CN107767523B - Number calling system, method and storage medium - Google Patents
Number calling system, method and storage medium Download PDFInfo
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- CN107767523B CN107767523B CN201711024989.XA CN201711024989A CN107767523B CN 107767523 B CN107767523 B CN 107767523B CN 201711024989 A CN201711024989 A CN 201711024989A CN 107767523 B CN107767523 B CN 107767523B
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- G—PHYSICS
- G07—CHECKING-DEVICES
- G07C—TIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE
- G07C11/00—Arrangements, systems or apparatus for checking, e.g. the occurrence of a condition, not provided for elsewhere
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- G—PHYSICS
- G07—CHECKING-DEVICES
- G07C—TIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE
- G07C11/00—Arrangements, systems or apparatus for checking, e.g. the occurrence of a condition, not provided for elsewhere
- G07C2011/04—Arrangements, systems or apparatus for checking, e.g. the occurrence of a condition, not provided for elsewhere related to queuing systems
Abstract
The invention relates to a number calling system. The number calling system comprises an information acquisition module, a control module and a number calling module; the information acquisition module is used for acquiring the current scanning state information of the medical system; the control module is respectively connected with the information acquisition module and the number calling module; the control module is used for identifying the current state of the medical system according to the scanning state information and generating a corresponding trigger signal when the state is the scanning completion; the control module is also used for controlling the number calling module to execute the number calling process according to the trigger signal. The invention also relates to a number calling method and a storage medium. The number calling system, the number calling method and the storage medium intelligently identify the state of the medical system, and automatically control the number calling module to call the number according to the state, so that the number calling efficiency is improved, and the working efficiency of a technician is improved.
Description
Technical Field
The invention relates to the technical field of medical imaging equipment, in particular to a number calling system, a number calling method and a storage medium.
Background
In the existing image department of a hospital, when patients are concentrated, a technician first collects the examination sheets of the patients waiting for scanning outside a scanning room, then sorts the patients, and then calls the patients in sequence according to the waiting sequence, so that the examination of the patients is performed in order.
The number calling modes of technicians at present comprise the following modes:
1. the technician follows the collected paper sheet and needs to go to a shielded doorway or waiting area and shout by mouth.
2. The technician shouts in their mouth through an intercom system near the console.
3. The image information system is connected with the talkback system, and the technician triggers the manual talkback system and calls the number through the talkback system by the computer.
Therefore, the current number calling methods all require a technician to call the number actively or trigger the number actively, so that the number calling efficiency is low, and the working efficiency of the technician is low.
Disclosure of Invention
In view of the above, it is necessary to provide a number calling system, a number calling method and a storage medium for solving the problem that the existing number calling method of medical systems and other similar working systems is inefficient, which results in inefficient work of technicians.
A number calling system comprises an information acquisition module, a control module and a number calling module; the information acquisition module is used for acquiring the current scanning state information of the medical system; the control module is respectively connected with the information acquisition module and the number calling module; the control module is used for identifying the current scanning state of the medical system according to the scanning state information and generating a corresponding trigger signal when the scanning state is the scanning completion; the control module is also used for controlling the number calling module to execute the number calling process according to the trigger signal.
In one embodiment, the information acquisition module comprises a sensing unit; the sensing unit is arranged on or near a shielding door of the scanning room; the sensing unit is used for sensing whether a patient goes out of the shielding door in real time and sending a sensing signal; the control module is connected with the sensing unit, receives the sensing signal and controls the number calling module to prompt a corresponding patient to enter the scanning room when the control module judges that the patient goes out of the shielding door according to the sensing signal.
In one embodiment, the information acquisition module comprises a detection unit; the detection unit is arranged near a scanner of the medical system; the detection unit is used for detecting the action of the current patient relative to the scanner in real time and sending out a detection signal; the control module is connected with the detection unit, receives the detection signal and controls the number calling module to prompt the patient to be inspected to enter the scanning room of the medical system when judging that the current patient leaves the scanner according to the detection signal.
