CN108345770A - A kind of instruction of sample-adding and information recording method, device, medium and mobile terminal - Google Patents

Abstract

The invention discloses a kind of instruction of sample-adding and information recording method, device, medium and mobile terminal, the sample-adding instruction and information recording method include step：The display simulation orifice plate consistent with well plate gauge lattice；When being loaded successively to each hole for being loaded orifice plate by selected Loading sequence, the confirmation instruction by receiving user changes the color of corresponding aperture and brightness in the simulation orifice plate and is identified successively, until sample-adding is completed.The present invention reduces hardware button to the greatest extent, is accurately loaded using program control mode, by editing and preserving information in order to which auxiliary data is analyzed, improves the levels of precision of sample-adding.

Description

Sample adding indication and information recording method, device, medium and mobile terminal

Technical Field

The invention can be applied to biological experiments or common chemical experiments, and particularly relates to a method, a device, a medium and a mobile terminal for sample adding indication and information recording.

Background

In biological experiments, a lot of sample loading operations are often performed by using well plates (6, 12, 24, 96, 384, 1536 well plates, etc.) with various specifications, while in general chemical experiments, a lot of sample processing is sometimes performed, and when the color and volume of a sample are not obviously changed after loading, the loading sequence may be wrongly recorded due to carelessness or external interference, so that experimental data are wrong. Carry out manual mark in the application of sample in-process, then not only long-consuming, complex operation has interrupted the continuity of application of sample moreover, reduces experiment efficiency. The invention relates to a sample adding indicating and information recording device, wherein a sample adding indicator used in cooperation with sample adding operation can synchronously mark a sample adding position and record corresponding sample information, so that sample adding errors are avoided.

Disclosure of Invention

The invention relates to a method, a device, a medium and a mobile terminal for sample adding indication and information recording, wherein a sample adding indicator used in cooperation with sample adding operation can synchronously mark a sample adding position and record corresponding sample information (such as sample components or other historical information) so as to avoid sample adding errors. Meanwhile, files containing the sample adding process and information of all times can be saved, the files are called and checked at any time, and whether the files are caused by sample adding operation or not is judged when experimental data are abnormal.

The invention is realized by the following technical scheme:

a sample adding indication and information recording method comprises the following steps:

displaying a simulated orifice plate with the specification consistent with that of the sample injection orifice plate;

and when the sample is sequentially added to each hole of the sample adding hole plate according to the selected sample adding sequence, sequentially changing the color and the brightness of the corresponding hole in the simulated hole plate for marking by receiving a confirmation instruction of a user until the sample adding is finished.

Further, the specification of the simulation orifice plate is selected and determined from a pre-stored template library by a user;

or,

the method comprises the steps of receiving specification determination set by a user and storing the specification determination into a template library, wherein the user setting step comprises the step of setting the number of longitudinal and transverse corresponding holes.

Further, the step of user-defining setting further comprises:

the aperture and pitch of the longitudinal and transverse corresponding holes are set to achieve the best visual effect.

Further, before displaying the simulated well plate with the specification consistent with the specification of the sample loading well plate, the method further comprises the following steps:

and setting the color and brightness of the corresponding hole mark in the simulated hole plate after sample adding.

Further, before, during or after the sample is sequentially added to the wells of the sample-adding well plate according to the selected sample-adding sequence, the method further comprises the following steps:

when a user presses a corresponding hole in the simulated hole plate for a long time, popping up an editing window, and collecting and storing sample information of the corresponding hole in the simulated hole plate;

and when the user selects the sample information display mode and clicks the corresponding hole in the simulated hole plate, displaying the sample information of the corresponding hole.

Further, the sample information comprises the sample adding time and position and user-defined input information.

Further, the sample adding sequence comprises a preset sample adding sequence and a self-defined sample adding sequence, when a user selects the preset sample adding sequence, the cursor automatically moves to the next corresponding hole position in the simulated pore plate according to the preset sample adding sequence after the corresponding hole in the simulated pore plate is marked; when a user selects a self-defined sample adding sequence, a cursor is automatically moved to the position of the next corresponding hole in the simulated hole plate according to the sequence designated by the user after the corresponding hole in the simulated hole plate is identified; after the sample adding, the cursors are all moved to the initial positions.

A sample application indicating and information recording device comprising:

the touch screen display module is used for displaying the simulated orifice plate with the specification consistent with that of the sample injection orifice plate;

and the simulated orifice plate identification module is used for sequentially changing the color and the brightness of the corresponding orifice in the simulated orifice plate to identify until the sample adding is finished by receiving the confirmation instruction of the user when the sample adding is sequentially carried out on each orifice of the sample adding orifice plate according to the selected sample adding sequence.

