CN115297149A - Intelligent ward information management system and method - Google Patents

Abstract

The invention provides an intelligent ward information management system and a method, wherein the intelligent ward information management system comprises: the server stores identity information of a plurality of patients and air conditioning regulation information bound with the identity information and is used for generating a first regulation instruction according to the patient identity information and the air conditioning regulation information; the identity recognition module is arranged in the ward and used for recognizing the identity information of the patient in the ward and feeding the identity information back to the server; and the temperature controller is in communication connection with the server and is used for adjusting the operating parameters of the air conditioner according to the first adjusting instruction. The invention can automatically and intelligently adjust the air conditioner operation, improves the intelligent degree of ward air conditioner adjustment, can improve the medical service quality of hospitals to a certain degree, and is beneficial to conditioning and rehabilitation of patients.

Description

Intelligent ward information management system and method

Technical Field

The invention relates to the technical field of ward information control, in particular to an intelligent ward information management system and method.

Background

With the rapid development of the internet, the internet of things, big data and artificial intelligence technologies, intelligent medical care plays an increasingly important role in a medical service system. An intelligent ward is one of important components for realizing intelligent medical treatment. The intelligent ward can well adjust the state of ward equipment according to the personal information of the patient, improves the medical service quality of the hospital and is beneficial to conditioning and rehabilitation of the patient.

The applicant finds some typical prior arts through retrieval, for example, a chinese patent with application number 201910121654.2 discloses a ward electronic device and a hospital information system, which can synchronously receive the relevant information of a patient in a hospital information server, reduce the error of manually updating the relevant information of the patient by medical staff, reduce the workload of the medical staff, improve the work efficiency of the medical staff, and facilitate the management of the information of the patient; also, for example, chinese patent No. 202111572265.5 discloses an intelligent ward nursing information system and method based on wireless communication, which initiates a call intercom request, a nurse assistance-increasing request and a dressing change reminding request through a ward extension, so as to achieve the effect of a multifunctional request and effectively improve the service level of a hospital.

Therefore, for many practical problems to be dealt with in practical applications of intelligent wards (such as improving the intelligent degree of adjustment of ward air conditioners), many technical solutions that are not proposed exist.

Disclosure of Invention

Based on the above, in order to improve the intelligent degree of ward air conditioner adjustment, the invention provides an intelligent ward information management system and method, and the specific technical scheme is as follows:

an intelligent ward information management system comprises a server, an identity recognition module and a temperature controller.

The server stores identity information of a plurality of patients and air conditioning regulation information bound with the identity information and is used for generating a first regulation instruction according to the patient identity information and the air conditioning regulation information.

The identity recognition module is arranged in the ward and used for recognizing the identity information of the patient in the ward and feeding the identity information back to the server; the temperature controller is in communication connection with the server and used for adjusting the operating parameters of the air conditioner according to the first adjusting instruction.

The intelligent ward information management system generates a first adjusting instruction according to the patient identity information and the air conditioner adjusting information, adjusts the operating parameters of the air conditioner according to the first adjusting instruction, and can automatically and intelligently adjust the operation of the air conditioner. The temperature controller can adjust the operating parameters of the air conditioner according to the first adjusting instruction, so that the intelligent ward information management system improves the intelligent degree of adjustment of the ward air conditioner, can improve the medical service quality of a hospital to a certain degree, and is beneficial to conditioning and rehabilitation of patients.

Furthermore, the intelligent ward information management system further comprises an image acquisition module.

The image acquisition module is used for acquiring the posture of the patient on the sickbed, generating a second adjusting instruction according to the posture of the patient on the sickbed and feeding the second adjusting instruction back to the temperature controller.

And the temperature controller is also used for adjusting the air conditioner operation parameters according to the second adjusting instruction.

Furthermore, the intelligent ward information management system further comprises a mobile intelligent terminal and an autonomous printer.

The mobile intelligent terminal is bound with the identity information of the patient and used for acquiring the printing request of the patient and feeding the printing request back to the server; the self-service printer is used for calling the printing list and the printable contents packaged by the server into the memory.

The server is further used for searching and acquiring printable contents corresponding to the printing request from the database, arranging the printable contents according to the heat value of the printable contents to acquire a printing list, and then packaging the printing list and the printable contents and sending the printing list and the printable contents to the self-service printer.