In one embodiment, the sensing unit is further used for sensing whether a patient enters from the shielding door in real time; the information acquisition module also comprises a shielding door identification unit; the shielding door identification unit is used for identifying whether the shielding door is closed or not and sending an identification signal; the control module is connected with the shielding door identification unit; the control module controls the shielding door identification unit to work after judging that a patient enters the shielding door according to the induction signal, and the control module receives the identification signal and controls the number calling module to prompt the corresponding patient to prepare for scanning when judging that the shielding door is closed according to the identification signal.
In one embodiment, the control module is further configured to generate the trigger signal after a preset delay time is reached after the scanning of the medical system is completed, so as to control the number calling module to execute a number calling process.
In one embodiment, the number calling system further comprises a manual trigger module; the manual triggering module is used for an operator to manually trigger the number calling module and/or manually suspend the number calling module.
A number calling method comprises the following steps:
acquiring the current scanning state information of the medical system in real time;
identifying the current scanning state of the medical system according to the scanning state information and generating a corresponding trigger signal when the scanning state is the scanning completion; and
and controlling the number calling equipment to execute a number calling process according to the trigger signal.
In one embodiment, the step of acquiring the current scanning state information of the medical system in real time comprises: sensing whether a patient goes out of the shielding door in real time and generating a sensing signal; the step of identifying the current scanning state of the medical system according to the scanning state information and generating a corresponding trigger signal when the scanning state is scanning completion comprises the following steps: when judging that a patient goes out of the shielding door according to the induction signal, judging that the scanning state is the scanning completion and generating the trigger signal;
in one embodiment, the step of acquiring the current scanning state information of the medical system in real time comprises: detecting whether the current patient moves away from a scanner of the medical system in real time and generating a detection signal; the step of identifying the current scanning state of the medical system according to the scanning state information and generating a corresponding trigger signal when the scanning state is scanning completion comprises the following steps: and when the patient is judged to leave the scanner according to the detection signal, judging that the scanning state is the scanning completion and generating the trigger signal.
A storage medium having stored thereon a computer program which, when executed by a processor, is operable to perform the steps of any of the methods described above.
According to the number calling system, the number calling method and the storage medium, the information acquisition module acquires the current working scanning state information of the medical system in real time and sends the scanning state information to the control module. The control module identifies the working state of the medical system according to the scanning state information and automatically controls the number calling module to execute the number calling process so as to prompt people in the waiting sequence. Specifically, if the working state of the medical system is that the medical system is scanned completely, the control module controls the number calling module to execute the number calling process. Therefore, the number calling system can intelligently identify the state of the medical system and automatically control the number calling module to call the number according to the state, so that the number calling efficiency is improved, and the working efficiency of a technician is improved.
Drawings
FIG. 1 is a schematic diagram of a medical imaging system;
fig. 2 is a block diagram of a number calling system according to an embodiment;
FIG. 3 is a schematic diagram of an embodiment of a number calling system applied to the medical imaging system shown in FIG. 1;
FIG. 4 is a diagram illustrating a manual trigger end of a number calling system in one embodiment;
fig. 5 is a schematic diagram of a voice number calling unit and a display unit of the number calling system according to an embodiment;
fig. 6 is a flowchart illustrating a number calling method according to an embodiment.
Detailed Description
In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.
A number calling system is used for calling numbers of patients waiting for a medical system. Medical systems such as radiotherapy apparatus RT, computed tomography system CT, magnetic resonance imaging system MR, etc., wherein computed tomography system CT, magnetic resonance imaging system MR is a medical imaging system. The number calling system is used for calling the number of the patient waiting in the medical system.
The medical system comprises a number calling system which comprises an information acquisition module, a control module and a number calling module. The information acquisition module is used for acquiring the current scanning state information of the medical system. The control module is respectively connected with the information acquisition module and the number calling module. The control module is used for identifying the current scanning state of the medical system according to the scanning state information and generating a corresponding trigger signal when the scanning state is the scanning completion. The control module is also used for controlling the number calling module to execute the number calling process according to the trigger signal so as to prompt the corresponding patient to enter a scanning room of the medical system.
