CN112863674B - Inspection sheet generating method capable of indicating inspection position and clinical inspection method - Google Patents

Abstract

The invention discloses a checking list generating method capable of indicating checking positions and a clinical checking method, which comprises the following steps: pre-establishing a part library containing text options and checking parts and a position chart containing indication buttons and checking positions; defining a map of the indication buttons and the checking positions in the position chart and the text options and the checking positions in the position library; acquiring an inspection position according to the selected text options and the mapping relation from the position library, and acquiring an inspection position according to the selected indication buttons and the mapping relation in the position chart; generating an inspection sheet according to the acquired inspection position and the inspection position; also disclosed is a clinical examination system comprising: a location library; a position chart; defining a module; a selection module; a generating module; the selectable positions of the clinical parts can be displayed, and the user can quickly complete the selection of one or more pieces of position information through clicking. The problems of low efficiency, inconsistent expression and the like of remarking description by characters are avoided.

Description

Inspection sheet generating method capable of indicating inspection position and clinical inspection method

Technical Field

The present invention relates to clinical examinations, and more particularly, to a method for generating an examination sheet capable of indicating an examination position and a clinical examination method.

Background

In the diagnosis and treatment of a patient, a clinician often needs to open various examination sheets including the parts and items to be examined, examination requirements, and the like. When the doctor needs to describe the examination requirement more accurately, remark description is made on the content of the examination application, and the position of the examination item, the examination requirement and the like are further indicated, for example: "left lung", "left lower lobe", "right arm turned 11 degrees". The inspection department makes an inspection according to the inspection sheet requirement, and generates an inspection report after the inspection is completed. The clinician then analyzes the illness state, the etiology and the like according to the examination report, and decides the next diagnosis and treatment scheme. The accurate examination requirements have a great influence on the subsequent diagnosis and treatment work.

The conventional inspection applications are all paper hand documents. In current clinical information software systems, paper applications have been replaced by means of electronic checklists. In these systems, the clinician selects the required exam from a given clinical exam item dictionary (the clinical exam item dictionary is coded data and is shared among clinical systems, and the circulation of internal business and the driving of clinical work in each information system are all dependent on standardized code data). However, in actual work, the clinical doctors still encounter the situation that the examination requirement needs to be described by remarking, especially the examination position is indicated, which is influenced by the complete situation, granularity, individual requirement and the like of the clinical project dictionary. The existing processing modes cannot well give consideration to clinical work efficiency and data accuracy. Non-standardized, erroneous or inaccurate data has a major impact on subsequent examination, report writing, clinical auxiliary diagnosis, clinical quality management, etc.

Scenario 1-select examination site/project remark description to initiate an examination application:

The system performs preliminary arrangement on the checked parts/items, and the names of the parts or the items contain no or little position information. The clinician also has a relatively convenient choice of examination site/item (because dictionary entries are not so many) when applying for an examination, but when encountering positional information that requires explanation of the examination site/item, the clinician needs to explain it in a remark box with text, which is less efficient than half-manual. Secondly, because each doctor is different in habit, various writing methods (such as full-uterus double-sided accessories, full-uterus double-accessory and full-uterus left-right accessories) can be adopted by one meaning, and the data normalization is not enough, so that the subsequent analysis and quality management are not facilitated. Finally, for clinical examination such as pathological examination which requires closed-loop management of the collected specimens, if a doctor inputs a plurality of positions in remarks, only one bar code can be printed in the mode, the pathology department cannot receive the specimens independently, the links of middle specimen circulation cannot be known in time, and closed-loop tracking of single specimens cannot be achieved.

