A kind of Telemedicine self-service system
Technical field
The utility model relates to a kind of Telemedicine self-service system, belongs to technical field of medical equipment.
Background technology
In order to assisting in diagnosis and treatment, doctor can require that patient claps various slice, thin piece and does various chemical examination usually, such as clap X sheet, CT sheet, rabat, do blood examination, urine examination, just inspection etc., has generally clapped slice, thin piece or after finishing chemical examination, past contact to need etc. within several hours, just to go out result, sometimes patient is not at all easy waited several hours and taken slice, thin piece or result of laboratory test after, doctor but comes off duty, can only another day after result, this allows the patient patient that especially distance hospital is far away be sorely distressed; Or some patient directly just can obtain its information wanting to know according to laboratory test report, look for a doctor without the need to holding result of laboratory test, but it also to need etc. within several hours, just to get result of laboratory test, wastes the time of many waits at all; If but do not get sheet or result of laboratory test, the problem of slice, thin piece or result of laboratory test loss may be faced again.In addition, in prior art, if need strange land to see sheet, then the slice, thin piece of patient can only be copied in USB flash disk, then transfer to strange land by immediate communication tool.This mode is not only higher to personnel qualifications, and complicated operation is consuming time.
Summary of the invention
The purpose of this utility model is, provides a kind of Telemedicine self-service system, and it effectively can solve problems of the prior art, safety, realizes long-rangely getting sheet or getting laboratory test report easily.
For solving the problems of the technologies described above, the utility model adopts following technical scheme: a kind of Telemedicine self-service system, comprise: medical image imaging device, transcriber, Cloud Server, self-aided terminal, certificate recognizer and doctor workstation, described medical image imaging device, transcriber, Cloud Server, self-aided terminal are connected in turn with certificate recognizer, and doctor workstation is connected with transcriber.
Preferably, described transcriber comprises: a-signal receiver module, signal transmitting module and power supply, described a-signal receiver module is connected with medical image imaging device, doctor workstation, signal transmitting module and power supply respectively, described signal transmitting module is connected with Cloud Server, thus can realize real-time proximity information being sent on long-range cloud equipment.
In the utility model, described signal transmitting module is WiFi module or GPRS module, thus it is more accurate, real-time that information is transmitted.
Preferably, described Cloud Server comprises: memory module, microprocessor, buffer and B signal receiving module, described microprocessor is connected with memory module, buffer and B signal receiving module respectively, B signal receiving module is connected with signal transmitting module and self-aided terminal respectively, thus effectively can alleviate the pressure of Cloud Server, improve the response speed of equipment.
In aforesaid Telemedicine self-service system, described self-aided terminal is provided with WiFi module, and described WiFi module is connected with B signal receiving module, thus the slice, thin piece of acquisition patient that can be real-time more fast or laboratory test report.
In the utility model, described medical image imaging device is connected by USB interface or UART interface with transcriber, thus can improve the speed of data transmission.
In said system, described medical image imaging device is also provided with D/A converter, and self-aided terminal is provided with A/D converter, thus data can be facilitated to carry out storing and transferring.
In the utility model, described certificate recognizer is RFID card reader, thus can reduce system cost.
Described doctor workstation can adopt PC.
Compared with prior art, the utility model is by utilizing medical image imaging device, transcriber, Cloud Server, self-aided terminal, certificate recognizer and doctor workstation, thus can realize safely, easily long-rangely getting sheet or getting laboratory test report, not only avoid the problem of slice, thin piece or laboratory test report loss, on the other hand, also for patient saves the time, facilitate patient anywhere or anytime nearby strange land get sheet or laboratory test report; Native system is simple to operate, intelligent, greatly facilitates patient, is suitable for large-scale promotion application.In addition, the Cloud Server described in the utility model comprises: memory module, microprocessor, buffer and B signal receiving module, thus the pressure effectively can alleviating Cloud Server, improve the response speed of equipment.Described medical image imaging device is connected by USB interface or UART interface with transcriber, thus can improve the speed of data transmission.
Accompanying drawing explanation
Fig. 1 is the anatomical connectivity schematic diagram of a kind of embodiment of the present utility model.
Reference numeral: 1-medical image imaging device, 2-transcriber, 3-Cloud Server, 4-self-aided terminal, 5-certificate recognizer, 6-doctor workstation, 7-A signal receiving module, 8-signal transmitting module, 9-power supply, 10-memory module, 11-microprocessor, 12-buffer, 13-B signal receiving module, 14-WiFi module, 15-D/A converter, 16-A/D converter.
Below in conjunction with the drawings and specific embodiments, the utility model is further described.