In the number calling system, the information acquisition module acquires the current working scanning state information of the medical system in real time and sends the scanning state information to the control module. The control module identifies the working state of the medical system according to the scanning state information and automatically controls the number calling module to execute the number calling process so as to prompt people in the waiting sequence. Specifically, if the working state of the medical system is that the medical system is scanned completely, the control module controls the number calling module to execute the number calling process. Therefore, the number calling system can intelligently identify the state of the medical system and automatically control the number calling module to call the number according to the state, so that the number calling efficiency is improved, and the working efficiency of a technician is improved.
The medical system in the present embodiment is exemplified by a medical imaging system. Fig. 1 is a schematic diagram of a medical imaging system 100. As shown in fig. 1, the medical imaging system 100 includes a scanner 130. The scanner 130 is disposed within the scan chamber 120. A shield door 121 is disposed on the scan room 120, and the shield door 121 is used for isolating an internal space of the scan room 120 from an external space of the scan room 120. The shielding door 121 is provided with a control switch, and the opening and closing of the shielding door 121 are controlled by the control switch (not shown in fig. 1). The scanner 130 is disposed in the scan chamber 120. The scanner 130 includes a support bed 132. When it is desired to scan the patient 300, the patient 300 lies on the support bed 132. The scanner 130 has a scanning chamber 131 formed therein, and the scanning chamber 131 is used for accommodating the patient 300 and the support bed 132. The medical imaging system 100 is provided with a waiting area and a preparation area. The waiting area and the preparation area are provided outside the scanning chamber 120. The patients waiting outside the scanning room 120 are located in a waiting area and a preparation area, wherein the patients to be scanned are located in the preparation area and the rest of the patients are located in the waiting area. In operation, the scanner 130 feeds the support bed 132 together with the patient 300 into the scanning chamber 131 for scanning.
Fig. 2 is a block diagram of a number calling system 200 according to an embodiment. The number calling system 200 comprises an information acquisition module 210, a control module 220 and a number calling module 230. The information acquisition module 210 is disposed within the medical imaging system 100. The information acquisition module 210 is used for acquiring the scanning status information of the medical imaging system 100 on the current patient in real time. The control module 220 is connected to the information collecting module 210 and the number calling module 230 respectively. The control module 220 receives the scanning state information, identifies the current scanning state of the medical imaging system 100 according to the scanning state information, and generates a corresponding trigger signal when the scanning state is scanning completed. The control module 220 controls the number calling module 230 to execute a number calling process according to the trigger signal, so as to prompt the corresponding patient to enter the scanning room 120 of the medical imaging system 100.
In the number calling system 200, the information acquisition module 210 acquires the scanning status information of the medical imaging system 100 on the current patient in real time, and sends the scanning status information to the control module 220. The control module 220 automatically controls the number calling module 230 to prompt the corresponding patient in the waiting sequence according to the scanning state information. Specifically, if the control module 220 recognizes that the scanning status is scanning completed, the control module 220 controls the number calling module 230 to prompt the corresponding patient to enter the scanning room 120 of the medical imaging system 100 for scanning. In this way, the number calling system 200 intelligently identifies the scanning state of the medical imaging system 100 and automatically controls the number calling module 230 to call the number according to the scanning state, so that the number calling efficiency is improved, and the working efficiency of the technician is improved.
In the present embodiment, it is assumed that the waiting sequences of the patients of the medical imaging system 100 are No. 1, No. 2, No. 3, and No. 4 … …, and the serial number of the current patient is patient No. 2. Patient # 3 is in the staging area 150 and is ready for scanning. Patient # 4 is positioned in the waiting area 140 for waiting. When the control module 220 recognizes that the scanning of the patient 2 is completed, the control module 220 controls the number calling module 230 to prompt the patient 3 to enter the scanning room 120, and controls the number calling module 230 to prompt the patient 4 to prepare.
