CN109896121A - A kind of method of UV sebific duct and the visual UV glue dosage applied to UV sebific duct - Google Patents
A kind of method of UV sebific duct and the visual UV glue dosage applied to UV sebific duct Download PDFInfo
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- CN109896121A CN109896121A CN201811635132.6A CN201811635132A CN109896121A CN 109896121 A CN109896121 A CN 109896121A CN 201811635132 A CN201811635132 A CN 201811635132A CN 109896121 A CN109896121 A CN 109896121A
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Abstract
A kind of method of visual UV glue dosage the present invention relates to UV glue technical field more particularly to UV sebific duct and applied to UV sebific duct.On the basis of original UV sebific duct structure, ultrasonic generator is equipped in the feed inlet end of the UV sebific duct ontology, ultrasonic probe, ultrasonic receiver and processor, the ultrasonic generator and ultrasonic probe, ultrasonic receiver are electrically connected with processor respectively, UV glue dosage situation is measured using ultrasonic wave, the dosage situation of calculating UV glue is gone according to the time difference between ultrasonic wave generation and reception, dosage situation is shown in conjunction with easy display device, effectively mitigate the work load of processing procedure personnel, save cumbersome dosage statistic processes, it simultaneously also can be intuitive, correctly judge the current dosage situation of UV glue, facilitate please purchasing and plan in advance for UV glue spare unit.
Description
Technical field
The present invention relates to UV glue technical field more particularly to a kind of UV sebific duct and applied to the visual UV glue dosage of UV sebific duct
Method.
Background technique
For current most of display screen manufacturing, the rapid curing speed and preferable bonding force of UV glue become display
Shield the indispensable use material of manufacturing, the essence of UV glue belongs to chemicals, therefore can occur at any time various
Variation, if storage or improper use, it is likely that reduce the use value of product or even lose its use value.UV glue encounters
Can solidify after light, even if not becoming solid, also can viscosity increase, not only influence producing line processing procedure progress, it is also possible to influence
The quality of product, therefore the sebific duct of UV glue is packed with special lighttight material, this observes processing procedure personnel not directly
The dosage situation of glue.
It is directed to the dosage situation of UV glue at this stage, typically periodically quantitative statistics service condition estimates UV glue with this
Dosage, the dosage of UV glue will be unknown if mistake occurs for period statistical data, needs to weigh with scale, extremely inconvenient.
Summary of the invention
The technical problems to be solved by the present invention are: providing a kind of UV sebific duct and the visual UV glue dosage applied to UV sebific duct
Method.
In order to solve the above-mentioned technical problem, the technical solution adopted by the present invention are as follows:
A kind of UV sebific duct, including UV sebific duct ontology, the feed inlet end of the UV sebific duct ontology be equipped with ultrasonic generator,
Ultrasonic probe, ultrasonic receiver and processor, the ultrasonic generator and ultrasonic probe, ultrasonic receiver are electrically connected with processor respectively
It connects, it is along UV glue that the ultrasonic generator, which is used to issue ultrasonic signal and the direction of the launch of the ultrasonic generator,
The feed inlet end of tube body is to the direction of UV sebific duct body interior;The ultrasonic probe, ultrasonic receiver is for receiving the ultrasonic wave hair
The ultrasonic signal that generating apparatus issues;
The ultrasonic generator and ultrasonic probe, ultrasonic receiver have between the end face of feed inlet end respectively it is default between
Away from the processor is configured to issuing time point, the ultrasonic probe, ultrasonic receiver of ultrasonic signal according to ultrasonic generator
Receive the ultrasonic signal time point and the ultrasonic generator and ultrasonic probe, ultrasonic receiver respectively with charging
Default spacing between the end face at mouth end, is calculated the surplus of UV glue in UV sebific duct ontology.