A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the method of sample application indication and information recording as described.

A mobile terminal comprising a memory and a processor, the memory having stored therein a computer program which, when executed by the processor, causes the processor to perform the steps as the loading indication and information recording method.

Compared with the prior art, the invention simulates the appearance of the pore plate and the sample adding process by using a program, indicates the sample adding by using the color change, is convenient and quick, can add the information of each sample in a text mode, increases the accurate degree of the sample adding, and can assist the data analysis.

Drawings

FIG. 1 is a schematic flow chart of a sample application instruction and information recording method according to an embodiment of the present invention.

FIG. 2 is a schematic view of a sample application instruction and information recording apparatus according to an embodiment of the present invention.

FIG. 3 is a schematic view of a sample application instruction and information recording apparatus according to another embodiment of the present invention.

In the figure:

1-a tablet computer; 2-a liquid crystal display touch screen; 3-a power switch; 4-simulating a hole size adjusting knob; 5-simulating a hole spacing adjusting knob; 6-moving the control handle; 7-a power adapter; 8-Power Triplex receptacle.

Detailed Description

The following describes the object of the present invention in further detail with reference to the drawings and specific examples, which are not repeated herein, but the embodiments of the present invention are not limited to the following examples.

As shown in fig. 1, a method for sample application indication and information recording comprises the steps of:

displaying a simulated orifice plate with the specification consistent with that of the sample injection orifice plate;

and when the sample is sequentially added to each hole of the sample adding hole plate according to the selected sample adding sequence, sequentially changing the color and the brightness of the corresponding hole in the simulated hole plate for marking by receiving a confirmation instruction of a user until the sample adding is finished.

Specifically, the specification of the simulated orifice plate is selected and determined from a pre-stored template library by a user;

or,

the method comprises the steps of receiving specification determination set by a user and storing the specification determination into a template library, wherein the user setting step comprises the step of setting the number of longitudinal and transverse corresponding holes.

In a possible embodiment, the step of customizing the setting by the user further comprises:

the aperture and pitch of the longitudinal and transverse corresponding holes are set to achieve the best visual effect.

In one possible embodiment, before displaying the simulated well plate conforming to the specification of the sample application well plate, the method further comprises the following steps:

and setting the color and brightness of the corresponding hole mark in the simulated hole plate after sample adding.

In a practical embodiment, before, during or after sequentially loading the samples into the wells of the sample loading well plate according to the selected sample loading sequence, the method further comprises the following steps:

when a user presses the corresponding hole in the simulated hole plate for a long time (for example, two seconds), popping up an editing window, and collecting and storing sample information of the corresponding hole in the simulated hole plate;

and when a user selects a sample information display mode and clicks a corresponding hole in the simulated hole plate, displaying the sample information of the corresponding hole, wherein the sample information comprises the sample adding time and position and user-defined input information.

In a feasible embodiment, the sample adding sequence comprises a preset sample adding sequence and a user-defined sample adding sequence, and when a user selects the preset sample adding sequence, the cursor automatically moves to the next corresponding hole position in the simulated pore plate according to the preset sample adding sequence after the corresponding hole in the simulated pore plate is identified; when a user selects a self-defined sample adding sequence, a cursor is automatically moved to the position of the next corresponding hole in the simulated hole plate according to the sequence designated by the user after the corresponding hole in the simulated hole plate is identified; after the sample adding, the cursors are all moved to the initial positions.

In one possible embodiment, a sample adding indication and information recording device is provided, which comprises a touch screen display module, an analog orifice plate identification module,

the touch screen display module is used for displaying a simulation orifice plate with the specification consistent with that of the sample injection orifice plate;

and the simulation orifice plate identification module is used for sequentially changing the color and the brightness of the corresponding orifices in the simulation orifice plate to identify until the sample adding is finished by receiving the confirmation instruction of the user when the sample adding is sequentially carried out on each orifice of the sample adding orifice plate according to the selected sample adding sequence.

The touch screen display module is also used for selecting the specification of the simulation orifice plate to be displayed from a pre-stored template library by a user;

or,

and receiving specification determination set by a user through self-definition and storing the specification determination into a template library, wherein the user through self-definition setting step comprises the step of setting the number of longitudinal and transverse corresponding holes.

Embodiments of the present application also provide a computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, implements the steps of the sample application instructing and information recording method as described above.

