CN110970111A - Correction information statistical method and system for shell-shaped tooth corrector - Google Patents

Abstract

The invention discloses a method and a system for counting orthodontic information of a shell-shaped tooth appliance, wherein the method comprises the following steps: acquiring correction information of a patient wearing a shell-shaped tooth corrector in a correction period, and comparing current intraoral correction state information of each patient of the same type of case with corresponding target correction state information in the correction information to obtain comparison difference information; carrying out association setting on the wearing time information in the correction information and the corresponding comparison difference information, and acquiring a correction association relation between the wearing time information and the comparison difference information; and displaying the correcting association relation. The correcting incidence relation relates the wearing time of the shell-shaped tooth correcting device worn by the patient with the corresponding correcting state, the correcting state and the correcting effect of the patient can be known in time according to the wearing time information, and the wearing time required by the medical advice of other patients is guided according to the correcting incidence relation.

Description

Correction information statistical method and system for shell-shaped tooth corrector

Technical Field

The invention belongs to the technical field of tooth correction, more particularly relates to correction information statistics of a shell-shaped tooth corrector, and particularly relates to a correction information statistics method and system of the shell-shaped tooth corrector.

Background

The invisible orthodontic treatment is to wear a shell-shaped tooth treatment device to correct teeth and relieve malocclusion and deformity so as to achieve the effect of beautifying the teeth.

Because shell tooth is rescued the ware and is worn on patient's tooth, apply certain power of correcting to patient's tooth through shell tooth is rescued to reach shell tooth and rescued the purpose that the ware was rescued to patient's tooth. In the wearing process of the shell-shaped tooth appliance, a patient can feel uncomfortable, so the patient can select the wearing time of the shell-shaped tooth appliance according to the self intention, but different wearing times of the shell-shaped tooth appliance often lead to different appliance results, at present, no related method can directly obtain the wearing time of the shell-shaped tooth appliance worn by the patient, the relation between the wearing time and the appliance effect is not available, the wearing time can influence the appliance effect, and how to make a more appliance scheme according to the wearing time;

based on the above, the present application provides a technical solution to solve the above technical problems.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art, and provides a shell-shaped tooth appliance correcting information statistical method and a shell-shaped tooth appliance correcting information statistical system, which solve the problem that the correcting effect is associated with the wearing time through the big data statistics of the wearing time and the correcting effect of the shell-shaped tooth appliance, so that the association relation between the wearing time and the effect is analyzed, and a user is guided to actively finish the target wearing time of the shell-shaped tooth appliance.

The technical scheme provided by the invention is as follows:

a method for counting correction information of a shell-shaped tooth corrector comprises the following steps:

acquiring correction information of wearing shell-shaped tooth correction devices by patients in correction periods, wherein the correction information comprises intraoral correction state information and wearing time information of wearing the shell-shaped tooth correction devices; comparing the current intraoral correction state information of each patient of the same type of case with the corresponding target correction state information in the acquired correction information to obtain comparison difference information; the target correction state information refers to target correction information which is created for the patient by a doctor and is reached in each correction period; wherein the comparison difference information comprises: comparing the intraoral correction state information acquired at the end of the correction period with the corresponding correction period reaching the target correction information, and calculating the comparison difference information; carrying out association setting on the wearing time information in the correction information and the corresponding comparison difference information, and obtaining a correction association relation between the wearing time information and the comparison difference information; and displaying the correction association relation.

Further preferred, comprising: and acquiring the intraoral appliance information through an appliance monitoring terminal, wherein the appliance monitoring terminal is used for storing the shell-shaped tooth appliance, counting the wearing time information of the shell-shaped tooth appliance and acquiring the intraoral appliance state information.

Further preferably, before obtaining the orthodontic association relationship, the method further includes:

establishing a correction information base according to the correction information and the comparison difference information; the correction information base at least comprises identity information of each correction patient and a case type of each patient; and performing associated setting on the acquired current intraoral correction state information, the corresponding target correction state information, the corresponding wearing time information, the corresponding comparison difference information, the identity information of the patient and the type of the case in the correction period.

