CN105576768A - Wireless probe charging control method and device applied to monitor - Google Patents

Abstract

The invention discloses a wireless probe charging control method and device applied to a monitor. The wireless probe charging control method comprises the following steps: acquiring probe information of each wireless probe placed in a charging slot of a host of the monitor; determining the charging priority of each wireless probe according to the acquired probe information of each wireless probe and a preset charging priority rule, wherein the preset charging priority rule is relevant with the probe information of the wireless probes; and sequentially charging each wireless probe from the top charging priority to the low charging priority according to the determined charging priority of each wireless probe. According to the technical scheme provided by the invention, the charging safety of the wireless probes can be effectively improved.

Description

Be applied to wireless probe charge control method and the device of patient monitor

Technical field

The present invention relates to field of medical device, be specifically related to a kind of the wireless probe charge control method and the device that are applied to patient monitor.

Background technology

Traditional fetal monitor is man-to-man patient monitor, a patient monitor is placed on each pregnant woman side, probe is tied up on pregnant woman's belly, (such as two fetal rhythm probes also have the connection of a uterine contraction pressure probe to be easily intertwined to multiple probe, pregnant woman cannot freely walk about, and in a ward, each berth is other needs a fetal monitor, take section office's area, power consumption is more.

Along with the development of fetal heart monitoring product, occurred the fetal monitor of many berths, its cardinal principle is on a fetal monitor, and carry 4 groups of wireless probes or more group wireless probe, is managed by many groups wireless probe of a fetal monitor to carry.But, after use wireless probe, because there is battery wireless probe inside, therefore inevitably need the problem of drawing Multi probe charging.

Traditional Multi probe charge mode is directly charged to the wireless probe of needs charging by complete machine power supply when wireless probe accesses, access a wireless probe just to charge to a wireless probe, access multiple wireless probe just to charge to multiple wireless probe simultaneously, therefore, complete machine power supply needs to reach power when supporting maximum configured charging, could meet the demand of charging normal.Like this, complete machine power supply just needs the power supply using relatively high power, and cost increases, and during large power supply work simultaneously, power supply heat sinking is comparatively large, and temperature is too high, and possible initiating system fault, even fire, fail safe is low.

Summary of the invention

The invention provides a kind of wireless probe charge control method being applied to patient monitor, for improving the fail safe of wireless probe charging.

One aspect of the present invention provides a kind of wireless probe charge control method being applied to patient monitor, and this patient monitor comprises main frame and at least two wireless probes, and said method comprises:

Obtain the probe information of each wireless probe be placed in the charging slot of above-mentioned main frame;

According to probe information and the default charging priority criterion of each wireless probe above-mentioned obtained, determine the charging priority of each wireless probe above-mentioned, wherein, above-mentioned charging priority criterion is relevant to the probe information of wireless probe;

According to the charging priority of each wireless probe above-mentioned determined, successively each wireless probe above-mentioned is charged according to charging priority order from high to low.

The present invention provides a kind of wireless probe battery charge controller being applied to patient monitor on the other hand, and this patient monitor comprises main frame and at least two wireless probes, and above-mentioned wireless probe battery charge controller comprises:

Acquiring unit, for obtaining the probe information of each wireless probe in the charging slot being placed on above-mentioned main frame;

Priority determining unit, for the probe information of each wireless probe above-mentioned that obtains according to above-mentioned acquiring unit and default charging priority criterion, determine the charging priority of each wireless probe above-mentioned, wherein, above-mentioned charging priority criterion is relevant to the probe information of wireless probe;

Charging control unit, for the charging priority of each wireless probe above-mentioned determined according to above-mentioned priority determining unit, charges to each wireless probe above-mentioned successively according to charging priority order from high to low.

Therefore, by obtaining the probe information of each wireless probe in charging slot in the present invention, and the charging priority of each wireless probe is determined according to probe information and default charging priority criterion, successively each wireless probe is charged according to charging priority order from high to low, thus achieve the intelligent charge of each wireless probe in charging slot is controlled, monitor complete machine can be avoided to charge to the wireless probe in all charging slots and the safety issue that causes simultaneously, improve the fail safe of wireless probe charging.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1-a is a kind of interface method of adjustment embodiment schematic flow sheet being applied to patient monitor provided by the invention;

Fig. 1-b is a kind of another embodiment schematic flow sheet of interface method of adjustment being applied to patient monitor provided by the invention;

Fig. 1-c is a kind of interface method of adjustment embodiment schematic flow sheet being applied to patient monitor provided by the invention;

Fig. 1-d is a kind of interface method of adjustment embodiment schematic flow sheet being applied to patient monitor provided by the invention;

Fig. 2 is a kind of wireless probe battery charge controller embodiment flowage structure schematic diagram being applied to patient monitor provided by the invention;

Fig. 3 is a kind of patient monitor provided by the invention example structure schematic diagram.