And further, the self-service printer is also used for acquiring the real-time position of the mobile intelligent terminal, calculating the real-time distance between the mobile intelligent terminal and the self-service printer according to the real-time position of the mobile intelligent terminal, and calling the printing content with the maximum heat value into the cache when the real-time distance is smaller than a preset distance value.

An intelligent ward information management method comprises the following steps:

acquiring and storing identity information of a plurality of patients and air conditioner adjusting information bound with the identity information through a server;

the server generates a first adjusting instruction according to the patient identity information and the air conditioner adjusting information;

the identity information of the patient in the ward is identified through the identity identification module and fed back to the server;

and the temperature controller adjusts the operating parameters of the air conditioner according to the first adjusting instruction.

Further, the intelligent ward information management method further comprises the following steps:

acquiring the posture of a patient on a sickbed, generating a second regulating instruction according to the posture of the patient on the sickbed and feeding the second regulating instruction back to the temperature controller;

and the temperature controller adjusts the operation parameters of the air conditioner according to the second adjusting instruction.

Further, the intelligent ward information management method further comprises the following steps:

the mobile intelligent terminal acquires a printing request of a patient and feeds the printing request back to the server;

the self-service printer calls the printing list and the printable contents packaged by the server into the memory;

the server searches and obtains printable contents corresponding to the printing request from the database, arranges the printable contents according to the heat value of the printable contents to obtain a printing list, packs the printing list and the printable contents and sends the printing list and the printable contents to the self-service printer.

Further, the intelligent ward information management method further comprises the following steps:

the self-service printer acquires the real-time position of the mobile intelligent terminal;

the self-service printer calculates the real-time distance between the mobile intelligent terminal and the self-service printer according to the real-time position of the mobile intelligent terminal;

and when the real-time distance is smaller than the preset distance value, the self-service printer calls the printing content with the maximum heat value into the cache.

Further, the intelligent ward information management method further comprises the following steps:

acquiring the printing authority of a user;

generating a printing instruction according to the printing authority of the user and the printing request;

and the self-service printer responds to the printing instruction and prints the printing content matched with the user identity information in the cache and/or the memory.

Further, the specific method for acquiring the printing authority of the user comprises the following steps:

generating a unique identifier according to the identifier of the mobile intelligent terminal and the identifier in the printing content;

acquiring a real-time area image within the area range of the self-service printer;

and extracting the face information and the authentication symbol information in the real-time region image, verifying the face information and the authentication symbol information, and generating the printing authority if the face information and the preset user face image as well as the authentication information and the unique authentication symbol pass the verification.

Drawings

The invention will be further understood from the following description in conjunction with the accompanying drawings. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the embodiments. Like reference numerals designate corresponding parts throughout the different views.

Fig. 1 is a schematic diagram of an overall structure of an intelligent ward information management system according to an embodiment of the present invention;

fig. 2 is a schematic overall flow chart of an intelligent ward information management method according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to embodiments thereof. It should be understood that the detailed description and specific examples, while indicating the scope of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The terms "first" and "second" used herein do not denote any particular order or quantity, but rather are used to distinguish one element from another.

As shown in fig. 1, an intelligent ward information management system in an embodiment of the present invention includes a server, an identity module, and a temperature controller.

The server stores identity information of a plurality of patients and air conditioning regulation information bound with the identity information and is used for generating a first regulation instruction according to the patient identity information and the air conditioning regulation information.

The identity recognition module is arranged in the ward and used for recognizing the identity information of the patient in the ward and feeding the identity information back to the server; the temperature controller is in communication connection with the server and used for adjusting the operating parameters of the air conditioner according to the first adjusting instruction.

Specifically, the identity recognition module comprises a camera, and the identity recognition module shoots a real-time image in a ward through the camera and extracts face image information in the real-time image. The identity recognition module stores preset face images of a plurality of patients, extracts face image information in the real-time image, judges whether the face image information in the real-time image is matched with one of the preset face images of the plurality of patients, and if yes, recognizes identity information of the patients according to the preset face image of the patient matched with the face image information in the real-time image.