Scenario 2-selection from the examination site/item dictionary entirely:

The system organizes the complete examination location/item dictionary and organizes the locations/items for each location into separate entries. The clinician can find the required parts/items in the dictionary at various locations at the time of filing the examination application. However, the number of parts/items sorted in this way is very large (for example, the lung can be divided into 6 items such as "left lung", "left upper lung", "left lower lung", etc., and the cervix can be divided into 12 items such as "cervical 1 point", "cervical 2 point", etc.). First, the operation steps for selecting required data from a list with many items are more, the time is longer, and the work efficiency is greatly affected, regardless of the keyword, the classification tree, or the like. Secondly, because the names of the items of the same examination part/item are relatively close (such as 'left lung', 'right lower lung', 'right upper lung', 'cervical 10 point', 'cervical 11 point'), the doctor can easily choose mistakes under the condition that clinical work is relatively tension and the patient conditions are different.

Scenario 3-set up an inspection application for multiple location locations of the same site/item:

in many cases, a physician needs to examine multiple locations on the same site of a patient. In the scenario 1 mode, the physician needs to enter multiple positions (e.g., "left and right", "bilateral", "left + right", "3 points", "369 points") in the remark, and the billing speed is further affected. The information entered manually is also not intuitive. In the mode of scene 2, the doctor needs to repeatedly perform the selection action to finish the selection of a plurality of parts, the working thinking is disturbed due to the program operation, and the working efficiency cannot be improved. In addition, because the conventional examination to be performed by the patient who is diagnosed in the same special department is almost the same, the clinician can determine the examination position according to the condition of the patient, so that the combination of the positions of the parts can be changed frequently (such as 'cervical 3 point', 'cervical 3, 6 point', 'cervical 3, 9, 12 point', 'cervical 3, 6, 9, 12 point'), the possibility of error is increased in both the two modes, and the position is not easy to find after the error.

Disclosure of Invention

In view of the above-mentioned shortcomings, the present invention provides an inspection sheet generating method and a clinical inspection method capable of indicating an inspection position, which can visually display a selectable position of an inspection site, and can complete the selection of inspection position information by clicking. The inefficiency of remarking in text is avoided.

In order to achieve the above purpose, the embodiment of the present invention adopts the following technical scheme:

an examination order generation method capable of indicating an examination position, the clinical examination method capable of indicating an examination position comprising the steps of:

Pre-establishing a part library containing text options and checking parts and a position chart containing indication buttons and checking positions;

defining a map of the indication buttons and the checking positions in the position chart and the text options and the checking positions in the position library;

Acquiring an inspection position according to the selected text options and the mapping relation from the position library, and acquiring an inspection position according to the selected indication buttons and the mapping relation in the position chart;

and generating an inspection sheet according to the acquired inspection position and the inspection position.

According to one aspect of the invention, the location chart comprises: a nine-square grid for representing azimuth information and a dot location clock for representing dot location information; the site library includes: an inspection item dictionary containing all of the inspectable part text options.

In accordance with one aspect of the invention, the defining the mapping of the indication buttons and the examination locations in the location chart and the text options and the examination locations in the location library includes: defining the relative positions of the checking parts corresponding to all the position buttons of the nine-square grid, and defining the relative positions of the checking parts corresponding to the 12 direction point positions of the point position clock; the text options in the defined examination item dictionary correspond to the corresponding parts to be examined.

According to one aspect of the invention, the obtaining the examination part according to the selected text options and the mapping relation from the part library comprises: and selecting a text option from the examination item dictionary, and acquiring a corresponding part to be examined according to the mapping relation.

According to one aspect of the present invention, the acquiring the check position according to the indication button selected in the position chart and the mapping relation includes: after the checking position is acquired, a specific position of the position to be checked is acquired through a position button selected from a nine-square lattice according to the mapping relation, and/or a specific point position of the position to be checked is acquired through a direction point position selected from a point position clock, so that a plurality of positions and/or point positions can be selected simultaneously.

According to one aspect of the invention, the generating an inspection sheet according to the acquired inspection site and inspection position includes: combining the acquired position with the acquired azimuth and/or the point position to generate a first examination sheet; in the first inspection sheet, bar code splitting is carried out for each inspection position or point position of one inspection position, and a second inspection sheet is generated for each bar code.