Another technical solution provided by the invention are as follows:
A method of the visual UV glue dosage applied to above-mentioned UV sebific duct, comprising the following steps:
Ultrasonic generator and ultrasonic probe, ultrasonic receiver are driven, records the ultrasonic wave that ultrasonic generator issues respectively
The time point of signal and ultrasonic probe, ultrasonic receiver receive the time point of the ultrasonic signal;
The time point of the ultrasonic signal issued according to ultrasonic generator and ultrasonic probe, ultrasonic receiver receive institute
Time difference of the ultrasonic signal between generation and reception is calculated in the time point for stating ultrasonic signal;
According to time difference of the ultrasonic signal between generation and reception, the ultrasonic signal is calculated and is sending out
The raw displacement difference between reception;
It is default between the end face of feed inlet end respectively according to the ultrasonic generator and ultrasonic probe, ultrasonic receiver
The displacement difference of spacing and the ultrasonic signal being calculated between generation and reception, is calculated in UV sebific duct ontology
The usage amount of UV glue;
By the usage amount of UV glue in the UV sebific duct ontology, the surplus of UV glue and display in UV sebific duct ontology is calculated
The surplus of UV glue in the UV sebific duct ontology.
The beneficial effects of the present invention are:
The method of UV sebific duct provided by the invention and the visual UV glue dosage applied to UV sebific duct, in original UV sebific duct knot
On the basis of structure, ultrasonic generator, ultrasonic probe, ultrasonic receiver and place are equipped in the feed inlet end of the UV sebific duct ontology
Device is managed, the ultrasonic generator and ultrasonic probe, ultrasonic receiver are electrically connected with processor respectively, using ultrasonic wave come to UV glue
Dosage situation measures, and the use for calculating UV glue is gone according to the time difference (time difference telemetry) between ultrasonic wave generation and reception
Situation is measured, shows dosage situation in conjunction with easy display device, effectively mitigates the work load of processing procedure personnel, saves
Cumbersome dosage statistic processes, while also can intuitively, correctly judge the current dosage situation of UV glue, facilitate UV glue spare unit
It please purchase and plan in advance.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of UV sebific duct of the invention;
Fig. 2 is the step flow chart of the method for the visual UV glue dosage applied to UV sebific duct of the invention;
Label declaration:
1, UV sebific duct ontology;2, ultrasonic generator;3, ultrasonic probe, ultrasonic receiver;4, processor.
Specific embodiment
To explain the technical content, the achieved purpose and the effect of the present invention in detail, below in conjunction with embodiment and cooperate attached
Figure is explained.
The most critical design of the present invention is: being measured using ultrasonic wave to UV glue dosage situation, according to ultrasonic wave
Time difference between occurring and receiving goes to calculate the dosage situation of UV glue.
Referring to Fig. 1, a kind of UV sebific duct provided by the invention, including UV sebific duct ontology, the charging of the UV sebific duct ontology
Mouth end is equipped with ultrasonic generator, ultrasonic probe, ultrasonic receiver and processor, and the ultrasonic generator and ultrasonic wave connect
Receiving apparatus is electrically connected with processor respectively, and the ultrasonic generator is for issuing ultrasonic signal and ultrasonic wave generation
The direction of the launch of device is along the feed inlet end of UV sebific duct ontology to the direction of UV sebific duct body interior;The ultrasonic wave receives dress
Set the ultrasonic signal issued for receiving the ultrasonic generator;
The ultrasonic generator and ultrasonic probe, ultrasonic receiver have between the end face of feed inlet end respectively it is default between
Away from the processor is configured to issuing time point, the ultrasonic probe, ultrasonic receiver of ultrasonic signal according to ultrasonic generator
Receive the ultrasonic signal time point and the ultrasonic generator and ultrasonic probe, ultrasonic receiver respectively with charging
Default spacing between the end face at mouth end, is calculated the surplus of UV glue in UV sebific duct ontology.
