CN103163097A - Area measurement method and device for ultraviolet-visible spectrophotometer - Google Patents

Abstract

The invention discloses a method and device for measuring an area of an ultraviolet-visible spectrophotometer. The method includes setting one or two auxiliary lines perpendicular to the horizontal axis of a data source, and the auxiliary lines can be selected to change their positions; determining the The abscissa value of the auxiliary line, the abscissa value includes the first abscissa value and the second abscissa value; the abscissa value of the auxiliary line is assigned to the area calculation area and used as the starting point parameter and the ending point parameter respectively; according to The starting point parameter and the ending point parameter calculate the area of the data source area defined by the auxiliary line. The device includes a setting device, a value confirmation device, a value assignment device and an area calculation device. Through the method and device of the present invention, the corresponding relationship between the data source and the calculated area is increased, and the intuitive experience of performing real-time area measurement on the data source is increased.

Description

A kind of area measurement method of ultraviolet-visible pectrophotometer and device

Technical field

The present invention relates to the application of ultraviolet-visible pectrophotometer.More specifically, the present invention relates to a kind of area measurement method and device of ultraviolet-visible pectrophotometer.

Background technology

From dividing with the relation of PC, ultraviolet-visible pectrophotometer generally comprises two kinds: the specific installation that the instrument of a kind of PC of being based on, this instrument are built in PC as PC exists, and the parts such as display keyboard of instrument itself realize by the resource of PC; Another kind is embedded instrumentation, and the own cover system of instrument itself is realized its all functions (demonstration, keyboard, Power supply etc.).When the second way was used the PC resource, the transmission control command that need to be connected with PC realized all operations to instrument.

Fig. 1 is the schematic diagram of prior art PC instrument application take SCPI as carrier based on VISA, its implementation is based on the ultraviolet-visible pectrophotometer basic function with SCPI (Standard Commands for Programmable Instruments, the programmable instrument standard commands) command set and VISA (Virtual Instrument Software Architecture, Virture Instrumentation Software Architecture, a kind of senior application programming interface of communicating with various instrument bus of being used for) drive and be medium, the application tool software that carries out spectrum analysis by the powerful resource of PC, general this class software of title is " host computer " (corresponding instrument " slave computer ").Similarly technology is also referred to as virtual instrument technique (instrument is divided into data collecting card hardware, data acquisition card software, PC end data process software three parts).Due to the instrument cost restriction, general instrument all is structured on embedded system, but various application is subject to embedded system resource (storage space, arithmetic speed etc.).Above-mentioned embedded instrumentation uses the method for PC resource to alleviate this problem.

Peak area is the curve in measurement data source and the graphics area that baseline surrounds.Can carry out simple qualitative and quantitative analysis with peak area when analyzing with ultraviolet-visible pectrophotometer, the initial sum terminating point of curve need to be set when carrying out calculated by peak area.A kind of is that starting point and ending point is connected, and connecting line is baseline, and the area that this connecting line and Curves surround is peak area; Another kind be transverse axis with data source as baseline, with curve with surround the open interval perpendicular to transverse axis and vertical line, corresponding terminating point vertical line corresponding starting point respectively, then this open interval and transverse axis are surrounded the area of closed interval as peak area.In context, described peak area is called area for short.The area computing function schematic diagram that Fig. 2 provides for prior art medium ultraviolet visible spectrophotometer, this function needs two parameters: the starting point parameter of area and terminating point parameter, in these two parameter prior aries, the general input frame mode that adopts is inputted or the forms mode input.For example, in Fig. 2, there is the form that individual area calculates on the left side, and the user need to manually input numerical value at begin column and end column, completes the parameter setting up procedure, and the complete program of parameter input can calculate corresponding area automatically.

But only carry out the numerical value that area was inputted and calculated to parameter independently in prior art, but can't embody the corresponding relation between the demonstration image that utilizes the data source that the curve of spectrum that ultraviolet-visible pectrophotometer produces consists of and the area that calculates, also can't reach the intuitional and experiential thinking that the user carries out real-time area measurement for the current data source.

Summary of the invention

The object of the invention is to provide a kind of area measurement method and device of ultraviolet-visible pectrophotometer, purpose be to embody data source and the area that calculates between corresponding relation, and reach the intuitional and experiential thinking that the user carries out real-time area measurement for the current data source.