Further preferably, the constructing the correction information base includes:

performing classified statistics on the acquired correction information; performing association setting on the correction information and the comparison difference information after classification statistics and a preset field; and constructing the correction information base with the preset field as an information index.

Further preferably, the displaying the orthodontic association specifically includes: searching and matching the key field input by the user and the preset field in the correction information base, and setting the searched preset field matched with the key word as an alternative preset field; and displaying corresponding alternative correcting information according to the alternative preset field, further sorting the alternative correcting information according to the comparison difference information, and displaying the sorted correcting information base to a user side.

Further preferably, the method further comprises the following steps: and displaying the ranking information matched with the user identity information associated with the key field according to the key field and the identity information input by the user.

Further preferably, the comparison difference information includes a difference value of relative movement of a single tooth, a difference value of dental arch parameters, and a difference value of jaw relation.

Further preferably, the intraoral appliance status information includes: image information of dentition, and/or image information of skull.

Further preferably, the comparison of the correction state information includes: two-dimensional image alignment, and/or three-dimensional image alignment.

The invention also provides a system for counting the orthodontic information of the shell-shaped tooth appliance, which comprises the following components:

the information acquisition module is used for acquiring the correction information of the shell-shaped tooth corrector worn by the patient in the correction period, and the correction information comprises intraoral correction state information and wearing time information of the shell-shaped tooth corrector; the correcting information statistic module is used for comparing the current intraoral correcting state information of each patient of the same type of case with the corresponding target correcting state information in the acquired correcting information to obtain comparison difference information; the target correction state information refers to target correction information which is created for the patient by a doctor and is reached in each correction period; the correcting information statistic module is further used for performing association setting on the wearing time information in the correcting information and the corresponding comparison difference information, and acquiring a correcting association relation between the wearing time information and the comparison difference information; and the display module displays the correction association relation.

Further preferably, the correction information statistic module includes:

the comparison unit is used for comparing the intraoral correction state information acquired at the end of the correction period with the corresponding correction period reaching the target correction information and calculating the comparison difference information; and the relationship mapping unit is used for performing association setting on the wearing time information in the correction information and the corresponding comparison difference information, and acquiring the correction association relationship between the wearing time information and the comparison difference information.

Further preferably, the intraoral orthodontic appliance further comprises an orthodontic monitoring terminal, wherein the orthodontic monitoring terminal is in communication connection with the information acquisition module, and the orthodontic monitoring terminal is used for storing the shell-shaped tooth appliance, counting the wearing time information of the shell-shaped tooth appliance and collecting the intraoral orthodontic state information.

Preferably, before the correction association relationship is obtained, the relationship mapping unit is further configured to construct a correction information base according to the correction information and the comparison difference information; the correction information base at least comprises identity information of each correction patient and a case type of each patient; and the relationship mapping unit performs associated setting on the acquired current intraoral correction state information, the corresponding target correction state information, the corresponding wearing time information, the corresponding comparison difference information, the identity information of the patient and the type of the case in the correction period.

Further preferably, the constructing the correction information base by the relationship mapping unit includes:

performing classified statistics on the acquired correction information; performing association setting on the classified and counted correction information and the comparison difference information and a preset field; and constructing the correction information base with the preset field as an information index.

Further preferably, the display module specifically includes: searching and matching the key field input by the user and the preset field in the correction information base, and setting the searched preset field matched with the key field as an alternative preset field; and displaying corresponding alternative correcting information according to the alternative preset field, further sorting the alternative correcting information according to the comparison difference information, and displaying the sorted correcting information base to a user side.

Preferably, the display module is further configured to display ranking information matched with the user identity information associated with the key field according to the key field and the identity information input by the user.