As can be seen from the above description, the beneficial effects of the present invention are:
UV sebific duct provided by the invention, on the basis of original UV sebific duct structure, in the charging of the UV sebific duct ontology
Mouth end is equipped with ultrasonic generator, ultrasonic probe, ultrasonic receiver and processor, and the ultrasonic generator and ultrasonic wave connect
Receiving apparatus is electrically connected with processor respectively, is measured using ultrasonic wave to UV glue dosage situation, according to ultrasonic wave occur and
Time difference (time difference telemetry) between reception goes to calculate the dosage situation of UV glue, in conjunction with easy display device by dosage
Situation is shown, is effectively mitigated the work load of processing procedure personnel, is saved cumbersome dosage statistic processes, while also can be straight
It sees, correctly judge the current dosage situation of UV glue, facilitate please purchasing and plan in advance for UV glue spare unit.
Further, the direction of the launch of the ultrasonic generator and the axial direction of UV sebific duct ontology are in the same direction.
Seen from the above description, the direction of the launch of ultrasonic generator and the axial direction of UV sebific duct ontology are in the same direction, also
It is to be parallel to each other, the direction of the launch and the liquid level of the UV glue of UV sebific duct body interior for being equivalent to ultrasonic generator are vertical
, conducive to the rapid feedback of ultrasonic signal, so that it is guaranteed that measurement accuracy.
Further, the default spacing between the ultrasonic generator and the end face of feed inlet end and the ultrasonic wave
Default spacing between reception device and the end face of feed inlet end is equal.
Seen from the above description, measurement accuracy is ensured while being easily installed.
Further, the processor includes that control chip and display screen, the ultrasonic generator and ultrasonic wave connect
Receiving apparatus is electrically connected with control chip respectively, and the control chip is electrically connected with display screen.
Seen from the above description, the data of measurement can intuitively be shown on a display screen by controlling chip, convenient for fast
Speed knows.
Further, the processor further includes comparator, memory and signal lamp, the comparator, memory and letter
Signal lamp is electrically connected with control chip respectively, and the surplus range of UV glue in multiple UV sebific duct ontologies is stored on the memory
And corresponding control instruction, the control instruction is for controlling traffic light system different colours.
Seen from the above description, the data stored in memory are extracted by control chip, and by comparator to measurement
Data and memory in the data that store compare one by one, judgement belongs to the surplus model of UV glue in which UV sebific duct ontology
It encloses, to obtain corresponding control instruction, to control the corresponding color of traffic light system, keeps processing procedure personnel more intuitive
Solve the substantially surplus of UV glue in UV sebific duct ontology.
Please continue to refer to Fig. 2, a kind of method of the visual UV glue dosage applied to UV sebific duct provided by the invention, including with
Lower step:
Ultrasonic generator and ultrasonic probe, ultrasonic receiver are driven, records the ultrasonic wave that ultrasonic generator issues respectively
The time point of signal and ultrasonic probe, ultrasonic receiver receive the time point of the ultrasonic signal;
The time point of the ultrasonic signal issued according to ultrasonic generator and ultrasonic probe, ultrasonic receiver receive institute
Time difference of the ultrasonic signal between generation and reception is calculated in the time point for stating ultrasonic signal;
According to time difference of the ultrasonic signal between generation and reception, the ultrasonic signal is calculated and is sending out
The raw displacement difference between reception;
It is default between the end face of feed inlet end respectively according to the ultrasonic generator and ultrasonic probe, ultrasonic receiver
The displacement difference of spacing and the ultrasonic signal being calculated between generation and reception, is calculated in UV sebific duct ontology
The usage amount of UV glue;
By the usage amount of UV glue in the UV sebific duct ontology, the surplus of UV glue and display in UV sebific duct ontology is calculated
The surplus of UV glue in the UV sebific duct ontology.
As can be seen from the above description, the beneficial effects of the present invention are:
The method of visual UV glue dosage provided by the invention applied to UV sebific duct, according to the ultrasonic generator and
The ultrasonic probe, ultrasonic receiver default spacing between the end face of feed inlet end and the ultrasonic signal being calculated respectively
Displacement difference between generation and reception, is calculated the usage amount of UV glue in UV sebific duct ontology, then UV sebific duct sheet is calculated
The surplus of internal UV glue and the surplus for showing UV glue in the UV sebific duct ontology, the work for effectively mitigating processing procedure personnel are negative
Load, saves cumbersome dosage statistic processes, while also can intuitively, correctly judge the current dosage situation of UV glue, facilitates UV
Glue spare unit please be purchased and plan in advance.
