein, obtaining acquisition modes used by the temperature detection data stored in the temp probe is data line
The mode of signal transmission, wireless signal transmission or readable memory is obtained, specifically, by the way that the temp probe is direct
The heating chamber for entering each workshop section in the bending furnace with the mold, so as to directly acquire the reality of heating chamber in each workshop section
Border heating temperature, and then the temperature test precision to workshop section each in bending furnace heating furnace is effectively raised, in turn
So that the present embodiment removes debugging temperature, pressure and time parameter without sample effect, debugging precision is effectively raised;
In the present embodiment, by the way that the temp probe is directly entered each workshop section in the bending furnace with the mold
Heating chamber, so as to directly acquire the practical heating temperature of heating chamber in each workshop section, and then effectively raise to the heat
The temperature test precision of each workshop section's heating furnace in curved furnace, and by comparing test result and expected results, so that
Can the heating parameters directly to workshop section's heating chamber each in the bending furnace carry out corresponding adjusting, it is therefore prevented that after using molding
Sample effect go the low phenomenon of debugging precision caused by debugging heating parameters.
Referring to Fig. 3, the structural representation of the bending furnace cavity temperature test macro 100 provided for third embodiment of the invention
Figure, comprising:
Heating module 10, the heating temperature for bending furnace to be arranged according to operating condition is preset, and control the bending furnace and carry out
Heating, wherein heating temperature parameter, heating pneumatic parameter, heating humidity parameter and throughput are stored in the default operating condition
Parameter, the default operating condition is used to open the preheating of the bending furnace, to ensure the fortune of the bending furnace normal operating conditions
Row, so as to effectively ensure the subsequent detection to cavity temperature in the bending furnace.
Delivery module 20, for when determining the temperature in the bending furnace equal to the first preset temperature, temperature to be visited
Head is assembled with mold, and is placed on the mold after assembling is completed in the feed conveyor belt of the bending furnace, so that
Feed cavity, heating chamber, process cavity and the discharging of the bending furnace are detected and stored with the mold in turn for the temp probe
The heating temperature of chamber, wherein by comparing the temperature in the bending furnace with first preset temperature, so that judgement
Whether the bending furnace has worked normally, it is therefore prevented that not starting to work normally to begin to carry out to test due to the bending furnace causes
Precision the phenomenon that reducing, and then effectively raise the accurate testing degree of the bending furnace cavity temperature test method;
Specifically, by by the temp probe directly with the mold enter the bending furnace in each workshop section plus
Hot chamber so as to directly acquire the practical heating temperature of heating chamber in each workshop section, and then is effectively raised to the bending furnace
In each workshop section's heating furnace temperature test precision so that the present embodiment without sample effect go debugging temperature,
Pressure and time parameter effectively raise debugging precision.
Data acquisition module 30, the discharge belt for passing through the bending furnace when the temp probe and the mold
When completing discharging step, the temperature detection data stored in the temp probe are obtained, and according to the temperature detection data pair
The heating parameters of each furnace chamber are adjusted in the bending furnace, wherein obtain the temperature stored in the temp probe
Acquisition modes used by detection data are that the mode of data line signal transmission, wireless signal transmission or readable memory is obtained
It takes.
Specifically, the delivery module 20 includes:
First detection unit 21 is carried out with the first pre-set velocity towards the feed cavity for controlling the feed conveyor belt
Transmission, and continue the first preset time, to obtain the first detection data, first detection data is first preset time
Heating temperature described in the interior feed cavity changes with time data;
Second detection unit 22 is carried out with the second pre-set velocity towards the heating chamber for controlling the feed conveyor belt
Transmission, and continue the second preset time, to obtain the second detection data, second detection data is second preset time
Heating temperature described in the interior heating chamber changes with time data.
Further, the delivery module 20 further include:
Third detection unit 23 is equal to the second preset temperature for working as the heating temperature detected in the heating chamber
When, it controls the feed conveyor belt and is transmitted with third pre-set velocity towards the process cavity, and continue third preset time,
To obtain third detection data, the third detection data is to heat temperature in the third preset time described in the process cavity
Spend the data that change with time;
4th detection unit 24 is carried out with the 4th pre-set velocity towards the discharging chamber for controlling the feed conveyor belt
Transmission, and continue the 4th preset time, to obtain the 4th detection data, the 4th detection data is the 4th preset time
Heating temperature described in the interior discharging chamber changes with time data.
Specifically, the data acquisition module 30 includes:
Acquiring unit 31, for sequentially obtaining first detection data stored in the temp probe, described second
Detection data, the third detection data and the 4th detection data;
Data comparison unit 32 is used for preset temperature curve and first detection data, second testing number
It is compared according to the corresponding curve of the delta data stored in, the third detection data and the 4th detection data,
To obtain temperature fluctuation data;
Display unit 33, for showing the temperature fluctuation data by the way of table or curve.