The correction information statistical method of the shell-shaped tooth corrector provided by the invention can bring at least one of the following beneficial effects:

the current intraoral correction state information of each patient, the corresponding comparison difference information, the case type and the corresponding wearing time information are correlated through big data, and the correction correlation relationship between the wearing time information of the shell-shaped tooth corrector worn in the correction period and the correction state generated by the shell-shaped tooth corrector is obtained according to the correlation, and the wearing time information of the shell-shaped tooth corrector worn by the patient is closely correlated with the corresponding correction state thereof according to the correction correlation relationship, so that the correction state and the correction effect of the patient can be known in time according to the real-time wearing time information based on the correction correlation relationship in the process of wearing the shell-shaped tooth corrector by the patient, the correction correlation relationship provided by the invention not only can feed back and guide the correction process of the teeth of the patient, but also can recommend the corresponding wearing time information to other patients of the same case type through the correction correlation provided by the invention, further, other patients are guided to wear the shell-shaped dental appliance according to the recommended wearing time information, and the patients are prevented from blindly selecting wearing time.

On the basis of the corresponding correction association relationship between the wearing time information and the tooth correction state, the correction information base is further provided, the correction information base takes the preset field as an information index, and a user can conveniently and quickly search correction information set in association in the correction information base and compare difference information according to the preset field.

Drawings

The foregoing features, technical features, advantages and embodiments are further described in the following detailed description of the preferred embodiments, which is to be read in connection with the accompanying drawings.

Fig. 1 is a flowchart of a statistical method of orthodontic information of a shell-shaped dental appliance provided by the present invention.

FIG. 2 is a statistical tabulation of orthodontic information for a shell-shaped dental appliance of the present invention;

fig. 3 is a structural diagram of a statistical system of orthodontic information of a shell-shaped dental appliance provided by the present invention.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the following description will be made with reference to the accompanying drawings. It is obvious that the drawings in the following description are only some examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be derived from them without inventive effort.

The first embodiment is as follows:

referring to fig. 1: the invention mainly relates the current intraoral correction state information of each patient, the corresponding comparison difference information, the case type and the corresponding wearing time information thereof through big data, and obtains the correction association relationship between the wearing time information of the shell-shaped tooth corrector worn by the patient and the correction state generated by the shell-shaped tooth corrector in the correction period according to the association, and the correction association relationship closely relates the wearing time information of the shell-shaped tooth corrector worn by the patient and the corresponding correction state thereof, so that the correction state and the correction effect of the patient can be known in time according to the real-time wearing time information based on the correction association relationship in the process of wearing the shell-shaped tooth corrector by the patient, the correction process of the teeth of the patient can be fed back and guided through the correction association relationship provided by the invention, and the corresponding wearing time information can be recommended to other patients of the same case type through the association relationship provided by the invention, furthermore, other patients are guided to wear the shell-shaped tooth appliance according to the recommended wearing time information, so that the patients are prevented from blindly selecting wearing time, and the correction effect is influenced.

A flowchart of the statistical method for orthodontic information of a shell-shaped dental appliance provided in this embodiment is shown in fig. 1, and specifically includes the following steps.

S110: acquiring the correction information of the shell-shaped tooth corrector worn by the patient in the correction period.

The correction information of the present embodiment includes intraoral correction state information and wearing time information of wearing shell-shaped dental appliances. The correcting information is obtained through the correcting monitoring terminal, and the correcting monitoring terminal is used for storing the shell-shaped tooth correcting device, counting the wearing time information of the shell-shaped tooth correcting device and collecting the intraoral correcting state information.

Specifically, the correcting monitoring terminal can count the single wearing time and the single placing time of the shell-shaped tooth correcting device, and the wearing time information comprises each single wearing time of the shell-shaped tooth correcting device in the correcting period; on a single statistical basis, thereby obtaining the required wearing time; should rescue the monitor terminal and still be provided with the camera, rescue the monitor terminal and gather the intraoral state information of correcting that corresponds when correcting the cycle and finishing through this camera, and further, this intraoral state information of correcting includes the image information of dentition, and/or the image information of skull.

S120: and comparing the current intraoral correction state information of each patient of the same type of case with the corresponding target correction state information to obtain comparison difference information.

Since the intraoral correction state information of the embodiment includes image information of dentition and/or image information of skull, in this step, two-dimensional image comparison and/or three-dimensional image comparison may be employed to obtain comparison difference information, and comparison is performed in a feature extraction manner. Specifically, the intraoral correction state information acquired at the end of the correction period is compared with the corresponding correction period target correction information, and comparison difference information is calculated.

