CN103860199B - A kind of foetal monitor of automatic identification probe and method thereof - Google Patents

Abstract

<b> the present invention relates to a kind of foetal monitor of automatic identification probe, and its probe is provided with: induction identification module, communication module, main control module, display module and main functional modules; Its base station is provided with base station main control module, base station communication module, base station induction module; This device is by the coordinated signals between probe and base station, its identifying information that can input according to base station when entering duty of popping one's head in is made automatically to distribute its mode of operation, eliminate the trouble of medical personnel's manual identification, reduce the risk that operate miss and malpractice occur, make the present invention have the larger scope of application; And the recognition methods of the foetal monitor of a kind of automatic identification probe of corresponding structure of the present invention has above-mentioned advantage too.</b>

Description

A kind of foetal monitor of automatic identification probe and method thereof

Technical field

the present invention relates to a kind of fetal monitoring equipment, particularly relate to a kind of foetal monitor and method thereof of automatic identification probe.

Background technology

in wireless fetus monitoring instrument when implementing fetal monitoring, general needs 3 probe, a uterine contraction pressure probe (being called for short " TOCO probe ") and a fetal rhythm probe (being called for short " US probe "), just need two base stations (probe depressed place) simultaneously, be used for depositing probe, charging, shutdown and optimum configurations etc.Medical personnel in use just need to identify which is uterine contraction pressure probe, and which is fetal rhythm probe; When carrying out Twins or Multiplets monitoring, fetal rhythm probe then has two at least, and medical personnel more need to identify which is that fetal rhythm one is popped one's head in (being called for short " US1 probe " or " US1 "), and which is that fetal rhythm two is popped one's head in (being called for short " US2 probe " or " US2 ").

identification at present for probe generally adopts two kinds of methods:

1. the mode that probe function is fixing: static probe built-in function also marks in appearance at probe, one of them probe fixed function is US1, and another probe fixed function is US2, and another probe fixed function is TOCO etc.

2. probe depressed place fixed form: as US1 is appointed as in No. 1 probe depressed place, US2 is appointed as in No. 2 probe depressed places, and TOCO probe etc. is appointed as in No. 3 probe depressed places.Above two kinds of recognition method are taken by mistake to prevent probe or are misplaced probe, medical personnel are needed to have higher specialized capability, need to perform strict operating procedure simultaneously, do not meet " NurseBlind design concept ", namely pick up probe and just open the design concept used.

in practical operation, when bedside machine printing and shows fetal heart rate curve, US2 curve is than US1 curve decline 20bps, if US2 probe uses as US1 probe by medical personnel's maloperation, then the baseline fetal heart rate of US1 is than actual little 20bps, doubt can be caused to medical personnel, even may lead to the malpractice of misjudgement, there is larger risk.

another kind of situation, twins fetal monitor most times is by when single tire monitor uses, and US1 probe frequency of utilization will be much higher than US2 probe.When adopting above two kinds of recognition method US1 function to be fixed on a probe the inside, likely cause US1 to pop one's head in and be overused and lost efficacy, thus cause the lost of life of whole product, add use cost to a great extent.

Summary of the invention

the technical problem to be solved in the present invention is to provide one can identification probe automatically, i.e. detection probe duty automatically, is the foetal monitor of probe configuration effort pattern automatically.

a foetal monitor for automatic identification probe, comprises bedside machine, base station, probe; Described bedside machine is for storing patient related information; Described base station is connected with described bedside machine and popping one's head in respectively, for obtaining patient related information from bedside machine and sending to described probe; Described probe for gathering monitoring-information, and is sent to described bedside machine by described base station;

it is characterized in that, described probe is provided with: induction identification module, communication module, main control module and main functional modules;

described induction identification module is connected with described main control module, main functional modules respectively, for storing machine code and the duty detecting described probe, and to share out the work pattern for described main functional modules;

described main control module is connected with described induction identification module, for controlling and date processing described probe;

described communication module is connected with described main control module, for providing the interface channel with described base station communication;

described main functional modules respectively with described main control module, described identification of function model calling, for according to described mode of operation, start corresponding functional module and gather monitoring-information.