Further, further comprising the steps of:
By the surplus of UV glue in the UV sebific duct ontology being calculated respectively with UV glue in preset multiple UV sebific duct ontologies
Surplus range successively compared;The surplus range of UV glue includes the first surplus range in multiple UV sebific duct ontologies;
If the surplus of UV glue is located within the scope of the first surplus in the UV sebific duct ontology being calculated, according to described
The corresponding control instruction of one surplus range controls traffic light system color.
Seen from the above description, the data stored in memory are extracted by control chip, and by comparator to measurement
Data and memory in the data that store compare one by one, judgement belongs to the surplus model of UV glue in which UV sebific duct ontology
It encloses, to obtain corresponding control instruction, to control the corresponding color of traffic light system, keeps processing procedure personnel more intuitive
Solve the substantially surplus of UV glue in UV sebific duct ontology.
Further, the surplus range of UV glue further includes that the second surplus range and third are surplus in multiple UV sebific duct ontologies
Margin range;
The first surplus range is 50% or more, and control instruction controls traffic light system green;
For the second surplus range between 10-50%, control instruction controls traffic light system yellow;
The third surplus range is 10% hereinafter, control instruction controls traffic light system red.
Seen from the above description, the color according to signal lamp can substantially understand UV glue in UV sebific duct ontology
Surplus range, please purchase and planning in advance conducive to UV glue spare unit.
Please refer to Fig. 1, the embodiment of the present invention one are as follows:
A kind of UV sebific duct provided by the invention, including UV sebific duct ontology 1, the feed inlet end of the UV sebific duct ontology are equipped with super
Sound wave generating device 2, ultrasonic probe, ultrasonic receiver 3 and processor 4, the ultrasonic generator 2 and ultrasonic probe, ultrasonic receiver 3
It is electrically connected respectively with processor 4, the ultrasonic generator 2 is for issuing ultrasonic signal and the ultrasonic generator
2 direction of the launch is along the feed inlet end of UV sebific duct ontology to the direction of UV sebific duct body interior;The ultrasonic probe, ultrasonic receiver 3
The ultrasonic signal issued for receiving the ultrasonic generator;
The ultrasonic generator 2 and ultrasonic probe, ultrasonic receiver 3 have between the end face of feed inlet end default respectively
Spacing, the processor 4 are configured as issuing the time point of ultrasonic signal, ultrasonic wave reception dress according to ultrasonic generator
Set the time point for receiving the ultrasonic signal and the ultrasonic generator and ultrasonic probe, ultrasonic receiver respectively with into
The surplus of UV glue in UV sebific duct ontology is calculated in default spacing between the end face at material mouth end.
Wherein, the direction of the launch of the ultrasonic generator and the axial direction of UV sebific duct ontology are in the same direction.Namely mutually
In parallel, be equivalent to the direction of the launch of ultrasonic generator and the liquid level of the UV glue of UV sebific duct body interior be it is vertical, be conducive to
The rapid feedback of ultrasonic signal, so that it is guaranteed that measurement accuracy.
Default spacing and the ultrasonic probe, ultrasonic receiver between the ultrasonic generator and the end face of feed inlet end
Default spacing between the end face of feed inlet end be it is equal, measurement accuracy is ensured while being easily installed.
The processor includes control chip and display screen, and the ultrasonic generator and ultrasonic probe, ultrasonic receiver are distinguished
It is electrically connected with control chip, the control chip is electrically connected with display screen.It can be by the data of measurement aobvious by control chip
It is intuitively shown in display screen, convenient for quickly knowing.