In one embodiment, the control module 220 is further configured to generate a trigger signal to control the number calling module 230 to execute the number calling procedure after the medical imaging system 100 enters a preset trigger state (e.g., a patient is out of the screen door 121) and delays for a preset time. In this way, it is ensured that after the current patient (patient 2) in the scan room 120 leaves within the preset delay time, patient 3 enters the scan room 120 again, so that the operation of the medical imaging system 100 is orderly.
Fig. 3 is a schematic diagram of the number calling system 200 applied to the medical imaging system 100 shown in fig. 1 according to an embodiment. As shown in fig. 3, the information collection module 210 includes a sensing unit 212. The sensing unit 212 is disposed on the shield door 121 or near the shield door 121 of the scan room 120. The sensing unit 212 is used for sensing whether a patient is out of the screen door 121 in real time and sending out a sensing signal. The control module 220 is connected to the sensing unit 212, the control module 220 receives the sensing signal, and when the control module 220 determines that a patient is out of the shielding door 121 according to the sensing signal, the control number calling module 230 prompts the patient to be examined to enter the scanning room 120. The control module 220 receives and analyzes the sensing signal. If the sensing signal indicates that the sensing unit 212 senses that the patient is out of the shielding door 121, it indicates that the medical imaging system 100 has scanned the current patient (for example, patient 2), and the patient 2 passes through the shielding door 121 and is out of the shielding door 121, at this time, the scanner is idle, and the next patient (patient 3) of the patient 2 can enter the scanning room 120. Therefore, whether a patient is out of the shielding door 121 or not is automatically sensed through the sensing unit 212, and then the control module 220 controls the work of the number calling module 230 according to the sensing signal, so that a technician does not need to manually trigger the number calling, the automation of the number calling work is realized, the number calling efficiency is high, and the work efficiency of the technician is improved. In this embodiment, the sensing unit 212 is a sensor, such as an infrared sensor. The sensor is disposed on a side of the shield door 121 facing the inside of the scanning chamber 120, and can identify whether a patient is going out of the shield door 121.
As shown in fig. 3, the information collection module 210 includes a detection unit 211. The detection unit 211 is arranged in the vicinity of a scanner of the medical imaging system 100. The detecting unit 211 is used for detecting the current motion of the patient relative to the scanner in real time and sending out a detection signal. The control module 220 is connected to the detection unit 211, and the control module 220 receives the detection signal. When the control module 220 determines that the patient is leaving the scanner according to the detection signal, the control queuing module 230 prompts the corresponding patient to enter the scanning room 120 of the medical imaging system 100. The control module 220 receives and analyzes the detection signal. If the detection signal indicates that the current patient (patient 2) is leaving the scanner, the current patient (patient 2) is scanned completely. At this point the scanner is ready for use, and the next patient (patient 3) to the current patient (patient 2) may enter the scanning room 120. Therefore, the motion of the current patient on the scanner is monitored in real time through the detection unit 211, and then the control module 220 controls the work of the number calling module 230 according to the detection signal, so that the automation of the number calling work is realized, the number calling efficiency is high, and the working efficiency of a technician is improved.
For example, in this embodiment, the detecting unit 211 may detect whether the patient on the support bed 132 has a rising motion in real time and send out a detection signal. The control module 220 determines that the patient is currently on the support bed 132 according to the detection signal, and indicates that the medical imaging system 100 has completed scanning the patient. Further, the detection unit 211 may be an image acquisition device, such as a camera. In this way, the current patient's motion can be detected in real time.
It should be noted that, in the present embodiment, the sensing unit 212 and the detecting unit 211 are provided at the same time for standby. In other embodiments, the arrangement of the sensing unit 212 and the detecting unit 211 is not limited thereto. Only the sensing unit 212 or only the detecting unit 211 may be provided, depending on the requirements.