The method comprises:

One or two boost lines perpendicular to the data source transverse axis are set, and described boost line can be by selected change position;

Determine the abscissa value of described boost line, this abscissa value comprises the first abscissa value and the second abscissa value;

The abscissa value assignment of described boost line is calculated the district to area and respectively as starting point parameter and terminating point parameter;

The area in the data source zone that limits according to described starting point parameter and the described boost line of terminating point calculation of parameter.

Further, the abscissa value of described definite described boost line further comprises:

Judge whether described boost line forms the point of crossing with data source, if formed abscissa value that this point of crossing is corresponding as the abscissa value of described boost line, if do not form with on data source apart from the nearest corresponding abscissa value of point of this boost line as the abscissa value of described boost line and described boost line is moved to this nearest point.

Further, described abscissa value assignment with described boost line is calculated the district and comprises as starting point parameter and terminating point parameter respectively to area:

Size between more described the first abscissa value and described the second abscissa value is calculated abscissa value less in both the starting point parameter in district as area, larger abscissa value is calculated the terminating point parameter in district as area.

Further, described at least one boost line is the first boost line and the second boost line.

Further, corresponding described the first abscissa value of described the first boost line;

Corresponding described the second abscissa value of described the second boost line.

Further, described at least one boost line is single boost line.

Further, user's selected corresponding described the first abscissa value of described single boost line for the first time;

Corresponding described the second abscissa value of the described single boost line that the user selectes for the second time.

Further, the method comprises:

The position of moving according to described boost line is presented at the corresponding abscissa value of this boost line in data source in real time.

Further, the method comprises:

Calculate starting point parameter and the terminating point parameter of district's input according to the user at area, described boost line is adjusted to respectively abscissa value corresponding to the position of starting point parameter or terminating point parameter.

The present invention also provides a kind of area measuring device of ultraviolet-visible pectrophotometer, comprising:

Setting device is used for one or two boost lines perpendicular to the data source transverse axis are set, and described boost line can be by selected change position;

Really be worth device, be used for determining the abscissa value of described boost line, this abscissa value comprises the first abscissa value and the second abscissa value;

Valuator device is used for that the abscissa value assignment of described boost line is calculated the district to area and respectively as starting point parameter and terminating point parameter;

The area calculation element, the area in the data source zone that is used for limiting according to described starting point parameter and the described boost line of terminating point calculation of parameter.

Further, described true value device comprises:

Judgment means, be used for judging whether described boost line forms the point of crossing with data source, if form really be worth the device abscissa value that this point of crossing is corresponding as the abscissa value of described boost line, and if do not form really would be worth device with on data source apart from the nearest corresponding abscissa value of point of this boost line as the abscissa value of described boost line and described boost line is moved to this nearest point.

Further, described valuator device comprises:

Comparison means is used for the size between more described the first abscissa value and described the second abscissa value, and less abscissa value in is both calculated the starting point parameter in district as area, and larger abscissa value is calculated the terminating point parameter in district as area.

Further, described at least one boost line is the first boost line and the second boost line.

Further, corresponding described the first abscissa value of described the first boost line;

Corresponding described the second abscissa value of described the second boost line.

Further, described at least one boost line is single boost line.

Further, user's selected corresponding described the first abscissa value of described single boost line for the first time;

Corresponding described the second abscissa value of the described single boost line that the user selectes for the second time.

Further, this device comprises:

Display device, the position that is used for moving according to described boost line is presented at data source in real time with the corresponding abscissa value of this boost line.

Further, this device comprises:

Position regulator is used for calculating starting point parameter and the terminating point parameter of district's input at area according to the user, and described boost line is adjusted to respectively abscissa value corresponding to the position of starting point parameter or terminating point parameter.

By method and apparatus of the present invention, increased data source and the area that calculates between corresponding relation, increased the intuitional and experiential thinking that data source is carried out real-time area measurement.

Description of drawings

Below with reference to accompanying drawings and in conjunction with the embodiments the present invention is specifically described.