further, described base station is provided with base station main control module, base station communication module, base station induction module;

described base station main control module is used for controlling and date processing described base station;

described base station communication module is connected with described base station main control module, for providing the interface channel carrying out communication with described bedside machine and described probe.

described base station induction module is connected with described base station main control module, and arranges with described state sensing module and interlock, for sending corresponding identifying information for described probe; This interaction relation comprises wireless induction and/or machinery touches; Described interface channel is set to wired and/or wireless connections.

further, described mode of operation comprises uterine contraction die pressing type, the first fetal rhythm pattern, the second fetal rhythm pattern, the 3rd fetal rhythm pattern; Described main functional modules is provided with uterine contraction pressure measuring unit, fetal rhythm measuring unit.

another step, described main functional modules is also provided with palace external pressure measuring unit, directly Fetal ECG measuring unit and mother's electrocardio measuring unit.

improve as one, the foetal monitor of described a kind of automatic identification probe is also provided with display module, and described display module is connected with described main control module, for showing status information and the data of described probe according to the control of described main control module.

as the recognition methods of the foetal monitor of above-mentioned a kind of automatic identification probe, comprise following sequential steps:

the step of described bedside machine, described base station, described probe Initialize installation;

described induction identification module determines the step of described probe duty;

described induction identification module determines the step of described probe mode of operation.

further, following sequential steps is also comprised after the step of described bedside machine, described base station, described probe Initialize installation:

described base station obtains the step of patient information from described bedside machine;

further, determine also to comprise following sequential steps in the step of described probe duty:

described base station obtains the step of described machine code from described probe;

described probe obtains the step of described identifying information from described base station;

described base station and described induction identification module judge the step of the duty of described probe;

if be judged as duty, then enter the step determining described probe mode of operation;

if the off working state of being judged as, then restart the step determining described probe duty.

another step, determine also to comprise following sequential steps in the step of described probe mode of operation:

described induction identification module judges the step of probe attribute;

if uterine contraction pressure probe, then start the step of the uterine contraction pressure mode of operation of this probe;

described probe display mode of operation, and the step of described monitoring-information is sent to base station;

if fetal rhythm is popped one's head in, then enter the step that fetal rhythm probe quantity judges;

if quantity is 1, then enter the step starting the corresponding fetal rhythm mode of operation of described probe;

if quantity is greater than 1, then the order entered according to described identifying information is the step that described fetal rhythm probe distributes fetal rhythm mode of operation;

start the step of the corresponding fetal rhythm mode of operation of described probe;

described probe display mode of operation, and the step of described monitoring-information is sent to base station;

described base station judges whether that all probes have shared out the work the step of pattern all;

if not, then the step of the duty judging described probe is got back to;

if so, this automatic identifying is then terminated.

improve as one, it is characterized in that, described base station and described induction identification module judge that the step of the duty of described probe judges according to the interaction relation between described state sensing module and described base station induction module, according to wireless induction, then described state sensing module cannot sense that described base station induction module judges that described probe is duty;

touch according to machinery, then judge when mechanical is touched between described state sensing module and described base station induction module that described probe is duty;

otherwise judge that described probe is off working state;

described induction identification module judges that the step of probe attribute judges according to described identifying information, and first is judged as uterine contraction pressure probe, is judged as that thereafter fetal rhythm is popped one's head in.

the foetal monitor of a kind of automatic identification probe of the present invention detects the duty of oneself automatically by adopting probe, and link with base station and arrange, its mode of operation of Auto-matching when entering duty, make medical personnel pick up probe can normally use, save the trouble by medical personnel's manual identification and reduce the risk producing operate miss and cause malpractice, the foetal monitor of a kind of automatic identification probe of the present invention is made to have the scope of application widely, overcome deficiency of the prior art, and the recognition methods of the foetal monitor of a kind of automatic identification probe of corresponding structure of the present invention has above-mentioned advantage too.