The comparison difference information of this embodiment includes a relative movement difference value of a single tooth, a difference value of dental arch parameters, and a difference value of jaw relationship, and further, it is necessary to analyze image information of dentition and skull image information to obtain tooth information, dental arch information, and occlusion information.

The specific analysis processing comprises the following steps: dividing and filling the teeth, identifying a single tooth in the mouth of a patient and marking; acquiring relative position parameters of a dental arch, measuring and establishing parameters of the dental arch; and acquiring occlusion parameters of the maxillofacial region.

Further, in step S120, comparing the current intraoral correction state information of each patient of the same type of case with the corresponding target correction state information, specifically includes: comparing the intraoral correction state information with the single tooth information at the corresponding position in the target correction state information to obtain a relative movement difference value of the single tooth of the patient; the relative movement difference of the single tooth at least comprises: and acquiring a distance deviation value of a single tooth along the direction of an arch line, a distance deviation value along the direction of a perpendicular line of the arch line in the plane of the arch and an angle deviation value of a tooth axis of each tooth and a tooth axis of the reference model along the direction of a normal line of the plane of the arch according to the tooth marks, wherein the deviation values are relative movement difference values of the single tooth.

In the present embodiment, the distance deviation value of a single tooth in the direction of the dental arch line is represented by x, the distance deviation value of a single tooth in the direction of the perpendicular to the dental arch line in the plane of the dental arch is represented by y, and the angle deviation value of the tooth axis of the single tooth from the tooth axis of the reference model in the direction of the normal to the dental arch plane is represented by z. Comparing the intraoral correction state information with the target correction state information, specifically comparing dental arch information in the intraoral correction state information with dental arch information in the target correction state information, and acquiring a difference value representing dental arch parameters of a patient; the difference of the dental arch parameter includes at least one of a dental arch length, a dental arch width, a dental arch curvature and a deviation value of the dental arch curvature corresponding to the target correction state information in the intraoral correction state information.

The deviation values of the arch length, the arch width, the arch curvature and the reference model in the initial dentition information are expressed as follows: the maxillary arch length deviation value is represented by n, the mandibular arch length deviation value is represented by m, the maxillary arch width deviation value is represented by p, the mandibular arch width deviation value is represented by q, and the arch curvature deviation value is represented by k.

And comparing the occlusion data in the intraoral correction state information with the occlusion data of the target correction state information to obtain a difference value of the jaw relation.

The method obtains comparison difference information for comparing the current intraoral correction state information of each patient of the same type of case with the corresponding target correction state information, and the comparison difference information represents a target difference value of the current intraoral correction state information relative to the corresponding target correction state information.

S130: carrying out association setting on the wearing time information in the correction information and the corresponding comparison difference information, and acquiring a correction association relation between the wearing time information and the comparison difference information;

s140: and displaying the correction association relation.

Before acquiring the correction association relationship, the method further comprises the following steps:

constructing a correction information base according to the correction information and the comparison difference information; the correction information base at least comprises identity information of each correction patient and a case type of each patient; and performing associated setting on the acquired current intraoral correction state information, the corresponding target correction state information, the corresponding wearing time information, the corresponding comparison difference information, the identity information of the patient and the case type in the correction period.

The method for constructing the orthodontic information base comprises the following steps: performing classified statistics on the acquired correction information; performing association setting on the correction information and the comparison difference information after classification statistics and a preset field; and constructing the correction information base with the preset field as an information index.

Since the correction information and the comparison difference information are stored in the correction information base in association with the preset field, the correction association relationship between the wearing time and the comparison difference information can be obtained in the correction information base based on the preset field. The preset field comprises a case type, a model of the shell-shaped tooth appliance, age information and gender information, and further, the obtained appliance information is classified and counted, and the classification counting process is also based on the field which is the same as the preset field.

By the above method, the current intraoral correction state information of each patient, the corresponding comparison difference information, the case type, the corresponding wearing time information, and the preset field are stored in the constructed correction information base in a correlated manner, for example, the information may be stored in the correction information base in a cascaded manner, as shown in the following storage form.