The processor further includes comparator, memory and signal lamp, the comparator, memory and signal lamp respectively with
Chip electrical connection is controlled, the surplus range of UV glue and respectively right is stored in multiple UV sebific duct ontologies on the memory
The control instruction answered, the control instruction is for controlling traffic light system different colours.It is extracted in memory by control chip
The data of storage, and the data stored in the data and memory of measurement are compared one by one by comparator, which judgement belongs to
The surplus range of UV glue in a UV sebific duct ontology, so that corresponding control instruction is obtained, it is corresponding to control traffic light system
Color enables processing procedure personnel more intuitively to understand the substantially surplus of UV glue in UV sebific duct ontology.
The calculation formula of the glue surface distance of ultrasound generating spots and UV glue are as follows:
Wherein, 340 be the aerial spread speed of sound wave, and unit m/s, Δ t are between ultrasonic wave occurs and receives
Time difference.It is straight since current domestic ultrasonic distance measurement specific integrated circuit is all the measurement accuracy of only Centimeter Level
Connect and judge that the size of Δ S can increase measurement error, thus the design of this programme be it is prior obtain UV glue in full bottle, half bottle and used extremely
90% three measurement distances reduce the original error of integrated circuit as UV glue dosage control value, with this.It in addition is to make
Processing procedure personnel more intuitively understand UV glue dosage situation, add signal lamp, signal lamp prompt explanation: UV glue surplus exists
It gives a green light between 100% to 50%;UV glue surplus bright orange lamp between 50% to 10%;UV glue surplus is bright below 10%
Red light.
Wherein, ultrasonic generator is piezoelectric-type ultrasonic wave producer, its working principle is that utilizing piezoelectric chip two-stage
Additional electric impulse signal resonate with piezoelectric chip intrinsic frequency, and drive resonance panel vibration, ultrasonic wave generated with this;
And the principle of ultrasonic probe, ultrasonic receiver is then with the principle of generator on the contrary, two piezoelectric chips not applied voltage, when sounding board receives
Piezoelectric chip will be oppressed when to ultrasonic wave and makes vibration, and mechanical energy is switched into electric signal;Processor is equivalent to single-chip microcontroller, then
With PIC16F877 single-chip microcontroller, internal resource is abundant, is easily programmed, is widely used in industrial control field, is sent out using ultrasonic wave
Numerical value is shown on digital display that synchronous signal lamp is lighted to calculate Δ S by raw and reception device electric signal.
Referring to figure 2., the embodiment of the present invention one are as follows:
A kind of method of visual UV glue dosage applied to UV sebific duct provided by the invention, comprising the following steps:
Ultrasonic generator and ultrasonic probe, ultrasonic receiver are driven, records the ultrasonic wave that ultrasonic generator issues respectively
The time point of signal and ultrasonic probe, ultrasonic receiver receive the time point of the ultrasonic signal;
The time point of the ultrasonic signal issued according to ultrasonic generator and ultrasonic probe, ultrasonic receiver receive institute
Time difference of the ultrasonic signal between generation and reception is calculated in the time point for stating ultrasonic signal;
According to time difference of the ultrasonic signal between generation and reception, the ultrasonic signal is calculated and is sending out
The raw displacement difference between reception;
It is default between the end face of feed inlet end respectively according to the ultrasonic generator and ultrasonic probe, ultrasonic receiver
The displacement difference of spacing and the ultrasonic signal being calculated between generation and reception, is calculated in UV sebific duct ontology
The usage amount of UV glue;
By the usage amount of UV glue in the UV sebific duct ontology, the surplus of UV glue and display in UV sebific duct ontology is calculated
The surplus of UV glue in the UV sebific duct ontology.
The method of the above-mentioned visual UV glue dosage applied to UV sebific duct, further comprising the steps of:
By the surplus of UV glue in the UV sebific duct ontology being calculated respectively with UV glue in preset multiple UV sebific duct ontologies
Surplus range successively compared;The surplus range of UV glue includes the first surplus range in multiple UV sebific duct ontologies;
If the surplus of UV glue is located within the scope of the first surplus in the UV sebific duct ontology being calculated, according to described
The corresponding control instruction of one surplus range controls traffic light system color.