Accompanying drawing explanation

for ease of illustrating, the present invention is described in detail by following detailed description of the invention and accompanying drawing.

fig. 1 is the foetal monitor structural representation of a kind of automatic identification probe of the present invention;

fig. 2 is the foetal monitor expansion structure schematic diagram of a kind of automatic identification probe of the present invention;

fig. 3 is the recognition methods flow chart of the foetal monitor of a kind of automatic identification probe of the present invention;

fig. 4 is the recognition methods detail flowchart of the foetal monitor of a kind of automatic identification probe of the present invention;

fig. 5 is the foetal monitor composition schematic diagram of a kind of automatic identification probe of the present invention.

Detailed description of the invention

in order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.

as shown in accompanying drawing 1-4, a kind of foetal monitor of automatic identification probe, comprises bedside machine 204, base station 202, probe 201; Described bedside machine 204 is for storing patient related information; Described base station 202 201 to be connected, for obtaining patient related information from bedside machine 204 and sending to described probe 201 with described bedside machine 204 and popping one's head in respectively; Described probe 201 for gathering monitoring-information, and is sent to described bedside machine 204 by described base station 202;

it is characterized in that, described probe 201 is provided with: induction identification module 2011, communication module 2013, main control module 2016 and main functional modules 2014;

described induction identification module 2011 is connected with described main control module 2016, main functional modules 2014 respectively, for storing machine code and the duty detecting described probe 201, and input sharing out the work pattern for described main functional modules 2014 of identifying information according to base station 202;

described main control module 2016 is connected with described induction identification module 2011, for controlling and date processing described probe 201;

described communication module 2013 is connected with described main control module 2016, for providing the interface channel with described base station 202 communication;

described main functional modules 2014 respectively with described main control module 2016, described identification of function model calling, for according to described induction identification module assignment pattern, start corresponding functional module and gather monitoring-information.

further, described base station 202 is provided with base station main control module 2021, base station communication module 2022, base station induction module 2023;

described base station main control module 2021 is for controlling and date processing described base station 201;

described base station communication module 2022 is connected with described base station main control module 2021, for providing the interface channel carrying out communication with described bedside machine 204 and described probe 201.

described base station induction module 2023 is connected with described base station main control module 2021, and arranges with described state sensing module and interlock, send corresponding identifying information for storing the machine code that inputs when probe 201 enters duty and being followed successively by probe 201 according to the order of probe 201 unlatching; This interaction relation comprises wireless induction and/or machinery touches; Described interface channel is set to wired and/or wireless connections.

further, described mode of operation comprises uterine contraction die pressing type (TOCO), the first fetal rhythm pattern (US1), the second fetal rhythm pattern (US2), the 3rd fetal rhythm pattern (US3); Described main functional modules 2014 is provided with uterine contraction pressure measuring unit, fetal rhythm measuring unit.

another step, described main functional modules 2014 is also provided with palace external pressure measuring unit, directly Fetal ECG measuring unit and mother's electrocardio measuring unit.

improve as one, the foetal monitor of described a kind of automatic identification probe is also provided with display module 2015, described display module 2015 is connected with described main control module 2016, for showing status information and the data of described probe 201 according to the control of described main control module 2016.

as the recognition methods of the foetal monitor of above-mentioned a kind of automatic identification probe, comprise following sequential steps:

the step of described bedside machine 204, described base station 201, described probe 201 Initialize installation;

described induction identification module 2011 determines the step of described probe 201 duty;

described induction identification module 2011 determines the step of described probe 201 mode of operation.