Embodiment
Embodiment 1 of the present utility model: a kind of Telemedicine self-service system, as shown in Figure 1, comprise: medical image imaging device 1, transcriber 2, Cloud Server 3, self-aided terminal 4, certificate recognizer 5 and doctor workstation 6, described medical image imaging device 1, transcriber 2, Cloud Server 3, self-aided terminal 4 are connected in turn with certificate recognizer 5, and doctor workstation 6 is connected with transcriber 2.Described transcriber 2 comprises: a-signal receiver module 7, signal transmitting module 8 and power supply 9, described a-signal receiver module 7 is connected with medical image imaging device 1, doctor workstation 6, signal transmitting module 8 and power supply 9 respectively, and described signal transmitting module 8 is connected with Cloud Server 3.Described signal transmitting module 8 is WiFi module or GPRS module.Described Cloud Server 3 comprises: memory module 10, microprocessor 11, buffer 12 and B signal receiving module 13, described microprocessor 11 is connected with memory module 10, buffer 12 and B signal receiving module 13 respectively, and B signal receiving module 13 is connected with signal transmitting module 8 and self-aided terminal 4 respectively.Described self-aided terminal 4 is provided with WiFi module 14, and described WiFi module 14 is connected with B signal receiving module 13.Described medical image imaging device 1 is connected by USB interface or UART interface with transcriber 2.Described medical image imaging device 1 is also provided with D/A converter 15, and self-aided terminal 4 is provided with A/D converter 16.Described certificate recognizer 5 is RFID card reader.Described doctor workstation 6 can adopt PC.Other equipment all can adopt the equipment of current version to realize.
Embodiment 2: a kind of Telemedicine self-service system, as shown in Figure 1, comprise: medical image imaging device 1, transcriber 2, Cloud Server 3, self-aided terminal 4, certificate recognizer 5 and doctor workstation 6, described medical image imaging device 1, transcriber 2, Cloud Server 3, self-aided terminal 4 are connected in turn with certificate recognizer 5, and doctor workstation 6 is connected with transcriber 2.Described medical image imaging device 1 is also provided with D/A converter 15, and self-aided terminal 4 is provided with A/D converter 16.
Embodiment 3: a kind of Telemedicine self-service system, as shown in Figure 1, comprise: medical image imaging device 1, transcriber 2, Cloud Server 3, self-aided terminal 4, certificate recognizer 5 and doctor workstation 6, described medical image imaging device 1, transcriber 2, Cloud Server 3, self-aided terminal 4 are connected in turn with certificate recognizer 5, and doctor workstation 6 is connected with transcriber 2.Described transcriber 2 comprises: a-signal receiver module 7, signal transmitting module 8 and power supply 9, described a-signal receiver module 7 is connected with medical image imaging device 1, doctor workstation 6, signal transmitting module 8 and power supply 9 respectively, and described signal transmitting module 8 is connected with Cloud Server 3.Described Cloud Server 3 comprises: memory module 10, microprocessor 11, buffer 12 and B signal receiving module 13, described microprocessor 11 is connected with memory module 10, buffer 12 and B signal receiving module 13 respectively, and B signal receiving module 13 is connected with signal transmitting module 8 and self-aided terminal 4 respectively.
Embodiment 4: a kind of Telemedicine self-service system, as shown in Figure 1, comprise: medical image imaging device 1, transcriber 2, Cloud Server 3, self-aided terminal 4, certificate recognizer 5 and doctor workstation 6, described medical image imaging device 1, transcriber 2, Cloud Server 3, self-aided terminal 4 are connected in turn with certificate recognizer 5, and doctor workstation 6 is connected with transcriber 2.
The principle of work of a kind of embodiment of the present utility model: after medical image imaging device 1 is in blocks, simulating signal is changed into by D/A converter 15, and powered by power supply 9 with the a-signal receiver module 7(in transcriber 2 by USB interface or UART interface) be connected, this simulating signal is sent on the B signal receiving module 13 of Cloud Server 3 by signal transmitting module 8 by a-signal receiver module 7 again, microprocessor 11 by described slice, thin piece information stored in buffer 12 and memory module 10; Result of laboratory test information is powered by power supply 9 with the a-signal receiver module 7(in transcriber 2 by USB interface or UART interface by doctor workstation 6 equally) be connected, this simulating signal is sent on the B signal receiving module 13 of Cloud Server 3 by signal transmitting module 8 by a-signal receiver module 7 again, microprocessor 11 by described slice, thin piece information stored in buffer 12 and memory module 10.When sheet is got in needs of patients strange land, certificate recognizer 5 is utilized to identify its certificate (as medical insurance card), if by checking, then self-aided terminal 4 utilizes WiFi module 14 to obtain corresponding slice, thin piece information from the buffer 12 or memory module 10 of Cloud Server, and this information is the film of exportable patient again after A/D converter 16 processes.