A first stage: type of case

And a second stage: age information

And a third stage: wearing time information

Fourth stage: comparing the difference information

The concrete steps are as follows:

a first stage: class I anderson

And a second stage: 7-9 years old

And a third stage: the single wearing time is 2-2.5 hours

Fourth stage: the relative movement difference of a single tooth, the difference of dental arch parameters and the difference of jaw relation.

Through the cascade storage form, a user can search the information of the corresponding hierarchy conveniently according to different requirements. Besides the above-mentioned cascade storage, the person skilled in the art may also store the above-mentioned information in association in other ways.

Further, the embodiment also includes displaying the correction information base to the user;

the method specifically comprises the following steps:

searching and matching are carried out according to the key fields input by the user and preset fields in the correction information base, and the searched preset fields matched with the key fields are set as alternative preset fields; and displaying corresponding alternative correcting information according to the alternative preset field, further sorting the alternative correcting information according to the comparison difference information, and displaying the sorted correcting information base to the user side.

Furthermore, the ranking information matched with the user identity information associated with the key fields can be displayed according to the key fields and the identity information input by the user.

For example, the wearing duration of the patient on the same day is sorted, and the ranking and the wearing duration corresponding to the ranking are displayed, as shown in table 1 below:

TABLE 1

Patient's health	Ranking	Wearing time of the day
			Patient A
	1	22.5
			Patient B	2	21.5
Patient C	3	19
			Patient D	4	17

Further, the difference between the actual wearing time and the target wearing time of the corresponding patient may also be set in the presented information, as shown in table 2:

TABLE 2

Patient's health	Ranking	Wearing time of the day	Wearing condition
				Patient A
	1	22.5	Has reached the standard
				Patient B
	2	21.5	Has reached the standard
				Patient C
	3	19	Yet another 1 hour
				Patient D
	4	17	Yet another 3 hours

Further, according to the displayed ranking information, corresponding rewards can be sent to the patients with the top ranking, for example, taking the above table 1 and table 2 as an example, free diagnosis and treatment qualification can be provided for the patients a and B meeting the target wearing time, or the right to check the correction effect can be opened for the patients a and B; in other embodiments, a point system can be formulated according to the displayed ranking information, and corresponding rewards are provided for patients reaching preset points according to accumulated points.

The above statistical method for the correction information is explained below by using a specific example.

Assuming that patient a, patient B, patient C, and patient D all belong to class i anderson oral disease and all belong to the same age group (e.g., 7-9 years old), patient a, patient B, patient C, and patient D all obtain the target wear time for the corresponding shell dental appliance and order from the doctor's end. In the process that a patient A, a patient B, a patient C and a patient D actually wear the shell-shaped tooth appliance, the appliance monitoring terminals matched with the shell-shaped tooth appliance count the daily wearing time information of the shell-shaped tooth appliance, and acquire the counted wearing time information in the current appliance period and the intraoral appliance state information at the end of the current appliance period based on the appliance monitoring terminals; in one orthodontic period, the case types, age information, wearing time information, current intraoral orthodontic state information and comparison difference information of the corresponding target orthodontic state information of the patient a, the patient B, the patient C and the patient D are stored in association according to the above steps S120 to S130 to form an orthodontic information base, as shown in table 3 below: table 3:

the patient A, the patient B, the patient C and the patient D can respectively check the wearing time information and the corresponding correction state information in the current correction period in the intelligent terminal (for example, a smart phone) provided with correction APP management software; meanwhile, the wearing time information and the corresponding correction state information of other patients in the same correction period of the same type of case can be checked, for example, the correction information of the patient B, the patient C and the patient D can be checked by the patient a, for example, the ranking information of the corresponding search results to the patient a in the format of the table 1 or the table 2 can be checked; in the presentation information, referring to fig. 2, a specific correction effect map of the patient can be viewed.

For example, patient C can reach and know whether it is up to standard in the current cycle of correcting by looking up own wearing time information in the current cycle of correcting and corresponding state information of correcting, can also look up the process of correcting of other patients of the same cycle of correcting of the same case type, for example, patient C further guides own wearing time by looking up to standard patient a's wearing time.