further, following sequential steps is also comprised after the step of described bedside machine 204, described base station 201, described probe 201 Initialize installation:

described base station 201 obtains the step of patient information from described bedside machine 204;

further, determine also to comprise following sequential steps in the step of described probe 201 duty:

described base station 201 obtains described machine code from described probe 201, and is stored in the step of described base station induction module 2023;

described probe 201 obtains described identifying information from described base station 201, and is stored in the step of described induction identification module 2011;

described base station 201 and described induction identification module 2011 judge the step of the duty of described probe 201 according to the interaction relation responded between identification module 2011 and base station induction module 2023;

if be judged as duty, then enter the step determining described probe 201 mode of operation;

if the off working state of being judged as, then restart the step determining described probe 201 duty.

another step, determine also to comprise following sequential steps in the step of described probe 201 mode of operation:

described induction identification module 2011 judges the step of probe 201 attribute;

if uterine contraction pressure probe (TOCO), then start the step of the uterine contraction pressure mode of operation of this probe 201;

described probe 201 shows mode of operation, and sends the step of described monitoring-information to base station 201;

if fetal rhythm probe (US), then enter the step that fetal rhythm probe quantity judges;

if quantity is 1, then enter the step starting the corresponding fetal rhythm mode of operation of described probe 201;

if quantity is greater than 1, then the order entered according to described identifying information is the step that described fetal rhythm probe distributes fetal rhythm mode of operation;

start the step of the corresponding fetal rhythm mode of operation of described probe 201;

described probe 201 shows current operation mode, and sends the step of described monitoring-information to base station 201;

described base station 201 judges whether that all probes 201 have shared out the work the step of pattern all;

if not, then the step of the duty judging described probe 201 is got back to;

if so, this automatic identifying is then terminated.

improve as one, it is characterized in that, described base station 201 and described induction identification module 2011 judge that the step of the duty of described probe 201 judges according to the interaction relation between described state sensing module and described base station induction module 2023, according to wireless induction, then described state sensing module cannot sense that described base station induction module 2023 judges that described probe 201 is as duty;

touch according to machinery, then judge when mechanical is touched between described state sensing module and described base station induction module 2023 that described probe 201 is as duty;

otherwise judge that described probe 201 is as off working state;

described induction identification module 2011 judges that the step of probe 201 attribute judges according to described identifying information, and first is judged as uterine contraction pressure probe, is judged as that thereafter fetal rhythm is popped one's head in.

in order to further illustrate foetal monitor and the method thereof of a kind of automatic identification probe of the present invention, now this device and method is described in detail, referring to Fig. 1-4.

bedside machine 204, base station 202 and probe 201 Initialize installation

bedside machine 204, base station 202 and probe 201 carry out Initialize installation.Wherein probe comprises uterine contraction pressure probe (be called for short " TOCO probe ") and fetal rhythm probe (being called for short " US probe "), and the quantity that TOCO pops one's head in only has one, and the quantity that US pops one's head in has 1 or multiple, and concrete quantity is determined by patient's attribute.

obtain patient information

base station 202 is transferred to probe 201 after bedside machine 204 obtains patient information.Patient information mainly comprises patient's attribute and berth number etc.The attribute of patient refers to measures single tire, twins or polyembryony, and this attribute determines the quantity of configuration probe.Single tire client need TOCO probe and a US probe; Twins client need TOCO probe and two US probes; Triplet client need TOCO probe and three US probes.Each probe 201 needs distribution mode of operation normally to work, namely how many probes 201 are had just to need to distribute how many each mode of operation, TOCO probe needs to distribute uterine contraction pressure (TOCO) mode of operation, and US probe needs to distribute US1 mode of operation, US2 mode of operation, US3 mode of operation successively ... etc..Berth number is used for arranging the channel number of probe, base station and bedside machine, and probe, base station and the communication in this channel number of bedside machine are not disturbed by other.

determine the duty of probe 201

201 states of popping one's head in comprise off working state and duty.When probe 201 is in off working state, run with low-power consumption mode, only respond to identification module 2011 and continue detection probe 201 and whether enter duty; When probe 201 is in running order, induction identification module leads to 2011 connection main control modules 2016 obtain work probe from base station identifying information by communication module 2013.Identifying information is used for representing the attribute of probe and the order of promoter probe, and attribute comprises US probe and TOCO probe.