In one embodiment, the sensing unit 212 is further used for sensing whether a patient enters from the screen door 121 in real time. The information collection module 210 further includes a screen door identification unit. The shield door identification unit is used for identifying whether the shield door 121 is closed or not and sending out an identification signal. The control module 220 is connected to the shield door recognition unit. After the control module 220 determines that a patient enters from the shielding door 121 according to the sensing signal, the control module 220 controls the shielding door identification unit to work, and the control module 220 receives the identification signal. When the control module 220 determines that the shielding door 121 is closed according to the identification signal, the control queuing module 230 prompts the corresponding patient to prepare for scanning. For example, when patient # 3 enters the scan room 120 for scanning, the shielding door 121 of the scan room 120 is closed. The control module 220 receives and analyzes the identification signal. If the identification signal indicates that the shield door 121 is closed, it indicates that the medical imaging system 100 is beginning to scan patient # 3. The control module 220 controls the number calling module 230 to prompt patient No. 4 for scan preparation. Thus, when the patient 3 starts to receive scanning, the patient 4 is prepared in advance, and after the patient 3 finishes scanning, the patient 4 enters the scanning room 120 in time, so that the working efficiency of the medical imaging system 100 can be improved.
In one embodiment, the screen door identification unit is disposed near the screen door 121 or on the screen door 121 of the medical imaging system 100. Therefore, whether the shielding door 121 is closed or not can be sensitively identified, and the identification is accurate.
As shown in fig. 3, the control module 220 is connected to the control switch 121A on the screen door 121. If the control module 220 receives a signal of the control switch 121A to close the shield door 121, the control module 220 controls the number calling module 230 to prompt the corresponding patient to be ready for scanning. Specifically, when the technician operates the control switch 121A to close the screen door 121, the control switch 121A sends a close signal to the control module 220. Thus, when the shielding door identification unit has a fault, the control switch 121A can be used for standby, and the reliability of the number calling system 200 is improved.
In one embodiment, the number calling system 200 further comprises a manual trigger module. The manual triggering module is used for enabling a technician to manually trigger the number calling module and/or the manual pause number calling module. In this way, the manual trigger module can be made ready for use to accommodate special situations, such as emergency treatment, etc.
Fig. 4 is a diagram illustrating a manual trigger end 240 of the number calling system 200 according to an embodiment. As shown in fig. 4, the manual trigger module includes a manual trigger terminal 240, and the manual trigger terminal 240 is connected to the control module 220. The technician sends a trigger signal to the control module 220 via the manual trigger terminal 240. Thus, if the scan for the current patient (patient 2) is finished, the technician can send a trigger signal to the control module 220 through the manual trigger terminal 240, and the control module 220 controls the number calling module 230 to prompt the corresponding patient (patient 3) to enter the scan room 120 according to the trigger signal. The manual trigger terminal 240 can be used for standby when the information acquisition module 210 fails, so as to ensure the normal operation of the number calling system. Specifically, the manual trigger end 240 is provided with a bed returning button, when the scanning is finished, the technician only needs to press the bed returning button to send the trigger signal of the bed returning to the control module 220, and then the automatic trigger control module controls the number calling module to execute the number calling process.
Fig. 5 is a schematic diagram of the voice number calling unit 231 and the display unit 232 of the number calling system 200 according to an embodiment. As shown in fig. 4 and 5, the number calling module 230 includes a sound number calling unit 231 and/or a display unit 232, and the sound number calling unit 231 is used for calling the corresponding patient for a preset number of times. The preset number of times of calling the number by the sound number calling unit 231 can be customized according to actual conditions, for example, 3 times. The sound number calling unit 231 may be a speaker, and the number calling system 200 may prompt a call to a corresponding patient through the speaker. The display unit 232 prompts the corresponding patient through information display. The display unit 232 is a display screen. The prompt information of the number calling system 200 to the patient can be displayed through the display screen.