In addition, in the present embodiment, the bending furnace cavity temperature test macro 100 further include:
Alarm module 40 issues alarm when the temperature value for detecting when the temp probe is greater than temperature threshold,
In, size judgement is carried out by the temperature threshold and the temperature value detected, whether to judge current heated condition
There are security risks, to enable staff is timely reminded, and then effectively raise the bending furnace cavity temperature test
The security performance of method.
Above-mentioned bending furnace cavity temperature test macro 100, by the delivery module 20 by the direct companion of the temp probe
The heating chamber for entering each workshop section in the bending furnace with the mold, so as to directly acquire the reality of heating chamber in each workshop section
Heating temperature, and then the temperature test precision to workshop section each in bending furnace heating furnace is effectively raised, and pass through
The data acquisition module 30 compares test result and expected results, so that can be directly to each work in the bending furnace
The heating parameters of section heating chamber carry out corresponding adjusting, it is therefore prevented that due to going debugging heating parameters to lead using sample effect after molding
The low phenomenon of the debugging precision of cause.
The present embodiment additionally provides a kind of storage medium, is stored thereon with computer program, the program when being executed, including
Following steps:
The heating temperature of bending furnace is set according to default operating condition, and controls the bending furnace and is heated;
When determining the temperature in the bending furnace equal to the first preset temperature, temp probe and mold are filled
Match, and be placed on the mold after assembling is completed in the feed conveyor belt of the bending furnace, so that the temp probe companion
The feed cavity, heating chamber, the heating temperature of process cavity and discharging chamber of the bending furnace are detected and stored with the mold in turn;
When the temp probe and the mold complete discharging step by the discharge belt of the bending furnace, obtain
The temperature detection data stored in the temp probe, and according to the temperature detection data to each furnace chamber in the bending furnace
Heating parameters be adjusted.The storage medium, such as: ROM/RAM, magnetic disk, CD.
Above embodiment described technical principles of the invention, and the description is merely to explain the principles of the invention, and
It cannot be construed to the limitation of the scope of the present invention in any way.Based on the explanation herein, those skilled in the art is not required to
Other specific embodiments of the invention can be associated by paying creative labor, these modes fall within of the invention
In protection scope.
The more specific example (non-exhaustive list) of computer-readable medium include the following: there are one or more wirings
Electrical connection section (electronic device), portable computer diskette box (magnetic device), random access memory (RAM), read-only memory
(ROM), erasable edit read-only storage (EPROM or flash memory), fiber device and portable optic disk is read-only deposits
Reservoir (CDROM).In addition, computer-readable medium can even is that the paper that can print described program on it or other are suitable
Medium, because can then be edited, be interpreted or when necessary with it for example by carrying out optical scanner to paper or other media
His suitable method is handled electronically to obtain described program, is then stored in computer storage.
It should be appreciated that each section of the invention can be realized with hardware, software, firmware or their combination.Above-mentioned
In embodiment, software that multiple steps or method can be executed in memory and by suitable instruction execution system with storage
Or firmware is realized.It, and in another embodiment, can be under well known in the art for example, if realized with hardware
Any one of column technology or their combination are realized: having a logic gates for realizing logic function to data-signal
Discrete logic, with suitable combinational logic gate circuit specific integrated circuit, programmable gate array (PGA), scene
Programmable gate array (FPGA) etc..
Claims (10)
1. a kind of bending furnace cavity temperature test method, which is characterized in that the described method includes:
The heating temperature of bending furnace is set according to default operating condition, and controls the bending furnace and is heated;
When determining the temperature in the bending furnace equal to the first preset temperature, temp probe and mold are assembled, and
It will complete the mold after assembling to be placed in the feed conveyor belt of the bending furnace, so that the temp probe is with described
The feed cavity, heating chamber, the heating temperature of process cavity and discharging chamber of the bending furnace is detected and stored in mold in turn;
When the temp probe and the mold complete discharging step by the discharge belt of the bending furnace, described in acquisition
The temperature detection data stored in temp probe, and each furnace chamber in the bending furnace is added according to the temperature detection data
Thermal parameter is adjusted.
2. bending furnace cavity temperature test method according to claim 1, which is characterized in that described so that the temperature is visited
The feed cavity, heating chamber, the heating temperature of process cavity and discharging chamber of the bending furnace are detected and stored with the mold in turn for head
The step of spending include:
The feed conveyor belt is controlled to be transmitted with the first pre-set velocity towards the feed cavity, and continue first it is default when
Between, to obtain the first detection data, first detection data is to add described in the feed cavity in first preset time
Hot temperature changes with time data;
The feed conveyor belt is controlled to be transmitted with the second pre-set velocity towards the heating chamber, and continue second it is default when
Between, to obtain the second detection data, second detection data is to add described in the heating chamber in second preset time
Hot temperature changes with time data.