The embodiment of the present application further provides a mobile terminal, where the mobile terminal may be any terminal device including a mobile phone, a tablet computer, a PDA (personal digital assistant), a wearable device, and the like, and the mobile terminal is taken as the tablet computer 1 as an example:

as shown in fig. 2, the tablet computer 1 includes a housing and a core, wherein the housing is made of light organic material, is formed by embedding an upper part and a lower part, is provided with a housing with equal specification, and can be replaced quickly if damaged. The kernel is intelligent mainboard, contains microprocessor, DRAM, storage card, display card, still includes liquid crystal display touch-sensitive screen 2, built-in lithium cell, is located the simulation hole size adjust knob 4, the simulation hole interval adjust knob 5 of this panel computer casing both sides.

The tablet computer 1 is pre-installed with an operating system, and the operating system includes, but is not limited to, windows, android and other operating systems. The memory card further stores a computer program, and the computer program, when executed by the processor, causes the processor to execute the steps of the sample adding instruction and the information recording method.

Pressing a power switch 3, starting the tablet computer 1, displaying an operation interface on the liquid crystal display touch screen 2, manually double-clicking an application program icon representing a sample adding instruction and information recording method, and displaying an interface shown in figure 1 on the upper portion of the interface in sequence: five menu buttons of 'file', 'preset', 'edit', 'color' and 'sample information', the lower part is a simulation orifice plate display area, wherein, letter symbols representing row numbers are longitudinally displayed on the left side of the simulation orifice plate display area: A. b, C, d. 1. 2, 3, 4, 5, 6, the alphabetic symbols and numeric symbols may also decrease or increase simultaneously as the number of rows and columns varies.

The user clicks a 'preset' button, the liquid crystal display touch screen 2 presents templates with various commercial pore plate specifications which are edited and prestored in the memory card, template thumbnails are clicked to load the selected template, as shown in fig. 1, the pore plate is a 24-pore plate, the number of the pores consists of capital letters and Arabic numerals, the columns are sorted by letters, the horizontal lines are sorted by numerals, the first pore (upper left corner) is numbered A1, the pore at the lower right corner is numbered D6, and the like. If no template which accords with the actual size of the pore plate exists in the preset process, an 'editing' button can be clicked, the number of longitudinal holes and the number of transverse holes of the pore plate are set, the holes are loaded after the setting is finished, the sizes of the holes are controlled by a simulation hole size adjusting knob 4, the distances of the holes are controlled by a simulation hole distance adjusting knob 5, and after the adjustment is finished, a 'file' button is clicked to store the template. In addition, by clicking a 'color' button, the color and brightness of the corresponding hole in the simulated orifice plate after sample adding and marking can be set so as to distinguish the original color from the color of the sample after sample adding. Click "sample information" button, select the corresponding hole in the simulation orifice plate that needs to look over, can show the sample information of this corresponding hole, including position, application of sample time, custom information etc. of corresponding hole.

If the simulated hole plate is proper in size, the simulated hole plate can be covered on the liquid crystal display touch screen 2, and the actual hole is opposite to the corresponding hole through the adjusting knob. At the beginning, the default cursor is positioned at the upper left corner, and any corresponding hole can be quickly clicked and positioned by touch. After one sample is added, the corresponding hole is clicked, the color and the brightness of the corresponding hole are changed according to the previously set color and brightness, and the cursor is automatically positioned to the next one (the default is longitudinal movement). If the default sample loading mode is to be changed, a 'file' button can be clicked, settings are selected, and the settings comprise four modes, namely a longitudinal array (A1-D1, A2-D2, and the like), a longitudinal curve (A1-D1, D2-A2, and the like), a transverse array (A1-A6, B1-B6, and the like), a transverse curve (A1-A6, B6-B1, and the like), one mode can be selected as required, or the settings can be customized, the hole positions are selected in sequence, and then the modes are stored. After one sample is added, the corresponding hole of the simulated pore plate can be pressed for 1 second, the color and the brightness are changed, and the sample adding mark is cancelled by pressing for 1 second again, so that the pressing can be repeated. After the sample is added (or before and during the sample adding), if the sample is required to be subjected to information recording, the corresponding hole at the corresponding position can be pressed for more than 2 seconds, and an editing window is popped up, wherein the sample adding time and the position are automatically marked, the information can be input in a self-defined mode at a blank position, the input is completed, the window is closed, and the information is automatically stored. If the information is to be viewed, clicking the 'sample information' button and clicking a corresponding hole displays the corresponding sample information.