In this embodiment, the number calling module 230 includes a sound number calling unit 231 and a display unit 232. As shown in fig. 5, the preparation area 150 is provided with a sound number calling unit 231 and a display unit 232. The waiting area 140 is provided with a sound number calling unit 231 and a display unit 232. The sound number calling unit 231 and the display unit 232 are respectively connected with the control module 220. If the patient 2 finishes scanning, the control module 220 respectively controls the sound number calling unit 231 and the display unit 232 of the preparation area 150 to prompt the patient 3 to enter the scanning room 120. If the patient 3 enters the scan room 120 to start scanning, the control module 220 controls the voice number calling unit 231 and the display unit 232 of the waiting area 140 to prompt the patient 4 to enter the preparation area 150 for preparing scanning. In this way, the operation of the medical imaging system 100 may be sequenced.
It should be noted that, in other embodiments, the arrangement of the sound number calling unit 231 and the display unit 232 is not limited to this, and may be set according to the requirement.
In one embodiment, if a patient is called to enter the scanning room 120 a predetermined number of times, the patient does not answer or enter the scanning room 120. The number calling module 230 sends the number passed information to the control module 220. The control module 220 controls the number calling module 230 to skip the patient and in turn prompts the following patient to enter the scanning room 120 and prompts the numbered patient to be ready for scanning. For example, after the patient 2 finishes scanning, if the number of times of calling the patient 3 into the scanning room 120 reaches the preset number, the patient does not answer or enter the scanning room 120, the control module 220 controls the number calling module 230 to automatically skip the patient 3, and sequentially prompts the patient 4 to enter the scanning room 120 and prompts the patient 3 to prepare for scanning.
It should be noted that the number-passing rule is not limited to this, and the intelligent calling system may preset the number-passing rule according to the requirement.
Fig. 6 is a flowchart illustrating a number calling method according to an embodiment. The number calling method can be applied to the number calling system in any embodiment. The number calling method comprises the following steps:
and step S111, acquiring the current scanning state information of the medical system in real time.
Step S131, the current scanning state of the medical system is identified according to the scanning state information, and a corresponding trigger signal is generated when the scanning state is the scanning completion.
And step S151, controlling the number calling equipment according to the trigger signal to prompt the corresponding patient to enter a scanning room of the medical system.
The number calling method can intelligently identify the scanning state of the medical system, automatically control the number calling module to call the number according to the scanning state, and improve the number calling efficiency, thereby improving the working efficiency of a technician.
In one embodiment, the step of acquiring the current scanning status information of the medical system in real time, i.e. step S111, includes: whether a patient goes out of the shielding door and a sensing signal is generated in real time.
The step of identifying the current scanning state of the medical system according to the scanning state information and generating a corresponding trigger signal when the scanning state is scanning completed, that is, the step S131 includes: and when judging that a patient goes out of the shielding door according to the induction signal, judging that the scanning state is the scanning completion and generating a trigger signal.
In one embodiment, the step of acquiring the current scanning state information of the medical system in real time comprises:
and detecting whether the current action of the patient relative to the scanner is departing in real time and generating a detection signal.
The steps of identifying the current scanning state of the medical system according to the scanning state information and generating a corresponding trigger signal when the scanning state is scanning completion comprise:
and when the patient is judged to leave from the scanner according to the detection signal, judging that the scanning state is the scanning completion and generating a trigger signal.
In one embodiment, the step of controlling the number calling device to prompt the corresponding patient to enter the scanning room of the medical system, that is, step S151 is followed by further comprising: and identifying whether a shielding door of the medical system is closed, and controlling the number calling equipment to prompt the corresponding patient to prepare for scanning if the shielding door is closed.
A storage medium having stored thereon a computer program which, when executed by a processor, is operable to perform the steps of the method of any of the embodiments described above.