Example two:

based on the first embodiment, the present embodiment provides a statistical system for orthodontic information of a shell-shaped dental appliance, and a schematic diagram of the statistical system is shown in fig. 3, and the statistical system includes an information obtaining module 1 and an orthodontic information statistical module 2.

The information acquisition module 1 is used for acquiring the correction information of the shell-shaped tooth appliance worn by the patient in the correction period, wherein the correction information comprises intraoral correction state information and wearing time information of the shell-shaped tooth appliance.

The information acquisition module 1 is provided with a data interface, and acquires the correction information that the patient wears the shell-shaped dental appliance in the correction period from an external memory through the data interface, that is, the correction information is stored in the memory first, and the memory can be a storage device such as a usb disk and a hard disk.

Preferably, the information acquisition module 1 may further be provided with a communication module, and the information acquisition module 1 acquires the correction information of the shell-shaped tooth corrector worn in the correction period through wireless transmission; further, still including correcting control 3, correct monitor terminal 3 and have a communication function, with information acquisition module 1 communication connection, correct monitor terminal 3 and be used for depositing shell form tooth and correct the ware to statistics is worn shell form tooth and is corrected the wearing time information of ware and is gathered intraoral state information of correcting, this intraoral state information of correcting includes: image information of dentition, and/or image information of skull.

Specifically, the correcting monitoring terminal 3 wirelessly transmits the counted wearing time information in the current correcting period and the acquired intraoral correcting state information at the end of the current correcting period to the information acquisition module 1.

The correction information statistical module 2 is configured to compare the current intraoral correction state information of each patient of the same type of case with the corresponding target correction state information in the acquired correction information to obtain comparison difference information, where the target correction state information is target correction information reached in each correction period created by the doctor for the patient; the correction information statistic module 2 is further configured to perform association setting on the wearing time in the correction information and the corresponding comparison difference information, and acquire a correction association relationship between the wearing time information and the comparison difference information.

Further, the correction information statistic module 2 includes a comparison unit 21 and a relationship mapping unit 22.

The comparison unit 21 is configured to compare the intraoral correction state information obtained at the end of the correction period with the corresponding correction period target correction information, and calculate comparison difference information, specifically, the comparison unit 21 is provided with an image algorithm, for example, a perceptual hash algorithm, and compares a two-dimensional image and/or a three-dimensional image in the correction state information by using the perceptual hash algorithm to obtain corresponding comparison difference information, where the comparison difference information includes a relative movement difference of a single tooth, a difference of dental arch parameters, and a difference of jaw relationship, and a specific execution process of the comparison unit 21 refers to step S120 of the first embodiment, which is not described in detail in this embodiment.

The relationship mapping unit 22 is configured to perform association setting on the wearing time information in the correction information and the corresponding comparison difference information, and acquire a correction association relationship between the wearing time information and the comparison difference information.

Before acquiring the correction association relationship, the relationship mapping unit 22 is further configured to construct a correction information library according to the correction information and the comparison difference information; the correction information base at least comprises identity information of each correction patient and a case type of each patient;

the relationship mapping unit 22 performs association setting on the acquired current intraoral correction state information, the corresponding target correction state information, the wearing time information corresponding thereto, the corresponding comparison difference information, the identity information of the patient, and the type of the case in the correction period.

The specific process of the relationship mapping unit 22 for constructing the correction information base is as follows:

performing classified statistics on the acquired correction information; performing association setting on the classified and counted correction information and the comparison difference information and a preset field; and constructing the correction information base with a preset field as an information index.

Since the correction information and the comparison difference information are stored in the correction information base in association with the preset field, the correction association relationship between the wearing time and the comparison difference information can be obtained in the correction information base based on the preset field. The preset field comprises a case type, a model of the shell-shaped tooth appliance, age information and gender information, and further, the obtained appliance information is classified and counted, and the classification counting process is also based on the field which is the same as the preset field.

By the above method, the current intraoral correction state information of each patient, the corresponding comparison difference information, the case type, the corresponding wearing time information, and the preset field are stored in the constructed correction information base in a correlated manner, for example, the information may be stored in the correction information base in a cascaded manner, as shown in the following storage form.