Of course, the intelligent ward information management system may also include an intelligent bracelet and/or a mobile intelligent terminal bound with the patient identity information. The intelligent bracelet and/or the mobile intelligent terminal sends identification information (such as a hash sequence corresponding to the personal identity information) matched with the personal identity information at a preset frequency, and the identity identification module identifies the identity information of the patient by acquiring the identification information and feeds the identification information back to the server.

The server searches whether air conditioning adjustment information bound with the patient identity information exists or not after receiving the patient identity information, if so, a first adjustment instruction is generated according to the patient identity information and the air conditioning adjustment information, and if not, the first adjustment instruction is not generated.

And the temperature controller adjusts the operating parameters of the air conditioner according to the first adjusting instruction. Specifically, the thermostat switches to the automatic adjustment mode after receiving the first adjustment command. If the patient switches the air conditioner adjusting module into the manual mode through the temperature controller, the identity recognition module acquires the personal identity information of all patients in the ward and the operation parameters of the air conditioner during the period when the air conditioner is in the manual mode, and feeds back the personal identity information of all the patients and the operation parameters of the air conditioner during the period to the server.

The server receives and stores the personal identity information of all patients fed back by the temperature controller, and the operation parameters of the air conditioner during the period.

In some cases, there may be multiple patients in the ward, and multiple climate adjustment information may be bound to each patient. In this case, a certain air conditioning adjustment information bound to a patient may be randomly selected, and a first adjustment instruction may be generated according to the selected individual identification information of the patient and the corresponding air conditioning adjustment information.

There may be instances of overlap due to multiple climate adjustment information for multiple patients. At this time, the mode of the air conditioning adjustment information and the corresponding personal identity information of one of the patients can be selected to generate the first adjustment instruction. Therefore, the air conditioner using habits of most patients can be considered, and the air conditioner using requirements of the most patients can be met as far as possible.

Preferably, the patient room is a single person patient room. Therefore, the operating parameters of the air conditioner can be better controlled according to the identity information of the patient.

The air conditioning adjustment information includes an air conditioning operation mode, an operation wind speed, a wind direction, a temperature, and an operation time corresponding thereto.

The intelligent ward information management system generates a first adjusting instruction according to the patient identity information and the air conditioner adjusting information, adjusts the operating parameters of the air conditioner according to the first adjusting instruction, and can automatically and intelligently adjust the operation of the air conditioner. Because the temperature controller can adjust the operating parameters of the air conditioner according to the first adjusting instruction, the intelligent ward information management system improves the intelligent degree of adjustment of the ward air conditioner, can improve the medical service quality of a hospital, and is beneficial to conditioning and rehabilitation of patients.

In one embodiment, the intelligent ward information management system further comprises an image acquisition module.

The image acquisition module is used for acquiring the posture of the patient on the sickbed, generating a second adjusting instruction according to the posture of the patient on the sickbed and feeding the second adjusting instruction back to the temperature controller. And the temperature controller is also used for adjusting the air conditioner operation parameters according to the second adjusting instruction.

Specifically, the postures of the patient on the patient bed acquired by the image acquisition module include a rolling posture and a normal stretching posture. Generally, when a patient curls, it may be that the air conditioner temperature is too low. When the patient is normally stretched, the air conditioner is at a proper temperature.

When the posture of the patient is a curling posture, a second adjusting instruction generated by the image acquisition module is a temperature increasing instruction; and the temperature controller receives the second adjusting instruction and judges whether the air conditioner operating temperature is lower than a preset temperature value or not, and if so, the air conditioner operating temperature is gradually increased according to the second adjusting instruction until the air conditioner operating temperature reaches a proper temperature (for example, 26 ℃).

When the posture of the patient is the stretching posture, the second adjusting instruction generated by the image acquisition module is a maintaining instruction; and when the temperature controller receives the second adjusting instruction, acquiring the current operating parameters of the air conditioner and maintaining the current operating parameters.

Therefore, the intelligent degree of the intelligent ward can be further improved, and the system can adjust the air conditioner operation parameters according to the specific condition of the patient.

In one embodiment, the intelligent ward information management system further comprises a mobile intelligent terminal and an autonomous printer.

The mobile intelligent terminal is bound with the identity information of the patient and used for acquiring the printing request of the patient and feeding the printing request back to the server; the self-service printer is used for calling the printing list and the printable contents packaged by the server into the memory.