A clinical examination method using the examination sheet, the clinical examination method comprising:

selecting a text option in the location library and selecting an azimuth button in the location chart;

the position library acquires the checking position according to the selected text options through the mapping relation, and the position chart acquires the checking position according to the selected azimuth button through the mapping relation;

generating an inspection sheet according to the inspection position and the inspection position;

the checking mechanism performs clinical checking according to the received checking list.

According to one aspect of the invention, the generating an inspection sheet according to the inspection site and the inspection position includes: combining the checking position and the checking position to generate a first checking list; and splitting the first inspection sheet according to the inspection position to generate a second inspection sheet.

According to one aspect of the invention, the clinical examination method further comprises the steps of: application information is entered prior to selection of the text options and the azimuth button.

A clinical exam system, the clinical exam system comprising:

A part library for storing examination part information;

a position chart for storing inspection position information;

A definition module for defining an indication button and an inspection position map of the text option and;

the selection module is used for selecting an inspection position and an inspection position according to the position library and the position chart;

And the generation module is used for generating an inspection sheet according to the selected inspection position and the selected inspection position.

The implementation of the invention has the advantages that: the invention relates to a method for generating an inspection sheet capable of indicating an inspection position and a clinical inspection method, which comprises the following steps: pre-establishing a part library containing text options and checking parts and a position chart containing indication buttons and checking positions; defining a map of the indication buttons and the checking positions in the position chart and the text options and the checking positions in the position library; acquiring an inspection position according to the selected text options and the mapping relation from the position library, and acquiring an inspection position according to the selected indication buttons and the mapping relation in the position chart; generating an inspection sheet according to the acquired inspection position and the inspection position; also disclosed is a clinical examination system comprising: a location library; a position chart; defining a module; a selection module; a generating module; the combination of two modes of visually displaying the selectable positions of the clinical parts and the nine-square grid and twelve-point clock can meet the requirements of the position information expression of various different types of parts; by clicking, the user can quickly complete the selection of one or more pieces of location information in a what-you-see-is-what-get manner. The problems of low efficiency, inconsistent expression and the like of remarking explanation by characters are avoided; the method can avoid adding position information in dictionary entries of the checking part, reduce the recording quantity of the dictionary of the checking part, and facilitate a user to select checking items more quickly and accurately. The position data which is independently stored in a structured mode can support closed-loop management of specimens at each position, and errors caused by a manual remarking mode are reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an inspection sheet generating method capable of indicating an inspection position according to the present invention;

FIG. 2 is a schematic diagram of a nine-square grid of an inspection sheet generating method capable of indicating inspection positions according to the present invention;

FIG. 3 is a schematic diagram of a method for generating an inspection sheet indicating an inspection position according to the present invention;

FIG. 4 is a schematic diagram of a dot clock of an inspection sheet generating method capable of indicating inspection positions according to the present invention;

FIG. 5 is a diagram showing a combination of a nine-square grid and a dot clock for an inspection sheet generating method capable of indicating inspection positions according to the present invention;

FIG. 6 is a schematic diagram of a clinical examination method according to the present invention;

fig. 7 is a schematic diagram of a clinical examination system according to the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

As shown in fig. 1,2,3,4 and 5, an inspection sheet generating method capable of indicating an inspection position includes the steps of:

Step S1: pre-establishing a part library containing text options and checking parts and a position chart containing indication buttons and checking positions;

In practical application, the location chart includes: a nine-square for representing azimuth information and a dot bit clock for representing dot bit information.

In practical application, the location library includes: an inspection item dictionary containing all of the inspectable part text options.

In practical applications, the text options in the examination item dictionary do not need to include location information, but only need to include specific location information, such as "lung", "cervical", etc., and the text options correspond to specific examination organs.

Step S2: defining a map of the indication buttons and the checking positions in the position chart and the text options and the checking positions in the position library;

in practical application, the step S2 of defining the mapping between the indication button and the check position in the position chart includes: defining the relative orientation of the corresponding checking position of each orientation button of the nine-square grid; the 12 direction points of the point clock are defined to correspond to the relative points of the inspection part.