A first stage: type of case

And a second stage: age information

And a third stage: wearing time information

Fourth stage: comparing the difference information

The concrete steps are as follows:

a first stage: class I anderson

And a second stage: 7-9 years old

And a third stage: the single wearing time is 2-2.5 hours

Fourth stage: the relative movement difference of a single tooth, the difference of dental arch parameters and the difference of jaw relation.

Through the cascade storage form, a user can search the information of the corresponding hierarchy conveniently according to different requirements. Besides the above-mentioned cascade storage, the person skilled in the art may also store the above-mentioned information in association in other ways.

Further, this embodiment still includes show module 4, and show module 4 is used for revealing to the user and rescues the information base, and is specific:

searching and matching the key field input by the user and the preset field in the correction information base, and setting the searched preset field matched with the key field as an alternative preset field; and displaying corresponding alternative correcting information according to the alternative preset field, further sorting the alternative correcting information according to the comparison difference information, and displaying the sorted correcting information base to a user side.

Further, the display module 4 is further configured to display ranking information matched with the user identity information associated with the key field according to the key field and the identity information input by the user.

For example, the wearing durations of the patients on the same day are sorted, and the sorted ranking and the wearing durations corresponding to the ranking are displayed, as shown in table 1 of the first embodiment.

Further, the difference between the actual wearing time and the target wearing time of the corresponding patient can be set in the displayed information, as shown in table 2 of the first embodiment.

Further, according to the displayed ranking information, corresponding rewards can be sent to the patients with the top ranking, for example, taking the above table 1 and table 2 as an example, free diagnosis and treatment qualification can be provided for the patients a and B meeting the target wearing time, or the right to check the correction effect can be opened for the patients a and B; in other embodiments, a point system can be formulated according to the displayed ranking information, and corresponding rewards are provided for patients reaching preset points according to accumulated points. Meanwhile, referring to fig. 3, the correction effect graph of the correction patient can be displayed to the user in real time; of course, also can set to not everyone and all can look over, the application of permission need be carried out in the process of looking over, the permission that has had can look over, also strive for patient's consent simultaneously, reach both sides' will and look over, through looking over the incidence relation of correcting effect and correcting the time, can see out the exact mode of wearing, follow the time of wearing of doctor's advice, it is more obvious to make it correct the effect, be favorable to guiding the patient to accomplish the wearing of correcting the ware according to the time of wearing that the doctor's advice required strictly, so that accomplish more fast and correct the target, reach better effect of correcting.

It should be noted that the above embodiments can be freely combined as necessary. The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (15)

1. A method for counting correction information of a shell-shaped tooth corrector is characterized by comprising the following steps:

acquiring correction information of wearing shell-shaped tooth correction devices by patients in correction periods, wherein the correction information comprises intraoral correction state information and wearing time information of wearing the shell-shaped tooth correction devices;

in the acquired correction information, the current intraoral correction state information of each patient of the same type of case is compared with the corresponding target correction state information to obtain comparison difference information; the target correction state information refers to target correction information which is created for the patient by a doctor and is reached in each correction period; wherein the comparison difference information comprises: comparing the intraoral correction state information obtained at the end of the correction period with the target correction information reached by the corresponding correction period, wherein the comparison difference is the comparison difference information;

carrying out association setting on the wearing time information in the correction information and the corresponding comparison difference information, and acquiring a correction association relation between the wearing time information and the comparison difference information;

and displaying the correcting association relation.

2. The statistical method of orthodontic information of a shell-shaped dental appliance according to claim 1, comprising: and acquiring the intraoral correction state information through a correction monitoring terminal for storing the shell-shaped tooth correction device, and counting the wearing time information of wearing the shell-shaped tooth correction device.

3. The method of claim 2, further comprising, prior to obtaining the orthodontic association relationship:

constructing a correction information base according to the correction information and the comparison difference information; the correction information base at least comprises identity information of each correction patient and a case type of each patient;

and performing associated setting on the acquired current intraoral correction state information, the corresponding target correction state information, the corresponding wearing time information, the corresponding comparison difference information, the identity information of the patient and the type of the case in the correction period.