3. bending furnace cavity temperature test method according to claim 2, which is characterized in that described so that the temperature is visited
The feed cavity, heating chamber, the heating temperature of process cavity and discharging chamber of the bending furnace are detected and stored with the mold in turn for head
The step of spending further include:
When detect the heating temperature in the heating chamber be equal to the second preset temperature when, control the feed conveyor belt with
Third pre-set velocity is transmitted towards the process cavity, and continues third preset time, described to obtain third detection data
Third detection data is that heating temperature described in the process cavity changes with time data in the third preset time;
The feed conveyor belt is controlled to be transmitted with the 4th pre-set velocity towards the discharging chamber, and continue the 4th it is default when
Between, to obtain the 4th detection data, the 4th detection data is to add described in the discharging chamber in the 4th preset time
Hot temperature changes with time data.
4. bending furnace cavity temperature test method according to claim 3, which is characterized in that described to obtain the temperature spy
Head in store temperature detection data the step of include:
Sequentially obtain first detection data, second detection data, the third inspection stored in the temp probe
Measured data and the 4th detection data;
By preset temperature curve and first detection data, second detection data, the third detection data and institute
It states the corresponding curve of the delta data stored in the 4th detection data to compare, to obtain temperature fluctuation data;
The temperature fluctuation data are shown by the way of table or curve.
5. bending furnace cavity temperature test method according to claim 1, which is characterized in that described so that the temperature is visited
The feed cavity, heating chamber, the heating temperature of process cavity and discharging chamber of the bending furnace are detected and stored with the mold in turn for head
After the step of spending, the method also includes:
When the temperature value that the temp probe detects is greater than temperature threshold, alarm is issued.
6. bending furnace cavity temperature test method according to claim 1, which is characterized in that stored in the default operating condition
There are heating temperature parameter, heating pneumatic parameter, the heating gentle flow parameter of humidity parameter.
7. bending furnace cavity temperature test method according to claim 1, which is characterized in that obtain in the temp probe
Acquisition modes used by the temperature detection data of storage are data line signal transmission, wireless signal transmission or readable storage
The mode of device is obtained.
8. a kind of bending furnace cavity temperature test macro characterized by comprising
Heating module, the heating temperature for bending furnace to be arranged according to operating condition is preset, and control the bending furnace and heated;
Delivery module, for when determining the temperature in the bending furnace equal to the first preset temperature, by temp probe and mould
Tool is assembled, and is placed on the mold after assembling is completed in the feed conveyor belt of the bending furnace, so that the temperature
Degree pop one's head in the mold in turn be detected and stored the feed cavity of the bending furnace, heating chamber, process cavity and discharging chamber plus
Hot temperature;
Data acquisition module is completed out for working as the temp probe and the mold by the discharge belt of the bending furnace
When expecting step, the temperature detection data stored in the temp probe are obtained, and according to the temperature detection data to the heat
The heating parameters of each furnace chamber are adjusted in curved furnace.
9. bending furnace cavity temperature test macro according to claim 8, which is characterized in that the delivery module includes:
First detection unit is transmitted with the first pre-set velocity towards the feed cavity for controlling the feed conveyor belt,
And continue the first preset time, to obtain the first detection data, first detection data is institute in first preset time
Heating temperature described in feed cavity is stated to change with time data;
Second detection unit is transmitted with the second pre-set velocity towards the heating chamber for controlling the feed conveyor belt,
And continue the second preset time, to obtain the second detection data, second detection data is institute in second preset time
Heating temperature described in heating chamber is stated to change with time data.
10. bending furnace cavity temperature test macro according to claim 9, which is characterized in that the delivery module also wraps
It includes:
Third detection unit, for controlling when detecting that the heating temperature in the heating chamber is equal to the second preset temperature
It makes the feed conveyor belt to be transmitted with third pre-set velocity towards the process cavity, and continues third preset time, with
To third detection data, the third detection data be in the third preset time heating temperature described in the process cavity with
The delta data of time;
4th detection unit is transmitted with the 4th pre-set velocity towards the discharging chamber for controlling the feed conveyor belt,
And continue the 4th preset time, to obtain the 4th detection data, the 4th detection data is institute in the 4th preset time
Heating temperature described in discharging chamber is stated to change with time data.
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CN101888723A (en) * | 2010-03-24 | 2010-11-17 | 十堰坤泰工贸有限公司 | Control method of sensing heat-transmission temperature and temperature control system thereof |
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