In practical application, the step S2 of defining the mapping between the text options and the examination location in the location library includes: the text options in the defined examination item dictionary correspond to the corresponding parts to be examined.

In practical application, a text option in the examination item dictionary corresponds to a part to be examined, such as text options of "lung", "cervical", and corresponds to specific organs of "lung", "cervical".

In practical application, as shown in fig. 2 or fig. 3, the nine Gong Geru pieces of the nine-square-grid 11 azimuth buttons are used to indicate 11 relative positions (up, down, left, right, left up, right up, left down, right down, front, middle, and rear) of the examination site for indicating the position of the normal site (as shown in fig. 1). The description of the orientation is not limited to the text, and can be configured into a graphic, an arrow or other representation modes according to actual needs.

In practical application, as shown in fig. 4, a twelve-bit clock representing a bit is created: the 12 direction point positions (1-12 points) of the checking position/project are represented by 12 direction point positions of the twelve-point clock and are used for indicating the positions of the tubular parts.

Step S3: acquiring an inspection position according to the selected text options and the mapping relation from the position library, and acquiring an inspection position according to the selected indication buttons and the mapping relation in the position chart;

In practical application, the step S3 of obtaining the inspection part according to the text options and the mapping relation selected from the part library includes: and selecting a text option from the examination item dictionary, and acquiring a corresponding part to be examined according to the mapping relation.

In practical application, the step S3 of obtaining the inspection position according to the indication button and the mapping relation selected in the position chart includes: after the checking position is acquired, a specific position of the position to be checked is acquired through a position button selected from a nine-square lattice according to the mapping relation, and/or a specific point position of the position to be checked is acquired through a direction point position selected from a point position clock, so that a plurality of positions and/or point positions can be selected simultaneously.

In practical applications, after the doctor selects the examination site/item on the program interface of the examination application, a specific relative position may be selected in a click manner in the "nine-grid" area. When the mouse or the cursor slides on the nine-grid orientation, the current pointing position is indicated by the special color, and the corresponding position square is clicked, so that the orientation can be selected or deselected, and a plurality of orientations can be simultaneously selected, and the right top, the front top and the bottom are synchronously selected.

In practical application, after the doctor finishes selecting the examination part/item on the program interface of the examination application, the specific direction position can be selected in a point clock area in a point selection mode. When the mouse or the cursor slides on the clock number, the current pointing direction is indicated by the special color, after clicking the corresponding number, the selected point position can be selected or deselected, and a plurality of point positions can be selected simultaneously, and the points are synchronously selected as '3, 6 and 10 point positions'.

In practical application, as shown in fig. 5, the "nine-square grid" and the "point location clock" may be combined on the same interface, so that a doctor may select a location only at nine Gong Gezhong or select a point location in the point location clock, or may select a point location and a location at the same time, for example, may select "left and right locations and" 9 and 12 points "at the same time.

In practical application, the shortcut mode can be added according to the most commonly used azimuth selection in the set inspection application, such as the 'add select 3.6.9.12' button, and the '3, 6, 9 and 12' points can be selected quickly.

Step S4: generating an inspection sheet according to the acquired inspection position and the inspection position;

in practical application, the generating the inspection sheet according to the acquired inspection location and inspection position in step S4 includes: combining the acquired position with the acquired azimuth and/or the point position to generate a first examination sheet; in the first inspection sheet, bar code splitting is carried out for each inspection position or point position of one inspection position, and a second inspection sheet is generated for each bar code.

In practical application, the examination part and the examination position are combined to generate a first examination list, for example, the "cervical" is selected, and then the "3, 6, 9 and 12 points" is selected, so that the first examination list "cervical, 3, 6, 9 and 12 points" is generated.