4. The method of claim 3, wherein constructing the appliance information library comprises:

performing classified statistics on the acquired correction information; performing association setting on the correction information and the comparison difference information after classification statistics and a preset field; and constructing the correction information base with the preset field as an information index.

5. The method of claim 4, wherein the displaying of the orthodontic association specifically comprises:

searching and matching the key field input by the user and the preset field in the correction information base, and setting the searched preset field matched with the key field as an alternative preset field;

and displaying corresponding alternative correcting information according to the alternative preset field, further sorting the alternative correcting information according to the comparison difference information, and displaying the sorted correcting information base to a user side.

6. The statistical method of orthodontic information of a shell-shaped dental appliance according to claim 5, further comprising: and displaying the ranking information matched with the user identity information associated with the key field according to the key field and the identity information input by the user.

7. The statistical method of orthodontic information of a shell-shaped dental appliance according to claim 6, comprising:

the alignment difference information comprises: the relative movement difference of a single tooth, the difference of dental arch parameters and the difference of jaw relation;

the intraoral correction state information includes: image information of dentition, and/or image information of skull.

8. The statistical method of correction information of a shell-shaped dental appliance according to claim 1, wherein the comparison of correction state information includes: two-dimensional image alignment, and/or three-dimensional image alignment.

9. A system for counting orthodontic information of a shell-shaped dental appliance, which can perform the statistical method for orthodontic information of a shell-shaped dental appliance according to any one of claims 1 to 8, comprising:

the information acquisition module is used for acquiring the correction information of the shell-shaped tooth corrector worn by the patient in the correction period, and the correction information comprises intraoral correction state information and wearing time information of the shell-shaped tooth corrector;

the correcting information statistic module is used for comparing the current intraoral correcting state information of each patient of the same type of case with the corresponding target correcting state information in the acquired correcting information to obtain comparison difference information; the target correction state information refers to target correction information which is created for the patient by a doctor and is reached in each correction period;

the correcting information statistic module is further used for performing association setting on the wearing time information in the correcting information and the corresponding comparison difference information, and acquiring a correcting association relation between the wearing time information and the comparison difference information;

and the display module displays the correction association relation.

10. The system of claim 9, wherein the statistics module comprises:

the comparison unit is used for comparing the intraoral correction state information acquired at the end of the correction period with the corresponding correction period reaching the target correction information and calculating the comparison difference information;

and the relationship mapping unit is used for performing association setting on the wearing time information in the correction information and the corresponding comparison difference information, and acquiring the correction association relationship between the wearing time information and the comparison difference information.

11. The system for statistics of orthodontic information of a shell-shaped orthodontic device of claim 9, further comprising an orthodontic monitoring terminal in communication connection with the information acquisition module, the orthodontic monitoring terminal being configured to store the shell-shaped orthodontic device, to count wearing time information of wearing the shell-shaped orthodontic device, and to collect intraoral orthodontic state information.

12. The system of claim 11, wherein the relationship mapping unit is further configured to construct a correction information library according to the correction information and the comparison difference information; the correction information base at least comprises identity information of each correction patient and a case type of each patient;

and the relationship mapping unit performs associated setting on the acquired current intraoral correction state information, the corresponding target correction state information, the corresponding wearing time information, the corresponding comparison difference information, the identity information of the patient and the type of the case in the correction period.

13. The system of claim 12, wherein constructing the library of orthodontic information comprises:

performing classified statistics on the acquired correction information;

performing association setting on the correction information and the comparison difference information after classification statistics and a preset field;

and constructing the correction information base with the preset field as an information index.

14. The system of claim 13, further comprising a display module that specifically comprises:

searching and matching the key field input by the user and the preset field in the correction information base, and setting the searched preset field matched with the key field as an alternative preset field;

and displaying corresponding alternative correcting information according to the alternative preset field, further sorting the alternative correcting information according to the comparison difference information, and displaying the sorted correcting information base to a user side.

15. The system of claim 14, comprising: the display module is further used for displaying ranking information matched with the user identity information associated with the key fields according to the key fields and the identity information input by the user.

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