Fig. 1 is the schematic diagram of prior art PC instrument application take SCPI as carrier based on VISA;

The area computing function schematic diagram that Fig. 2 provides for prior art medium ultraviolet visible spectrophotometer;

Fig. 3 is method flow diagram of the present invention;

Fig. 4 is installation composition schematic diagram of the present invention;

Fig. 5 is the schematic diagram that the ultraviolet-visible pectrophotometer in the specific embodiment of the invention carries out the front original state of area measurement;

Fig. 6 is the schematic diagram of the embodiment of the present invention one medium ultraviolet visible spectrophotometer the first situation when carrying out area measurement;

Fig. 7 is the schematic diagram of the embodiment of the present invention one medium ultraviolet visible spectrophotometer the second situation when carrying out area measurement;

Fig. 8 is the schematic diagram of the embodiment of the present invention one medium ultraviolet visible spectrophotometer the third situation when carrying out area measurement.

Embodiment

With reference to the accompanying drawings and by embodiments of the invention, technical scheme of the present invention is described in detail.

As shown in Figure 3, the invention provides a kind of area measurement method of ultraviolet-visible pectrophotometer, comprise: S1, one or two boost lines perpendicular to the data source transverse axis are set, described boost line can and can be chosen definite position by cancellation by selected change position; S2, determine the abscissa value of described boost line, this abscissa value comprises the first abscissa value and the second abscissa value.When described boost line is a boost line, determine that by twice the first abscissa value and the second abscissa value can be determined in the position of boost line.When described boost line is two boost lines namely when the first boost line and the second boost line, can determine the first abscissa value and determine the second abscissa value by the second boost line by the first boost line; S3, the abscissa value assignment of described boost line is calculated the district to area and respectively as starting point parameter and terminating point parameter; S4, according to described starting point parameter and the described boost line of the terminating point calculation of parameter area in the zone that data source limits.

As shown in Figure 4, the invention provides a kind of area measuring device of ultraviolet-visible pectrophotometer, comprising: setting device 1, be used at least one boost line perpendicular to the data source transverse axis is set, described boost line can be by selected change position; Really be worth device 2, be used for determining the abscissa value of described boost line, this abscissa value comprises the first abscissa value and the second abscissa value; Valuator device 3 is used for that the abscissa value assignment of described boost line is calculated the district to area and respectively as starting point parameter and terminating point parameter; Area calculation element 4 is used for according to described starting point parameter and the described boost line of the terminating point calculation of parameter area in the zone that data source limits.

For ultra-violet and visible spectrophotometer, the main body of carrying out area measurement is host computer.Need to prove, this host computer can be common computing machine, it can be connected with frequency analyzer by common or special-purpose computer interface, to spectrum analyzer manage, data are processed and data analysis, wherein, common interface is for example the RS232 interface, and special purpose interface is for example the VISA interface, but the embodiment of the present invention is not restricted to this.Before method in carrying out the present invention, host computer obtains data source from data acquisition equipment, and data source is processed on the interface through being presented in data after conversion.Particularly, this computing machine is data source and the viewing area that is presented at data source for the data transformation that ultraviolet-visible pectrophotometer is collected.According to the data type of ultraviolet-visible pectrophotometer collection and user's selection, the data source longitudinal axis can be absorbance, transmitance or energy, and transverse axis can be wavelength or time.This embodiment will be take the spectral measurement of ultraviolet-visible pectrophotometer as example, is absorbance according to the longitudinal axis of data source, and transverse axis is that wavelength describes.

In step S1, boost line and data source that setting device 1 is set are under the same coordinate system, and perpendicular to the data source transverse axis.Boost line can move according to user's operation input apparatus such as mouse, keyboard when selected.Particularly, boost line is selected by user's operating mouse, is converted to removable state from the stationary state of initial position, then through pulling the variation that realizes its position, determines its position until the user cancels to choose when it is dragged to the target location.

In step S2, really be worth device 2 and according to the user, the boost line that pulls cancelled and chosen, determine this abscissa value corresponding to boost line position this moment.Need to have two values of starting point and ending point of curve in the spectroscopic data source due to the measurement of ultraviolet-visible spectrophotometer area, therefore, need to determine the first abscissa value and the second abscissa value with boost line, thereby satisfy the requirement of area measurement.

But because the otherness of the curve of spectrum on each data source and user's operation is random, when the boost line that is pulled is cancelled when choosing, its abscissa value is not probably the abscissa value of point corresponding on data source.Therefore, further, really also comprise judgment means in value device 2, the following substep that is used for execution in step S2: judge whether described boost line forms the point of crossing with data source, if formed abscissa value that this point of crossing is corresponding as the abscissa value of described boost line, if do not form with on data source apart from the nearest corresponding abscissa value of point of this boost line as the abscissa value of described boost line and described boost line is moved to this nearest point.By above-mentioned steps, the present invention has had the user and the target location has been set the function that can automatically revise when makeing mistakes, and having overcome does not have the defective of respective handling measure in this case in the prior art.