The server is further used for searching and acquiring printable contents corresponding to the printing request from the database, arranging the printable contents according to the heat value of the printable contents to acquire a printing list, and then packaging the printing list and the printable contents and sending the printing list and the printable contents to the self-service printer.

Specifically, the mobile intelligent terminal is provided with a physical button or a virtual button, and a printing request of a patient is obtained through the national button. Printable content includes, without limitation, test reports, drug manifests, and the like.

The method for calculating the hot value of the printable content specifically comprises the following steps:

the method comprises the following steps that firstly, a plurality of printable contents of a plurality of patients are stored in a server, wherein each patient corresponds to at least one printable content.

And secondly, acquiring printing historical data of a plurality of printable contents of a plurality of patients, and calculating the heat value according to the printing times, namely the heat value of a certain printable content is equal to the total printing times of a certain printable content corresponding to the plurality of patients.

Thirdly, arranging the printable contents according to the heat value from big to small.

Because the reading speed of the memory is faster than that of the storage database, the server arranges the printable contents according to the heat value of the printable contents to obtain the printing list, the self-service printer is used for calling the printing list packaged by the server and the printable contents into the memory, and when a patient needs to print, the content required can be printed conveniently and quickly.

In one embodiment, the self-service printer is further configured to obtain a real-time position of the mobile intelligent terminal, calculate a real-time distance between the mobile intelligent terminal and the self-service printer according to the real-time position of the mobile intelligent terminal, and call the printable content with the largest heat value into the cache when the real-time distance is smaller than a preset distance value.

Since the reading speed of the cache is faster than that of the memory, the printing content with the maximum heat value is called into the cache, and the reading speed of the printing content can be further increased. The printable content with the greatest heat value is most likely the content that the patient most wants to print. That is, the print request corresponds to at least one printable content, and the printable content that the patient most wants to print out among the printable contents often includes one having the largest heat value.

Therefore, when the real-time distance is smaller than the preset distance value, the printing content with the maximum heat value is called to the cache, and the printable content needing to be printed can be conveniently and quickly acquired by the patient.

Of course, in the display screen of the self-service printer, the printable content can be displayed, and the printing list corresponding to the printable content is displayed successively according to the magnitude of the heat value. That is, the printable content with the highest heat value is displayed in the first column, and the printable content with the lowest heat value is displayed in the last column.

In one embodiment, as shown in fig. 2, an intelligent ward information management method includes the following steps:

s1, identity information of a plurality of patients and air conditioner adjusting information bound with the identity information are obtained and stored through a server.

And S2, the server generates a first adjusting instruction according to the patient identity information and the air conditioner adjusting information.

And S3, identifying the identity information of the patient in the ward through the identity identification module and feeding back the identity information to the server.

And S4, the temperature controller adjusts the operating parameters of the air conditioner according to the first adjusting instruction.

Specifically, the thermostat switches to the automatic adjustment mode after receiving the first adjustment command. If the patient switches the air conditioner adjusting module into the manual mode through the temperature controller, the identity recognition module obtains the personal identity information of all patients in the ward and obtains the operation parameters of the air conditioner during the period when the air conditioner is in the manual mode, and the personal identity information of all the patients and the operation parameters of the air conditioner during the period are fed back to the server.

The operation parameters of the air conditioner in the period comprise an air conditioner operation mode, an operation wind speed, a wind direction, a temperature and an operation time corresponding to the operation mode, and the operation parameters in the period are used as air conditioner adjusting information. The air conditioner operation mode, the operation wind speed, the wind direction and the temperature correspond to the operation time. I.e. different operation times, corresponding to different operation modes, operation wind speeds, wind directions and temperatures.

If the patient is identified to enter the ward for the first time, the optimal adjusting information prestored in the server can be generated into a first adjusting instruction, and the temperature controller adjusts the operating parameters of the air conditioner according to the first adjusting instruction. Here, the optimum adjustment information may be set in advance to include a set of a plurality of different operation times and an air conditioner operation mode, an operation wind speed, a wind direction, and a temperature corresponding to the plurality of different operation times.

That is, in the optimum adjustment information, different operation times correspond to different air conditioner operation modes, operation wind speeds, wind directions, and temperatures. Different hours of operation include, but are not limited to, division into morning, noon, evening, and late morning, among others.