determine the attribute of probe 201

when probe 201 attribute is TOCO probe, because only have a TOCO probe, so be directly assigned as uterine contraction pressure (TOCO) mode of operation; When probe 201 attribute is US probe, after needing the quantity judging that US pops one's head in, determine the distribution of mode of operation;

distribute uterine contraction pressure (TOCO) mode of operation

when judging that the attribute of probe is TOCO probe, directly distributing uterine contraction pressure (TOCO) mode of operation, showing mode of operation after relevant parameter is set, and send described monitoring-information to base station 201;

judge the quantity that US pops one's head in

when judging that probe 201 attribute is US probe, need the quantity judging that US pops one's head in.Quantity information obtains in identifying information.If US pops one's head in, quantity is 1, and directly distributing this probe is US1 mode of operation; If US pops one's head in, quantity is greater than 1, then directly do not share out the work pattern, needs detection probe to obtain the sequencing of identifying information;

detection probe 201 obtains the sequencing of attribute identification code

when probe 201 enters duty from off working state, the identifying information of probe 201 can be obtained from base station 202.Sort according to the sequencing that each probe 201 obtains identifying information, US probe to share out the work pattern according to obtaining the sequencing of identifying information.The probe getting identifying information at first will be assigned as TOCO mode of operation, and other probes are assigned as US1, US2, US3, US4...... etc. mode of operation successively according to sequencing.

distribute fetal rhythm probe (US) mode of operation successively

when fetal rhythm probe (US) quantity is greater than 1, after detection fetal rhythm probe (US) obtains the sequencing of identifying information, the induction identification module 2011 in probe distributes US mode of operation successively; When US probe quantity is 1, be directly assigned as US1 mode of operation;

probe 201 display mode of operation, and send described monitoring-information to base station 201

probe pattern of finishing the work is distributed, and sends described monitoring-information to base station 201.Probe display on display module represents the icon of corresponding mode of operation.As US1 mode of operation display " US1 " icon, US2 mode of operation display " US2 " icon, TOCO probe display " TOCO " icon etc.

base station 202 judges whether that all probes 201 have all shared out the work pattern

base station 202 needs to share out the work pattern for each probe 201, and whether if judge to also have probe 201 not share out the work pattern, then continuing detection probe has probe to enter duty from off working state.If judge that all probes have all shared out the work pattern, then terminate this identifying.

continue detection probe duty

whether base station 202 continues detection has probe to enter duty from off working state, in running order if any probe 201, judges probe attribute, arranges the mode of operation of popping one's head in from corresponding US, the pattern until all probes all share out the work.

terminate

base station 202 judges that all probes 201 have all shared out the work pattern, then notify probe 201 end of identification automatically.

refer to Fig. 1-5, the present invention is a kind of foetal monitor and method thereof of automatic identification probe, mainly comprises two part compositions: probe 201 and base station 202.201 attributes of popping one's head in have fetal rhythm to pop one's head in (being called for short " US probe ") and uterine contraction pressure is popped one's head in (being called for short " TOCO probe ") etc.

quantity of popping one's head in the present embodiment is 3, i.e. 1 TOCO probe and 2 US probes.Probe is deposited in when off working state in probe depressed place 203, runs, need charge, entering charged state, otherwise entering resting state as detected with lowest power consumption; Probe 201 in working order time, need shift out probe (proceeding to mode of operation by non-operating mode) in probe depressed place 203, pop one's head in quantity and the distribution of automatic detection probe attribute of popping one's head in, inquiry also shows mode of operation.

this embodiment is only a preferred embodiment of the present invention, and its probe attribute and probe quantity are not limited to foregoing.

in order to further illustrate the method and apparatus that a kind of wireless fetus monitoring instrument probe of the present invention identifies automatically, now the flow chart of this device is described in detail, referring to Fig. 1-4.