The method of the above-mentioned visual UV glue dosage applied to UV sebific duct, the surplus model of UV glue in multiple UV sebific duct ontologies
Enclose further includes the second surplus range and third surplus range;
The first surplus range is 50% or more, and control instruction controls traffic light system green;
For the second surplus range between 10-50%, control instruction controls traffic light system yellow;
The third surplus range is 10% hereinafter, control instruction controls traffic light system red.
Seen from the above description, the color according to signal lamp can substantially understand UV glue in UV sebific duct ontology
Surplus range, please purchase and planning in advance conducive to UV glue spare unit.
In conclusion the method for a kind of UV sebific duct provided by the invention and the visual UV glue dosage applied to UV sebific duct,
On the basis of original UV sebific duct structure, ultrasonic generator, ultrasonic wave are equipped in the feed inlet end of the UV sebific duct ontology
Reception device and processor, the ultrasonic generator and ultrasonic probe, ultrasonic receiver are electrically connected with processor respectively, are utilized
Ultrasonic wave measures UV glue dosage situation, according to ultrasonic wave occur and receive between time difference (time difference telemetry)
The dosage situation for removing calculating UV glue, shows dosage situation in conjunction with easy display device, effectively mitigates processing procedure personnel
Work load, save cumbersome dosage statistic processes, while also can intuitively, correctly judge the current dosage feelings of UV glue
Condition facilitates please purchasing and plan in advance for UV glue spare unit.
The above description is only an embodiment of the present invention, is not intended to limit the scope of the invention, all to utilize this hair
Equivalents made by bright specification and accompanying drawing content are applied directly or indirectly in relevant technical field, similarly include
In scope of patent protection of the invention.
Claims (8)
1. a kind of UV sebific duct, which is characterized in that including UV sebific duct ontology, the feed inlet end of the UV sebific duct ontology is equipped with ultrasonic wave
Generating device, ultrasonic probe, ultrasonic receiver and processor, the ultrasonic generator and ultrasonic probe, ultrasonic receiver respectively with place
Device electrical connection is managed, the ultrasonic generator is used to issue the direction of the launch of ultrasonic signal and the ultrasonic generator
For along the feed inlet end of UV sebific duct ontology to the direction of UV sebific duct body interior;The ultrasonic probe, ultrasonic receiver is described for receiving
The ultrasonic signal that ultrasonic generator issues;
The ultrasonic generator and ultrasonic probe, ultrasonic receiver have default spacing, institute between the end face of feed inlet end respectively
State that processor is configured as issuing time point of ultrasonic signal according to ultrasonic generator, ultrasonic probe, ultrasonic receiver receives
The time point of the ultrasonic signal and the ultrasonic generator and ultrasonic probe, ultrasonic receiver respectively with feed inlet end
The surplus of UV glue in UV sebific duct ontology is calculated in default spacing between end face.
2. UV sebific duct according to claim 1, which is characterized in that the direction of the launch and UV glue of the ultrasonic generator
The axial direction of tube body is in the same direction.
3. UV sebific duct according to claim 1, which is characterized in that the end face of the ultrasonic generator and feed inlet end
Between default spacing and the ultrasonic probe, ultrasonic receiver and the end face of feed inlet end between default spacing be it is equal.
4. UV sebific duct according to claim 1, which is characterized in that the processor includes control chip and display screen, institute
It states ultrasonic generator and ultrasonic probe, ultrasonic receiver to be electrically connected with control chip respectively, the control chip is electrically connected with display screen
It connects.
5. UV sebific duct according to claim 4, which is characterized in that the processor further includes comparator, memory and letter
Signal lamp, the comparator, memory and signal lamp are electrically connected with control chip respectively, and multiple UV is stored on the memory
The surplus range and corresponding control instruction of UV glue in sebific duct ontology, the control instruction are aobvious for controlling signal lamp
Show different colours.