After the sample adding is finished, a file button is clicked for storage, the file can be called at any time for checking, and the previous setting is also stored in the tablet personal computer.

in another embodiment of the present application, as shown in fig. 3, in addition to the functions of the above embodiments, the present embodiment further includes that the tablet pc 1 ⑥ is powered by a power adapter 7 plugged into a power triple-jack socket 8, and ⑥ is also connected to a movement control handle 6 through an interface, where the movement control handle 6 includes four direction keys for moving a cursor to position to any corresponding hole, a confirmation key (OK key) for confirming sample addition and marking of the corresponding hole where the cursor ⑥ is positioned, an information key for checking sample information, and when the cursor ⑥ is positioned at a certain position, an information key of the handle ⑥ is pressed to display the sample information at the position, and a reset key for resetting, that ⑥ is, the sample addition mark and the sample information are all cleared, and the cursor ⑥ is positioned at an initial position, and the movement control handle 6 ⑥ is in a sheet shape, and can be attached to a wall surface, a desktop, or even a pipette gun in a desired manner.

The tablet computer of the embodiment further comprises a USB data interface and a wireless data transmission interface, such as Bluetooth and WIFI, for respectively transmitting the stored data.

In the embodiment of the application, the microprocessor included in the tablet computer realizes the sample adding indication and the information recording method described in the embodiments when executing the computer program stored on the memory card, and as an intelligent control mode is adopted, the application program is used for simulating the sample adding process, the handle and the touch screen are configured to increase the flexibility of control, and the sample adding and the marking are synchronous.

The above examples of the present invention are merely examples for clearly illustrating the present invention and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A sample adding indication and information recording method is characterized by comprising the following steps:

displaying a simulated orifice plate with the specification consistent with that of the sample injection orifice plate;

and when the sample is sequentially added to each hole of the sample adding hole plate according to the selected sample adding sequence, sequentially changing the color and the brightness of the corresponding hole in the simulated hole plate for marking by receiving a confirmation instruction of a user until the sample adding is finished.

2. A loading instruction and information recording method according to claim 1,

the specification of the simulated orifice plate is selected and determined from a pre-stored template library by a user;

or,

the method comprises the steps of receiving specification determination set by a user and storing the specification determination into a template library, wherein the user setting step comprises the step of setting the number of longitudinal and transverse corresponding holes.

3. The method for sample adding instruction and information recording according to claim 2, wherein the step of user-defining setting further comprises:

the aperture and pitch of the longitudinal and transverse corresponding holes are set to achieve the best visual effect.

4. The loading instruction and information recording method according to claim 1, wherein before displaying the simulated well plate conforming to the specification of the loading well plate, the method further comprises the steps of:

and setting the color and brightness of the corresponding hole mark in the simulated hole plate after sample adding.

5. The method of claim 1, wherein before, during, or after loading the sample into the wells of the sample loading well plate in the selected order, further comprising:

when a user presses a corresponding hole in the simulated hole plate for a long time, popping up an editing window, and collecting and storing sample information of the corresponding hole in the simulated hole plate;

and when the user selects the sample information display mode and clicks the corresponding hole in the simulated hole plate, displaying the sample information of the corresponding hole.

6. The method of claim 5, wherein the sample information comprises sample application time and position, and user-defined input information.

7. The method according to claim 1, wherein the sample loading order comprises a preset sample loading order and a custom sample loading order, and when the user selects the preset sample loading order, the cursor automatically moves to the next corresponding well position in the simulated well plate according to the preset sample loading order after the corresponding well in the simulated well plate is identified; when a user selects a self-defined sample adding sequence, a cursor is automatically moved to the position of the next corresponding hole in the simulated hole plate according to the sequence designated by the user after the corresponding hole in the simulated hole plate is identified; after the sample adding, the cursors are all moved to the initial positions.

8. A sample application instructing and information recording apparatus, comprising:

the touch screen display module is used for displaying the simulated orifice plate with the specification consistent with that of the sample injection orifice plate;

and the simulated orifice plate identification module is used for sequentially changing the color and the brightness of the corresponding orifice in the simulated orifice plate to identify until the sample adding is finished by receiving the confirmation instruction of the user when the sample adding is sequentially carried out on each orifice of the sample adding orifice plate according to the selected sample adding sequence.

9. A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 7.

10. A mobile terminal comprising a memory and a processor, the memory having stored therein a computer program which, when executed by the processor, causes the processor to carry out the steps of the method according to any one of claims 1 to 7.