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. A number calling system is characterized by comprising an information acquisition module, a control module and a number calling module; the information acquisition module is used for acquiring the current scanning state information of the medical system; the control module is respectively connected with the information acquisition module and the number calling module; the control module is used for identifying the current scanning state of the medical system according to the scanning state information and generating a corresponding trigger signal when the scanning state is the scanning completion; the control module is also used for controlling the number calling module to execute a number calling process according to the trigger signal;
the information acquisition module comprises an induction unit; the sensing unit is arranged on or near a shielding door of the scanning room; the sensing unit is used for sensing whether a patient goes out of the shielding door in real time and sending a sensing signal; the control module is connected with the sensing unit, receives the sensing signal and controls the number calling module to prompt a corresponding patient to enter a scanning room when the patient is judged to go out of the shielding door according to the sensing signal.
2. The number calling system according to claim 1, wherein the information acquisition module further comprises a detection unit; the detection unit is arranged near a scanner of the medical system; the detection unit is used for detecting the action of the current patient relative to the scanner in real time and sending out a detection signal; the control module is also connected with the detection unit, receives the detection signal and controls the number calling module to prompt the corresponding patient to enter the scanning room of the medical system when judging that the current patient leaves the scanner according to the detection signal.
3. The number calling system as claimed in claim 1, wherein the sensing unit is further configured to sense whether a patient enters from the screen door in real time; the information acquisition module also comprises a shielding door identification unit; the shielding door identification unit is used for identifying whether the shielding door is closed or not and sending an identification signal; the control module is connected with the shielding door identification unit; the control module is used for controlling the work of the shielding door identification unit after judging that a patient enters the shielding door according to the induction signal, receiving the identification signal by the control module, and controlling the number calling module to prompt the patient to be inspected to prepare for scanning when judging that the shielding door is closed according to the identification signal.
4. The number calling system of claim 1, wherein the control module is further configured to generate the trigger signal after a preset delay time is reached after the medical system is scanned, so as to control the number calling module to execute a number calling procedure.
5. The number calling system according to claim 1, further comprising a manual trigger module; the manual triggering module is used for an operator to manually trigger the number calling module and/or manually suspend the number calling module.
6. A number calling method is characterized by comprising the following steps:
acquiring the current scanning state information of the medical system in real time;
identifying the current scanning state of the medical system according to the scanning state information and generating a corresponding trigger signal when the scanning state is the scanning completion; and
controlling the number calling equipment to execute a number calling process according to the trigger signal;
the step of acquiring the current scanning state information of the medical system in real time comprises the following steps: sensing whether a patient goes out of the shielding door in real time and generating a sensing signal;
the step of identifying the current scanning state of the medical system according to the scanning state information and generating a corresponding trigger signal when the scanning state is scanning completion comprises the following steps: and when judging that a patient goes out of the shielding door according to the induction signal, judging that the scanning state is the scanning completion and generating the trigger signal.
7. The method of claim 6, wherein the step of acquiring current scan status information of the medical system in real time comprises: detecting whether the current patient moves away from a scanner of the medical system in real time and generating a detection signal;
the step of identifying the current scanning state of the medical system according to the scanning state information and generating a corresponding trigger signal when the scanning state is scanning completion comprises the following steps: and when the patient is judged to leave the scanner according to the detection signal, judging that the scanning state is the scanning completion and generating the trigger signal.
8. The method of claim 6, wherein said sensing signals further comprise sensing in real time whether a patient is entering said screen door; the method further comprises the following steps:
after judging that a patient enters from the shielding door according to the induction signal, identifying whether the shielding door is closed or not and sending an identification signal;
and when the shielding door is judged to be closed according to the identification signal, the number calling module is controlled to prompt the patient to be inspected to prepare for scanning.
9. The method of claim 6, wherein generating the corresponding trigger signal when the scanning status is scanning done comprises generating the trigger signal after a delay of a preset time after the scanning of the medical system is finished.
10. A storage medium having a computer program stored thereon, the program being operative, when executed by a processor, to perform the steps of the method of any of claims 6 to 9.
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