And this step both can only be revised the abscissa value of the boost line that is pulled, and also can correspondingly upgrade the abscissa value of another boost line.

Particularly, setting device 1 arranges two boost lines i.e. the first boost line and the second boost line, and the abscissa value that is provided with two boost line initial positions lays respectively at 1/3rd places and 2/3rds places of transverse axis coordinate in whole viewing area coordinate system for example.Point on data source is what disperse, this 1/3rd place and 2/3rds places might not be the abscissa value of the point on data source so, in this case, above-mentioned substep according to judgment means, when pulling wherein a boost line and determining its abscissa value, the initial position of a mobile other boost line is about to that this other boost line moves to point nearest on data source and with the abscissa value of this point correspondence abscissa value as initial position.Take on transverse axis as example as the time, when the scope of this data source is 0 to 12 second, initial position is separately positioned on the first boost line and the second boost line 4 seconds and located in 8 seconds, if the sampling interval of this data source is 3 seconds, the horizontal ordinate that is the point of data source is respectively 0,3,6,9,12 second, and the first boost line and the second boost line initial position separately was not the abscissa value of the point on data source in 4 seconds and 8 seconds.Be the position of 5 seconds when the user pulls the first boost line and drags it to abscissa value, judgment means is judged, the first boost line horizontal ordinate be 5 seconds the position not and data source form the point of crossing, therefore the first boost line is revised, it is modified on data source abscissa value from its nearest point, namely made into 6 seconds, namely the first boost line can stop to locate by 6 seconds.Because the abscissa value of the initial position of the second boost line 2 is 8 seconds, the abscissa value of the point on neither data source, so judgment means is also revised it, the second boost line is moved and will stop on the data source from its nearest point, namely abscissa value is the position of 9 seconds.

In step S3, valuator device 3 calculates district according to starting point parameter and terminating point parameter and assignment to area with the abscissa value of boost line.Starting point parameter due to area in calculating should be less than terminating point parameter, so should compare the size of the first and second abscissa value with the first abscissa value of boost line and the second abscissa value and starting point parameter and terminating point parameter matching the time.Further, valuator device 3 comprises comparison means, the following substep that is used for execution in step S3: the size between more described the first abscissa value and described the second abscissa value, abscissa value less in is both calculated the starting point parameter in district as area, larger abscissa value is calculated the terminating point parameter in district as area.Could after the user utilizes boost line to limit the zone of measuring area, can rationally calculate like this.

Embodiment one

At least one boost line that in the present invention, setting device 1 arranges is two boost lines, is respectively the first boost line 100 and the second boost line 200, and, the first corresponding the first abscissa value of boost line 100; The second corresponding the second abscissa value of boost line 200.The user moves to after can choosing respectively regardless of order ground the first boost line 100 or the second boost line 200 to cancel behind target location separately and chooses when setting the surface area that will measure, thereby has determined the start-stop border of the segment of curve that intercepts.

For example shown in Figure 5, demonstrate the curve of this measurement in data source viewing area on the right.In step S1, create the first boost line 100 and the second boost line 200 according to the present embodiment, it is the first horizontal ordinate of initial position and 1/3rd places and 2/3rds places that the second abscissa value is respectively transverse axis coordinate in the coordinate system of whole viewing area separately, wavelength value corresponding to the first abscissa value of initial position is 500 nanometers, and wavelength value corresponding to the second abscissa value of initial position is 600 nanometers.The user chooses the first boost line 100 by clicking the mouse, pull the first boost line 100 and cancel and choose by discharging mouse behind the target location.

After the user discharges mouse, judgment means judges whether the first boost line 100 forms the point of crossing with data source, if formed abscissa value that this point of crossing is corresponding as the first abscissa value, if do not form will the nearest corresponding abscissa value of point of distance the first boost line 100 move to this nearest point as the first abscissa value and with the first boost line 100 on data source.At this moment, because the initial position of the second boost line 200 can form the point of crossing with data source, so the second boost line 200 is to keep motionless in the process that pulls the first boost line 100.