In practical application, a second inspection list is generated for each inspection position of an inspection position, for example, the first inspection list is "cervical, 3, 6, 9 and 12 points", the system can automatically split the first inspection list into 4 bar codes, which are respectively: "cervical 3", "cervical 6", "cervical 9", "cervical 12", a second exam sheet is generated for each barcode.

In practical application, a specific implementation process of this embodiment is as follows: the doctor selects 'cervical' from the examination item dictionary and selects '3, 6, 9 and 12 points' from the point position clock, so that the system can automatically acquire the positions to be examined as 'cervical, 3, 6, 9 and 12 points' according to the mapping relation, and simultaneously generate a first examination list 'cervical, 3, 6, 9 and 12 points', and then split the first examination list to generate a second examination list 'cervical 3 point', 'cervical 6 point', 'cervical 9 point' and 'cervical 12 point'.

Example two

A clinical examination method using the examination sheet, the clinical examination method comprising:

step S101: selecting a text option in the location library and selecting an azimuth button in the location chart;

in practical applications, the location chart includes: a nine-square for representing azimuth information and a dot bit clock for representing dot bit information.

In practical applications, the site library includes: an inspection item dictionary containing all of the inspectable part text options.

In practical applications, the text options in the examination item dictionary do not need to include location information, but only need to include specific location information, such as "lung", "cervical", etc., and the text options correspond to specific examination organs.

Step S102: the position library acquires the checking position according to the selected text options through the mapping relation, and the position chart acquires the checking position according to the selected azimuth button through the mapping relation;

In practical application, after the text options are selected, corresponding parts to be checked are obtained according to the mapping relation; after the azimuth button is selected, the corresponding position to be checked is obtained according to the mapping relation.

In practical application, a text option in the examination item dictionary corresponds to a part to be examined, such as text options of "lung", "cervical", and corresponds to specific organs of "lung", "cervical".

In practical application, as shown in fig. 2 or fig. 3, the nine Gong Geru pieces of the nine-square-grid 11 azimuth buttons are used to indicate 11 relative positions (up, down, left, right, left up, right up, left down, right down, front, middle, and rear) of the examination site for indicating the position of the normal site (as shown in fig. 1). The description of the orientation is not limited to the text, and can be configured into a graphic, an arrow or other representation modes according to actual needs.

In practical application, as shown in fig. 4, a twelve-bit clock representing a bit is created: the 12 direction point positions (1-12 points) of the checking position/project are represented by 12 direction point positions of the twelve-point clock and are used for indicating the positions of the tubular parts.

Step S103: generating an inspection sheet according to the inspection position and the inspection position;

In practical application, the generating the inspection sheet according to the inspection position and the inspection position includes: combining the checking position and the checking position to generate a first checking list; and splitting the first inspection sheet according to the inspection position to generate a second inspection sheet.

In practical application, the examination part and the examination position are combined to generate a first examination list, for example, the "cervical" is selected, and then the "3, 6, 9 and 12 points" is selected, so that the first examination list "cervical, 3, 6, 9 and 12 points" is generated.

In practical application, a second inspection list is generated for each inspection position of an inspection position, for example, the first inspection list is "cervical, 3, 6, 9 and 12 points", the system can automatically split the first inspection list into 4 bar codes, which are respectively: "cervical 3", "cervical 6", "cervical 9", "cervical 12", a second exam sheet is generated for each barcode.

In practical applications, for example, the first inspection sheet may be "cervical, 3, 6, 9, 12 points", and the second inspection sheet after splitting may be "cervical 3 points", "cervical 6 points", "cervical 9 points", "cervical 12 points".

Step S104: the checking mechanism performs clinical checking according to the received checking list.

In practical application, clinical examination is performed in the examination mechanism according to a specific position in the second examination sheet, for example, the second examination sheet is "cervical 3 point", that is, the corresponding examination device is used for examining "cervical 3 point", and other positions are the same, and are not listed here.

In practical application, the clinical examination method further comprises the steps of: application information is entered prior to selection of the text options and the azimuth button.