The intelligent ward information management method generates a first adjusting instruction according to the patient identity information and the air conditioner adjusting information, adjusts the operating parameters of the air conditioner according to the first adjusting instruction, and can automatically and intelligently adjust the operation of the air conditioner. The temperature controller can adjust the operating parameters of the air conditioner according to the first adjusting instruction, so that the intelligent ward information management system improves the intelligent degree of adjustment of the ward air conditioner, can improve the medical service quality of a hospital, and is beneficial to conditioning and rehabilitation of patients.

In one embodiment, the intelligent ward information management method further includes the following steps:

and S5, acquiring the posture of the patient on the sickbed, generating a second adjusting instruction according to the posture of the patient on the sickbed, and feeding the second adjusting instruction back to the temperature controller.

And S6, the temperature controller adjusts the air conditioner operation parameters according to the second adjusting instruction.

Therefore, the intelligent degree of the intelligent ward can be further improved, and the system can adjust the air conditioner operation parameters according to the specific condition of the patient.

In one embodiment, the intelligent ward information management method further includes the following steps:

and S7, the mobile intelligent terminal acquires the printing request of the patient and feeds the printing request back to the server.

And S8, the self-service printer calls the printing list and the printable contents packaged by the server to a memory.

And S9, searching and acquiring printable contents corresponding to the printing request from the database by the server, arranging the printable contents according to the heat value of the printable contents to acquire a printing list, and then packaging the printing list and the printable contents and sending the printing list and the printable contents to the self-service printer.

Because the reading speed of the memory is faster than that of the storage database, the server arranges the printable contents according to the heat value of the printable contents to obtain the printing list, the self-service printer is used for calling the printing list packaged by the server and the printable contents into the memory, and when a patient needs to print, the content required can be printed conveniently and quickly.

In one embodiment, the intelligent ward information management method further includes the following steps:

and S10, the self-service printer acquires the real-time position of the mobile intelligent terminal.

And S11, the self-service printer calculates the real-time distance between the mobile intelligent terminal and the self-service printer according to the real-time position of the mobile intelligent terminal.

And S12, when the real-time distance is smaller than the preset distance value, the self-service printer calls the printing content with the maximum heat value into the cache.

Because the reading speed of the cache is higher than that of the memory, the printing content with the maximum heat value is called into the cache, and the reading speed of the printing content can be further increased. The printable content with the greatest heat value is most likely the content that the patient most wants to print.

In one embodiment, the intelligent ward information management method further includes the following steps:

and S13, acquiring the printing authority of the user.

And S14, generating a printing instruction according to the printing authority of the user and the printing request.

And S15, the self-service printer responds to the printing instruction and prints the printing content matched with the user identity information in the cache and/or the memory.

In step S15, the specific method for acquiring the printing authority of the user includes the following steps:

and S150, generating a unique identifier according to the identifier of the mobile intelligent terminal and the identifier in the printing content.

And S151, acquiring a real-time area image in the area range of the self-service printer.

And S152, extracting the face information and the identifier information in the real-time area image, verifying the face information and the identifier information, and generating the printing authority if the face information and the preset user face image, the verification information and the unique identifier are verified and the face information and the verification information are in the same real-time area image.

The identifier of the mobile intelligent terminal includes but is not limited to the physical MAC address of the mobile terminal, and the identifier in the printing content includes but is not limited to the serial number of the printable content or the title key word of the printable content.

Preferably, the identifier of the mobile intelligent terminal and the identifier in the print content may be first pieced together and then converted into a character string, or may be converted into a character string and then pieced together, and then the corresponding character string is converted into a hash sequence through a hash function, and the hash sequence is used as the verifier information.

The method comprises the steps of obtaining a real-time area image in an area range of a self-service printer, extracting face information and authentication symbol information in the real-time area image, verifying the face information and the authentication symbol information, generating printing authority if the face information and a preset user face image and the authentication information and a unique authentication symbol are verified, updating the printing authority by combining the authentication symbol information and the face information, and enabling lawless persons such as network hackers and the like to be incapable of obtaining effective printing authority on the basis of obtaining face image information of patients.