Then discharge mouse after another target location is chosen and be dragged to the second boost line 200, judgment means judges whether the second corresponding horizontal ordinate of boost line 200 forms the point of crossing with data source, if formed abscissa value that this point of crossing is corresponding as the second abscissa value, if do not form will the nearest corresponding abscissa value of point of distance the first boost line 200 move to this nearest point as the second abscissa value and with the second boost line 200 on data source.Certainly the user also can first choose and pulls the second boost line 200 and determine the second abscissa value, then chooses and pull the first boost line 100 and determine the first abscissa value.

The first situation, as Fig. 6, the user moves to the first boost line 100 target location that corresponding abscissa value is 550 nanometers, and the second boost line 200 is moved to the target location that corresponding abscissa value is 600 nanometers.Through the respectively judgement of judgment means to the first boost line 100, the second boost line 200, the first boost line 100 and the second boost line 200 have the point of crossing with at that time data source respectively, therefore do not need further boost line and its abscissa value to be revised, determine that directly the first abscissa value is 550 nanometers, the second abscissa value is 600 nanometers.The first abscissa value after comparison means will be determined and the size of the second abscissa value compare, by shown in Figure 6, the first abscissa value 550 nanometers are less than the second abscissa value 600 nanometers, therefore when the first abscissa value and the second abscissa value assignment being calculated the district and are the form on Fig. 6 left side to area, with the first abscissa value as the starting point parameter, and show in the beginning cell of being expert at of the cursor in the form on Fig. 6 left side, the second abscissa value as the terminating point parameter, and is shown in the end unit lattice of correspondence.

The second situation, by shown in Figure 7, the user moves to the first boost line 100 target location that corresponding abscissa value is 650 nanometers, and the second boost line 200 is moved to the target location that corresponding abscissa value is 600 nanometers.Through judgement respectively, the first boost line 100 and the second boost line 200 have the point of crossing with at that time data source respectively, determine that directly the first abscissa value is 650 nanometers, and the second abscissa value is 600 nanometers.The first abscissa value after comparison means will be determined and the size of the second abscissa value compare, by shown in Figure 6, the first abscissa value 650 nanometers are greater than the second abscissa value 600 nanometers, therefore when the first abscissa value and the second abscissa value assignment being calculated the district and are the form on Fig. 7 left side to area, with the second abscissa value as the starting point parameter, and show in the beginning cell of being expert at of the cursor in the form on Fig. 7 left side, the first abscissa value as the terminating point parameter, and is shown in the end unit lattice of correspondence.

Starting point parameter in cell and the terminating point calculation of parameter in the end unit lattice go out the area in the zone defined in the spectroscopic data source on Fig. 6 right side by the first boost line 100 and the second boost line 200 to area calculation element 4 according to beginning.

The third situation, when the position of the first boost line and the second boost line overlaps, be comparison means relatively the first abscissa value and the second abscissa value when equating, as shown in Figure 8, the beginning cell that cursor during the calculating of the area of Fig. 8 is distinguished is expert at is identical with the numerical value of end unit lattice, and the area value that area calculation element 4 calculates is 0.

In Fig. 5-Fig. 8, it be for example form that area calculates the district, and first row region representation area is numbered, be read-only, can not edit row; The starting point parameter of " beginning " expression surface area to be measured of secondary series is to edit row; The terminating point parameter of tertial " end " expression surface area to be measured is to edit row; The 4th area that calculate of row " divisor " expression divided by numerical value, be to edit row; The area value in the zone that the 5th row " area " expression is limited by two boost lines, data source and baselines, these row be read-only, can not edit row; The 6th area value that calculate of row " result " expression is divided by the numerical value that the divisor of the 4th row obtains, be read-only, can not edit row.

Embodiment two

In this embodiment two, setting device 1 arranges single boost line.Corresponding described the first abscissa value of the described single boost line that the user selectes for the first time; Corresponding described the second abscissa value of the described single boost line that the user selectes for the second time.The user utilizes described single boost line to determine that the position of boost line obtains the first abscissa value and the second abscissa value for twice when setting the surface area that will measure.

For the first time should single boost line choose and move to cancel behind the target location by the user and choose, this moment, judgment means judged whether this this corresponding horizontal ordinate of single boost line forms the point of crossing with data source, if formed abscissa value that this point of crossing is corresponding as the first abscissa value, if do not form the nearest corresponding abscissa value of point of current this single boost line of distance on data source also moved to this nearest point with this single boost line as the first abscissa value, thereby determining the first abscissa value; Then the user again should single boost line chooses and moves to cancel behind another target location and chooses, and judgment means judges again, determines the second abscissa value.Other step is identical with embodiment one.