6. a kind of method of the visual UV glue dosage applied to UV sebific duct described in claim 1, which is characterized in that including following
Step:
Ultrasonic generator and ultrasonic probe, ultrasonic receiver are driven, records the ultrasonic signal that ultrasonic generator issues respectively
Time point and ultrasonic probe, ultrasonic receiver receive time point of the ultrasonic signal;
The time point of the ultrasonic signal issued according to ultrasonic generator and ultrasonic probe, ultrasonic receiver receive described super
Time difference of the ultrasonic signal between generation and reception is calculated in the time point of acoustic signals;
According to time difference of the ultrasonic signal between generation and reception, be calculated the ultrasonic signal occurring and
Displacement difference between reception;
According to the ultrasonic generator and the ultrasonic probe, ultrasonic receiver default spacing between the end face of feed inlet end respectively
And displacement difference of the ultrasonic signal being calculated between generation and reception, UV glue in UV sebific duct ontology is calculated
Usage amount;
By the usage amount of UV glue in the UV sebific duct ontology, it is calculated in UV sebific duct ontology described in the surplus of UV glue and display
The surplus of UV glue in UV sebific duct ontology.
7. the method for visual UV glue dosage according to claim 6, which is characterized in that further comprising the steps of:
By the surplus of UV glue in the UV sebific duct ontology being calculated respectively in preset multiple UV sebific duct ontologies UV glue it is surplus
Margin range is successively compared;The surplus range of UV glue includes the first surplus range in multiple UV sebific duct ontologies;
It is surplus according to described first if the surplus of UV glue is located within the scope of the first surplus in the UV sebific duct ontology being calculated
The corresponding control instruction of margin range controls traffic light system color.
8. the method for visual UV glue dosage according to claim 7, which is characterized in that UV glue in multiple UV sebific duct ontologies
Surplus range further includes the second surplus range and third surplus range;
The first surplus range is 50% or more, and control instruction controls traffic light system green;
For the second surplus range between 10-50%, control instruction controls traffic light system yellow;
The third surplus range is 10% hereinafter, control instruction controls traffic light system red.
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102099071A (en) * | 2008-05-20 | 2011-06-15 | 特克法马许可公司 | Device for administering an injectable product comprising a residual amount display |
CN203235641U (en) * | 2013-04-26 | 2013-10-16 | 四川虹视显示技术有限公司 | Device for monitoring using quantity of photosensitive glue in photosensitive glue tube in real time |
WO2016182081A1 (en) * | 2015-05-14 | 2016-11-17 | 国立大学法人東京農工大学 | Liquid jet discharge device and liquid jet discharge method |
CN106154272A (en) * | 2016-06-22 | 2016-11-23 | 深圳市华星光电技术有限公司 | Frame glue separating surface detection method and device |
CN206045090U (en) * | 2016-04-25 | 2017-03-29 | 中国人民解放军第四军医大学 | Monitoring infusion alarm device |
-
2018
- 2018-12-29 CN CN201811635132.6A patent/CN109896121A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102099071A (en) * | 2008-05-20 | 2011-06-15 | 特克法马许可公司 | Device for administering an injectable product comprising a residual amount display |
CN203235641U (en) * | 2013-04-26 | 2013-10-16 | 四川虹视显示技术有限公司 | Device for monitoring using quantity of photosensitive glue in photosensitive glue tube in real time |
WO2016182081A1 (en) * | 2015-05-14 | 2016-11-17 | 国立大学法人東京農工大学 | Liquid jet discharge device and liquid jet discharge method |
CN206045090U (en) * | 2016-04-25 | 2017-03-29 | 中国人民解放军第四军医大学 | Monitoring infusion alarm device |
CN106154272A (en) * | 2016-06-22 | 2016-11-23 | 深圳市华星光电技术有限公司 | Frame glue separating surface detection method and device |
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Application publication date: 20190618 |