the present invention is a kind of device with the wireless tire prison instrument probe automatically identified, its probe component 201 comprises: induction identification module 2011, communication module 2013, main control module 2016, display module 2015 and main functional modules 2014.The equipment corresponding with described probe component 201 is base station 202, and described base station 202 has base station main control module 2021, base station communication module 2022, base station induction module 2023 etc., and wireless or wired mode can be used to carry out communication.

described induction identification module 2011 is for the duty of detection probe, and this induction identification module 2011 includes but not limited to the sensors such as Hall element, proximity transducer and infrared sensor.If induction identification module 2011 carries out work in the mode triggered, during triggering, probe is in off working state, if main control module 2016 detects need charging, enters charged state, otherwise enters resting state.

during induction identification module 2011 end trigger, then enter duty from off working state, induction identification module 2011 obtains identifying information from base station 202 and stores (identifying information comprises: the information such as patient's attribute, communication channel information, promoter probe order, probe quantity), and starts other module work successively.

the attribute of described induction identification module 2011 according to identifying information identification probe and the quantity of probe, the attribute of probe is divided into US to pop one's head in and TOCO pops one's head in.If probe attribute is TOCO probe, then can directly be assigned as TOCO mode of operation; If probe attribute is US probe, then need the quantity of inquiring about US probe to determine mode of operation.If US pops one's head in, quantity is 1, then be directly assigned as US1 mode of operation; If US pops one's head in, quantity is 2 or more, then need to send attribute identification code to base station 202 by communication module 2013.

described communication module 2013 can enter the equipment of communication with base station 202, and its means of communication comprises wireless or wired mode or both has, and its wireless mode includes but are not limited to infrared, the technology such as bluetooth, wifi and wireless length ripple.

when the machine code that US pops one's head in is sent to base station 202 by communication module 2013, base station 202 is that each probe 201 distributes corresponding identifying information by the sequencing of the machine code received.The mode of operation that induction identification module 2011 is popped one's head according to this information distribution US, the probe of the identifying information received at first is assigned as US1 mode of operation, and other are assigned as US2, US3 in chronological order successively ... etc..

described main control module 2016 is major control and the processing module of described probe component 201.This main control module 2016 is directly connected with display module 2015 with induction identification module 2011, communication module 2013.

after the assignment information of the base stations that probe 201 receives, by induction identification module 2011, probe 201 is set to corresponding mode of operation, and sends the monitoring-information collected to base station, then operating mode information is sent into display module 2015 and is shown by main control module 2016.

described display module 2015 is for showing status information and the data of probe, and all display information and data of needing are controlled by main control module 2016.After display module receives the operating mode information that main control module 2016 sends, the mode of operation icon of correspondence is shown, as US1 mode of operation display " US1 " icon, US2 mode of operation display " US2 " icon, TOCO probe display " TOCO " icon etc.

described main functional modules 2014 is that probe carries out the main modular measured, comprise fetal rhythm measurement module, uterine contraction pressure measurement module, palace external pressure measurement module, the directly module such as Fetal ECG measurement module and mother's electrocardio measurement module one or more.Described main functional modules 2014 is started working after probe 201 has identified automatically.

the foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, all do in the spirit and principles in the present invention any amendment, equivalent to replace and improvement etc., all should be included in protection scope of the present invention.

Claims (10)

1. a foetal monitor for automatic identification probe, comprises bedside machine, base station, probe; Described bedside machine is for storing patient related information; Described base station is connected with described bedside machine and popping one's head in respectively, for obtaining patient related information from bedside machine and sending to described probe; Described probe for gathering monitoring-information, and is sent to described bedside machine by described base station;

it is characterized in that, described probe is provided with: induction identification module, communication module, main control module and main functional modules;

described induction identification module is connected with described main control module, main functional modules respectively, for storing machine code and the duty detecting described probe, and to share out the work pattern for described main functional modules;

described main control module is connected with described induction identification module, for controlling and date processing described probe;

described communication module is connected with described main control module, for providing the interface channel with described base station communication;

described main functional modules respectively with described main control module, described identification of function model calling, for according to described mode of operation, start corresponding functional module and gather monitoring-information.