In practical applications, the entered application information includes patient age, sex, medical history, and the like.

As shown in fig. 6, a specific implementation procedure of a clinical examination method using the examination sheet is shown as follows:

L001: in order to complete the development of the examination project, a doctor can rapidly complete the development of the examination application by only inputting necessary information, selecting the part or the specimen and using the nine-grid and twelve-point position clock provided by the invention, and the clinical working efficiency and the data accuracy are well considered.

L002: the system can use the automatic splitting specimen algorithm to finish the automatic splitting of a plurality of specimens and generate an inspection sheet without manual participation of doctors.

In practical application, a specific implementation process of this embodiment is as follows: after inputting the application information of a patient, a doctor selects 'cervical' from an examination item dictionary, and selects '3, 6, 9 and 12 points' from a point position clock, so that the system can automatically acquire the positions to be examined as 'cervical, 3, 6, 9 and 12 points' according to the mapping relation, simultaneously generate a first examination list 'cervical, 3, 6, 9 and 12 points', then split the first examination list to generate a second examination list 'cervical 3 point', 'cervical 6 point', 'cervical 9 point', 'cervical 12 point', and at the moment, the examination mechanism carries out corresponding clinical examination on the 'cervical 3 point', 'cervical 6 point', 'cervical 9 point' and 'cervical 12 point' according to the second examination list.

Example III

As shown in figure 7 of the drawings,

A clinical exam system indicative of an exam site, the clinical exam system indicative of an exam site comprising:

a site library 1 for storing examination site information;

a position chart 2 for storing inspection position information;

A definition module 3 for defining a map of the indication button and the inspection position;

a selection module 4 for selecting an inspection site and an inspection position according to the site library and the position chart;

A generation module 5 for generating an inspection application according to the selected inspection location and inspection position;

in practical applications, the clinical examination system further includes: the splitting module 6 is used for splitting the first inspection application according to the inspection position; an inspection mechanism 7 for performing a clinical inspection according to the second inspection application; and the input module 8 is used for inputting application information.

The working principle of the embodiment is as follows: the method comprises the steps of storing checking position information in a position library 1 in advance and storing checking position information in a position chart 2, defining mapping of indicating buttons and checking positions in the position chart by a definition module 3, selecting checking positions and checking positions according to the position library and the position chart by a selection module 4, generating a first checking application according to the selected checking positions and checking positions by a generation module 5, splitting the first checking application according to the checking positions by a splitting module 6, generating a second checking application according to a splitting result by the generation module 5, and finally clinically checking according to the second checking application by a checking mechanism 7.

The implementation of the invention has the advantages that: the invention relates to a method for generating an inspection sheet capable of indicating an inspection position and a clinical inspection method, which comprises the following steps: pre-establishing a part library containing text options and checking parts and a position chart containing indication buttons and checking positions; defining a map of the indication buttons and the checking positions in the position chart and the text options and the checking positions in the position library; acquiring an inspection position according to the selected text options and the mapping relation from the position library, and acquiring an inspection position according to the selected indication buttons and the mapping relation in the position chart; generating an inspection sheet according to the acquired inspection position and the inspection position; also disclosed is a clinical examination system comprising: a location library; a position chart; defining a module; a selection module; a generating module; the combination of two modes of visually displaying the selectable positions of the clinical parts and the nine-square grid and twelve-point clock can meet the requirements of the position information expression of various different types of parts; by clicking, the user can quickly complete the selection of one or more pieces of location information in a what-you-see-is-what-get manner. The problems of low efficiency, inconsistent expression and the like of remarking explanation by characters are avoided; the method can avoid adding position information in dictionary entries of the checking part, reduce the recording quantity of the dictionary of the checking part, and facilitate a user to select checking items more quickly and accurately. The position data which is independently stored in a structured mode can support closed-loop management of specimens at each position, and errors caused by a manual remarking mode are reduced.