Further, method of the present invention is further comprising the steps of: the position of moving according to described boost line is presented at the corresponding abscissa value of this boost line in data source in real time.Device of the present invention also comprises: display device, the position that is used for moving according to described boost line is presented at data source in real time with the corresponding abscissa value of this boost line.

Pulled in mobile process in boost line, presented the boost line abscissa value corresponding with the point of crossing of data source, for example the disclosing solution long value.Be conducive to like this user in boost line is carried out the process of drag operation, can observe in real time, easily the current corresponding wavelength location of boost line, be conducive to the user and confirm whether boost line current position is appropriate.In addition, also help and facilitate user's character of the situation of change of squiggle or analysis waveform curve in the observed data source in the towing process, for example, the user changes by the wavelength value of the point of crossing of observation boost line and curve, can meticulously, clearly reflect wavelength and the situation of change thereof that crest on squiggle, trough or other key feature points are corresponding.

Further, method of the present invention is further comprising the steps of: calculate starting point parameter and the terminating point parameter of district's input according to the user at area, described boost line is adjusted to respectively abscissa value corresponding to the position of starting point parameter or terminating point parameter.Device of the present invention also comprises: position regulator, be used for calculating starting point parameter and the terminating point parameter of district's input at area according to the user, and described boost line is adjusted to respectively abscissa value corresponding to the position of starting point parameter or terminating point parameter.

As the user when still the mode by manual input arranges starting point parameter and terminating point parameter, it is corresponding with starting point parameter or terminating point parameter with the abscissa value that realizes boost line that boost line can be done the adjustment of out position thereupon.It is 550 nanometers that beginning cell such as the user in Fig. 6 has manually been inputted the starting point parameter, and position regulator will be according to the starting point parameter value of 550 nanometers will to adjust to corresponding abscissa value be the position of 550 nanometers such as the first boost line.When the user was 600 nanometer in end unit lattice inputs terminating point parameter, position regulator will be according to the terminating point parameter value of 600 nanometers will to adjust to corresponding abscissa value be the position of 600 nanometers such as the second boost line.For another example, when boost line is single boost line, position regulator will according to the parameter value in cell of this confirmation input of user, carry out the adjustment of this time correspondence position to single boost line.Like this, the present invention allows the user see that intuitively corresponding respectively what measure or calculate is the area of which section curve on the curve of spectroscopic data source to starting point and ending point, further promotes the intuitional and experiential thinking of user when measuring area.

Method and apparatus of the present invention can also be applied in other measuring techniques that need starting point parameter and terminating point parameter, and as the dynamics area measurement, transverse axis is time shaft, and starting point parameter and terminating point parameter parameter are time parameter.

Should be appreciated that the above detailed description of technical scheme of the present invention being carried out by preferred embodiment is illustrative and not restrictive.Those of ordinary skill in the art is reading on the basis of instructions of the present invention and can modify to the technical scheme that each embodiment puts down in writing, and perhaps part technical characterictic wherein is equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution break away from the spirit and scope of various embodiments of the present invention technical scheme.Protection scope of the present invention is only limited by the claims of enclosing.

Claims (18)