2. according to claim 1, a foetal monitor for automatic identification probe, is characterized in that, described base station is provided with base station main control module, base station communication module, base station induction module;

described base station main control module is used for controlling and date processing described base station;

described base station communication module is connected with described base station main control module, for providing the interface channel carrying out communication with described bedside machine and described probe;

described base station induction module is connected with described base station main control module, and links with state sensing module and arrange, for being that described probe sends corresponding identifying information; This interaction relation comprises wireless induction and/or machinery touches; Described interface channel is set to wired and/or wireless connections.

3. according to claim 2, a foetal monitor for automatic identification probe, is characterized in that, described mode of operation comprises uterine contraction die pressing type, the first fetal rhythm pattern, the second fetal rhythm pattern, the 3rd fetal rhythm pattern; Described main functional modules is provided with uterine contraction pressure measuring unit, fetal rhythm measuring unit.

4. according to claim 3, a foetal monitor for automatic identification probe, is characterized in that, described main functional modules is also provided with palace external pressure measuring unit, directly Fetal ECG measuring unit and mother's electrocardio measuring unit.

5. a kind of foetal monitor of automatic identification probe according to claim 4, it is characterized in that, also be provided with display module, described display module is connected with described main control module, for showing status information and the data of described probe according to the control of described main control module.

6. a recognition methods for the foetal monitor of automatic identification probe as claimed in claim 1, comprises following sequential steps:

the step of described bedside machine, described base station, described probe Initialize installation;

described induction identification module determines the step of described probe duty;

described induction identification module determines the step of described probe mode of operation.

7. according to claim 6, a recognition methods for the foetal monitor of automatic identification probe, is characterized in that, also comprises following sequential steps after the step of described bedside machine, described base station, described probe Initialize installation:

described base station obtains the step of patient information from described bedside machine.

8. according to claim 7, a recognition methods for the foetal monitor of automatic identification probe, is characterized in that, determines also to comprise following sequential steps in the step of described probe duty:

described base station obtains the step of described machine code from described probe;

described probe obtains the step of described identifying information from described base station;

described base station and described induction identification module judge the step of the duty of described probe;

if be judged as duty, then enter the step determining described probe mode of operation;

if the off working state of being judged as, then restart the step determining described probe duty.

9. according to claim 8, a recognition methods for the foetal monitor of automatic identification probe, is characterized in that, determines also to comprise following sequential steps in the step of described probe mode of operation:

described induction identification module judges the step of probe attribute;

if uterine contraction pressure probe, then start the step of the uterine contraction pressure mode of operation of this probe;

described probe display mode of operation, and the step of described monitoring-information is sent to base station;

if fetal rhythm is popped one's head in, then enter the step that fetal rhythm probe quantity judges;

if quantity is 1, then enter the step starting the corresponding fetal rhythm mode of operation of described probe;

if quantity is greater than 1, then the order entered according to described identifying information is the step that described fetal rhythm probe distributes fetal rhythm mode of operation;

start the step of the corresponding fetal rhythm mode of operation of described probe;

described probe display mode of operation, and the step of described monitoring-information is sent to base station;

described base station judges whether that all probes have shared out the work the step of pattern all;

if not, then the step of the duty judging described probe is got back to;

if so, this automatic identifying is then terminated.

10. a kind of recognition methods of foetal monitor of automatic identification probe according to claim 9, it is characterized in that, described base station and described induction identification module judge that the step of the duty of described probe judges according to the interaction relation between state sensing module and base station induction module, according to wireless induction, then state sensing module cannot sense that described base station induction module judges that described probe is duty;

touch according to machinery, then judge when mechanical is touched between described state sensing module and described base station induction module that described probe is duty;

otherwise judge that described probe is off working state;

described induction identification module judges that the step of probe attribute judges according to described identifying information, and first is judged as uterine contraction pressure probe, is judged as that thereafter fetal rhythm is popped one's head in.