The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and any changes or substitutions easily contemplated by those skilled in the art within the technical scope of the present invention should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. An inspection sheet generation method capable of indicating an inspection position, characterized in that the inspection sheet generation method capable of indicating an inspection position comprises the following steps:

Pre-establishing a part library containing text options and checking parts and a position chart containing indication buttons and checking positions; the site library includes: an inspection item dictionary containing all of the inspectable part text options; the location chart includes: a nine-square grid for representing azimuth information and a dot location clock for representing dot location information;

defining a map of the indication buttons and the checking positions in the position chart and the text options and the checking positions in the position library;

Acquiring an inspection position according to the selected text options and the mapping relation from the position library, and acquiring an inspection position according to the selected indication buttons and the mapping relation in the position chart;

generating an inspection sheet according to the acquired inspection position and the inspection position;

The obtaining the checking position according to the indication button selected in the position chart and the mapping relation comprises the following steps: after the checking position is acquired, a specific position of the position to be checked is acquired through a position button selected from a nine-square lattice according to the mapping relation, and/or a specific point position of the position to be checked is acquired through a direction point position selected from a point position clock, so that a plurality of positions and/or point positions can be simultaneously selected.

2. The method of claim 1, wherein the defining the map of the location table to indicate the button and the inspection location and the text options and the inspection location in the location library comprises: defining the relative positions of the checking parts corresponding to all the position buttons of the nine-square grid, and defining the relative positions of the checking parts corresponding to the 12 direction point positions of the point position clock; the text options in the defined examination item dictionary correspond to the corresponding parts to be examined.

3. The method of generating an inspection sheet capable of indicating an inspection position according to claim 2, wherein the acquiring an inspection site according to a text option selected from a site library and a mapping relation comprises: and selecting a text option from the examination item dictionary, and acquiring a corresponding part to be examined according to the mapping relation.

4. The examination order generation method for indicating an examination position according to claim 3, wherein the generation of the examination order from the acquired examination site and examination position comprises: combining the acquired position with the acquired azimuth and/or the point position to generate a first examination sheet; in the first inspection sheet, bar code splitting is carried out for each inspection position or point position of one inspection position, and a second inspection sheet is generated for each bar code.

5. A clinical examination method of an examination sheet generated by the examination sheet generation method according to any one of claims 1 to 4, characterized in that the clinical examination method comprises:

selecting a text option in the location library and selecting an azimuth button in the location chart;

the position library acquires the checking position according to the selected text options through the mapping relation, and the position chart acquires the checking position according to the selected azimuth button through the mapping relation;

generating an inspection sheet according to the inspection position and the inspection position;

the checking mechanism performs clinical checking according to the received checking list.

6. The method of clinical examination according to claim 5, wherein the generating an examination order from the examination site and the examination position comprises: combining the checking position and the checking position to generate a first checking list; and splitting the first inspection sheet according to the inspection position to generate a second inspection sheet.

7. The clinical examination method according to claim 5, characterized in that the clinical examination method further comprises the steps of: application information is entered prior to selection of the text options and the azimuth button.

8. A clinical exam system, the clinical exam system comprising:

A part library for storing examination part information;

a position chart for storing inspection position information;

a definition module for defining a mapping of the indication button and the inspection position and the text options and the inspection position;

the selection module is used for acquiring the checking position according to the selected text options and the mapping relation in the position library and acquiring the checking position according to the selected indication button and the mapping relation in the position chart;

The generation module is used for generating an inspection sheet according to the selected inspection position and the selected inspection position;

the site library includes: an inspection item dictionary containing all of the inspectable part text options;

the location chart includes: a nine-square grid for representing azimuth information and a dot location clock for representing dot location information;

The obtaining the checking position according to the indication button selected in the position chart and the mapping relation comprises the following steps: after the checking position is acquired, a specific position of the position to be checked is acquired through a position button selected from a nine-square lattice according to the mapping relation, and/or a specific point position of the position to be checked is acquired through a direction point position selected from a point position clock, so that a plurality of positions and/or point positions can be simultaneously selected.