1. an area measuring method of an ultraviolet-visible spectrophotometer, characterized in that, comprising: Set one or two auxiliary lines perpendicular to the horizontal axis of the data source, the auxiliary lines can be selected to change the position; determining an abscissa value of the auxiliary line, the abscissa value comprising a first abscissa value and a second abscissa value; Assign the abscissa value of the auxiliary line to the area calculation area and use it as a starting point parameter and an ending point parameter respectively; The area of the data source area defined by the auxiliary line is calculated according to the starting point parameter and the ending point parameter. 2. the area measuring method of ultraviolet-visible spectrophotometer according to claim 1, is characterized in that, The determining the abscissa value of the auxiliary line further includes: Determine whether the auxiliary line forms an intersection with the data source, if yes, use the abscissa value corresponding to the intersection point as the abscissa value of the auxiliary line, if not, use the point on the data source closest to the auxiliary line The corresponding abscissa value is used as the abscissa value of the auxiliary line and the auxiliary line is moved to the nearest point. 3. the area measurement method of ultraviolet-visible spectrophotometer according to claim 2, is characterized in that, described abscissa value assignment of described auxiliary line is given to area calculation area and further as starting point parameter and termination point parameter respectively include: Comparing the size between the first abscissa value and the second abscissa value, using the smaller abscissa value as the starting point parameter of the area calculation area, and using the larger abscissa value as the area calculation area The endpoint parameter for . 4. the area measurement method of ultraviolet-visible spectrophotometer according to claim 3, is characterized in that, The at least one auxiliary line is a first auxiliary line and a second auxiliary line. 5. the area measuring method of ultraviolet-visible spectrophotometer according to claim 4, is characterized in that, described first auxiliary line corresponds to described first abscissa value; The second auxiliary line corresponds to the second abscissa value. 6. the area measuring method of ultraviolet-visible spectrophotometer according to claim 3, is characterized in that, the method further comprises: The at least one auxiliary line is a single auxiliary line. 7. the area measurement method of ultraviolet-visible spectrophotometer according to claim 6, is characterized in that, The single auxiliary line selected by the user for the first time corresponds to the first abscissa value; The single auxiliary line selected by the user for the second time corresponds to the second abscissa value. 8. the area measurement method of ultraviolet-visible spectrophotometer according to claim 1, is characterized in that, the method further comprises: The abscissa value corresponding to the auxiliary line is displayed in the data source in real time according to the moving position of the auxiliary line. 9. the area measuring method of ultraviolet-visible spectrophotometer according to claim 1, is characterized in that, the method further comprises: According to the start point parameter and the end point parameter input by the user in the area calculation area, the auxiliary line is adjusted to the position where the abscissa value corresponds to the start point parameter or the end point parameter. 10. An area measuring device of an ultraviolet-visible spectrophotometer, characterized in that, comprising: A setting device for setting one or two auxiliary lines perpendicular to the horizontal axis of the data source, the auxiliary lines can be selected to change positions; A value determining device, used to determine the abscissa value of the auxiliary line, the abscissa value includes a first abscissa value and a second abscissa value; An assignment device, configured to assign the abscissa value of the auxiliary line to the area calculation area and use it as a starting point parameter and an ending point parameter respectively; An area calculation device, configured to calculate the area of the data source area defined by the auxiliary line according to the starting point parameter and the ending point parameter. 11. the area measuring device of ultraviolet-visible spectrophotometer according to claim 10, is characterized in that, described definite value device further comprises: Judging means for judging whether the auxiliary line forms an intersection point with the data source, if yes, the determining means uses the abscissa value corresponding to the intersection point as the abscissa value of the auxiliary line, if not formed, the determining means The abscissa value corresponding to the point closest to the auxiliary line on the data source is used as the abscissa value of the auxiliary line, and the auxiliary line is moved to the nearest point. 12. The area measuring device of the ultraviolet-visible spectrophotometer according to claim 11, wherein said assigning device further comprises: Comparing means for comparing the size between the first abscissa value and the second abscissa value, using the smaller abscissa value as the starting point parameter of the area calculation area, and the larger abscissa value The value is used as the end point parameter of the area calculation area. 13. The area measuring device of ultraviolet-visible spectrophotometer according to claim 12, is characterized in that, The at least one auxiliary line is a first auxiliary line and a second auxiliary line. 14. The area measuring device of ultraviolet-visible spectrophotometer according to claim 12, is characterized in that, The first auxiliary line corresponds to the first abscissa value; The second auxiliary line corresponds to the second abscissa value. 15. The area measuring device of ultraviolet-visible spectrophotometer according to claim 12, is characterized in that, this device further comprises: The at least one auxiliary line is a single auxiliary line. 16. The area measuring device of ultraviolet-visible spectrophotometer according to claim 15, is characterized in that, The single auxiliary line selected by the user for the first time corresponds to the first abscissa value; The single auxiliary line selected by the user for the second time corresponds to the second abscissa value. 17. The area measuring device of the ultraviolet-visible spectrophotometer according to claim 10, is characterized in that, the device further comprises: The display device is used to display the abscissa value corresponding to the auxiliary line in the data source in real time according to the moving position of the auxiliary line. 18. The area measuring device of the ultraviolet-visible spectrophotometer according to claim 10, is characterized in that, the device further comprises: The position adjustment device is used to adjust the auxiliary line to a position where the abscissa value corresponds to the starting point parameter or the ending point parameter according to the starting point parameter and the ending point parameter input by the user in the area calculation area.

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