That is, through the double verification of the face information and the verifier information, the security level of the printing authority of the patient can be improved, and the wrong printing caused by network failure or technical invasion is avoided.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The utility model provides an intelligence ward information management system which characterized in that, intelligence ward information management system includes:

the server stores identity information of a plurality of patients and air conditioning regulation information bound with the identity information and is used for generating a first regulation instruction according to the patient identity information and the air conditioning regulation information;

the identity recognition module is arranged in the ward and used for recognizing the identity information of the patient in the ward and feeding the identity information back to the server;

and the temperature controller is in communication connection with the server and is used for adjusting the operating parameters of the air conditioner according to the first adjusting instruction.

2. The intelligent ward information management system of claim 1 further comprising:

the image acquisition module is used for acquiring the posture of the patient on the sickbed, generating a second adjusting instruction according to the posture of the patient on the sickbed and feeding the second adjusting instruction back to the temperature controller;

and the temperature controller is also used for adjusting the operating parameters of the air conditioner according to the second adjusting instruction.

3. The intelligent ward information management system of claim 2 wherein said intelligent ward information management system further comprises:

the mobile intelligent terminal is bound with the identity information of the patient and used for acquiring the printing request of the patient and feeding the printing request back to the server;

the self-service printer is used for calling the printing list and the printable contents packaged by the server into the memory;

the server is further used for searching and acquiring printable contents corresponding to the printing request from the database, arranging the printable contents according to the heat value of the printable contents to acquire a printing list, and then packaging the printing list and the printable contents and sending the printing list and the printable contents to the self-service printer.

4. The intelligent ward information management system of claim 3, wherein the self-service printer is further configured to obtain a real-time position of the mobile intelligent terminal, calculate a real-time distance between the mobile intelligent terminal and the self-service printer according to the real-time position of the mobile intelligent terminal, and when the real-time distance is smaller than a preset distance value, call the print content with the maximum heat value into the cache.

5. An intelligent ward information management method is characterized by comprising the following steps:

acquiring and storing identity information of a plurality of patients and air conditioner adjusting information bound with the identity information through a server;

the server generates a first adjusting instruction according to the patient identity information and the air conditioner adjusting information;

the identity information of the patient in the ward is identified through the identity identification module and fed back to the server;

and the temperature controller adjusts the operating parameters of the air conditioner according to the first adjusting instruction.

6. The intelligent ward information management method according to claim 5, wherein said intelligent ward information management method further comprises the steps of:

acquiring the posture of a patient on a sickbed, generating a second regulating instruction according to the posture of the patient on the sickbed and feeding the second regulating instruction back to the temperature controller;

and the temperature controller adjusts the operation parameters of the air conditioner according to the second adjusting instruction.

7. The intelligent ward information management method according to claim 6, wherein said intelligent ward information management method further comprises the steps of:

the mobile intelligent terminal acquires a printing request of a patient and feeds the printing request back to the server;

the self-service printer calls the printing list and the printable contents packaged by the server into the memory;

the server searches and obtains printable contents corresponding to the printing request from the database, arranges the printable contents according to the heat value of the printable contents to obtain a printing list, and sends the printing list and the printable contents to the self-service printer after data packaging.

8. The intelligent ward information management method according to claim 7, wherein said intelligent ward information management method further comprises the steps of:

the self-service printer acquires the real-time position of the mobile intelligent terminal;

the self-service printer calculates the real-time distance between the mobile intelligent terminal and the self-service printer according to the real-time position of the mobile intelligent terminal;

and when the real-time distance is smaller than the preset distance value, the self-service printer calls the printing content with the maximum heat value into the cache.

9. The intelligent ward information management method according to claim 8, wherein said intelligent ward information management method further comprises the steps of:

acquiring the printing authority of a user;

generating a printing instruction according to the printing authority of the user and the printing request;

and the self-service printer responds to the printing instruction and prints the printing content matched with the user identity information in the cache and/or the memory.

10. The intelligent ward information management method according to claim 9, wherein the specific method for obtaining the printing authority of the user comprises the following steps:

generating a unique identifier according to the identifier of the mobile intelligent terminal and the identifier in the printing content;

acquiring a real-time area image within the area range of the self-service printer;

and extracting the face information and the authentication symbol information in the real-time region image, verifying the face information and the authentication symbol information, and generating the printing authority if the face information and the preset user face image as well as the authentication information and the unique authentication symbol pass the verification.

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