Embodiment

For making goal of the invention of the present invention, feature, advantage can be more obvious and understandable, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, and not all embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Embodiment one

The embodiment of the present invention provides a kind of wireless probe charge control method being applied to patient monitor, and above-mentioned patient monitor comprises main frame and at least two wireless probes, refers to Fig. 1-a, and the wireless probe charge control method in the embodiment of the present invention, comprising:

Step 101, acquisition are placed on the probe information of each wireless probe in the charging slot of above-mentioned main frame;

In the embodiment of the present invention, after patient monitor electrifying startup, the Host Status of patient monitor is detected (detect in real time or periodically detect), detect the wireless probe quantity in the charging slot of the main frame being placed on patient monitor with this, and obtain the probe information of each wireless probe be placed in the charging slot of this main frame.

Concrete, the above-mentioned Host Status to patient monitor carries out detection and can comprise: wireless probe is put back to charging slot state-detection, interchange (AC, AlternatingCurrent) power state detection and bearing power and detected.Wherein, wireless probe is put back to charging slot state-detection and is referred to whether detection has wireless probe to put into the charging slot of main frame, when detecting that wireless probe puts into the charging slot of main frame with box lunch, obtain the probe information of the current wireless probe be placed in the charging slot of this main frame; AC power supplies state-detection refers to that main frame detects AC power supplies access state, with this detect AC power supplies whether access and the input voltage of AC power supplies whether accurate so as and only in main frame access AC power supplies and the input voltage of this AC power supplies is accurate time just permission wireless probe is charged; The electric current that bearing power detects the load consumption referred to main frame detects, can be used for the size of current of charging according to the Current calculation of load consumption, wherein, the above-mentioned size of current that can be used for charging equals the size of current that above-mentioned main frame available maximum current size deducts the load consumption of above-mentioned main frame.

In the embodiment of the present invention, above-mentioned probe information includes but not limited to: the kwh loss amount of probe type, total charging times, single charge and dump energy.Wherein, the probe type of the wireless probe in the embodiment of the present invention includes but not limited to: DECG (i.e. Holter) probe, TOCO (i.e. uterine contraction pressure) probe and US (i.e. ultrasonic wave) probe.

Step 102, according to the probe information of each wireless probe above-mentioned obtained and default charging priority criterion, determine the charging priority of each wireless probe above-mentioned;

Wherein, above-mentioned charging priority criterion is relevant to the probe information of wireless probe.

In the embodiment of the present invention, preset charging priority criterion, this charging priority criterion is relevant in the probe information of acquisition or two information, so that after step 101 gets the probe information of wireless probe, according to the probe information of each wireless probe above-mentioned obtained and default charging priority criterion, the charging priority of each wireless probe above-mentioned can be determined.

Particularly, the all probe type can supported according to patient monitor and the probe type of Clinical practice or probe type combination setting charging priority criterion, then step 102 is specially: according to probe type and the default charging priority criterion of each wireless probe above-mentioned obtained, determine the charging priority of each wireless probe above-mentioned, wherein, the above-mentioned probe type combination mentioned refers to multiple probes that may simultaneously use under specific clinical environment, illustrate, in delivery room, it is exactly DECG probe and TOCO probe that the fetus physiological parameter that user most possibly uses obtains probe compound mode, or US probe and TOCO probe, mother's physiological parameter also may be used to obtain probe simultaneously, as blood oxygen, blood pressure etc.In tire prison room, user uses US to pop one's head in and TOCO probe at most simultaneously, also may only use US to pop one's head in.Therefore, in clinical practice, US can be popped one's head in, TOCO probe, DECG probe be as the highest grouping of charging priority, or, due to relative to US probe, the DECG Fetal Heart Rate accuracy got of pop one's head in is higher, and is not easy to be subject to fetal rhythm position in uterine contraction pressure size, delivery of fetus process and the factor such as moves and affect, therefore, the charging priority that the charging priority that can set DECG probe is popped one's head in higher than US.Or, also can based on the dump energy setting charging priority criterion of wireless probe, the probe information that then step 101 gets will comprise dump energy, concrete, preset one or two power threshold, the division of charging priority is carried out according to each power threshold, when the dump energy of wireless probe is lower than the power threshold set, this wireless probe is set as corresponding charging priority is (for ease of distinguishing, the charging priority now set is described as the first charging priority), when the dump energy of wireless probe is higher than the power threshold set, this wireless probe is set as corresponding charging priority is (for ease of distinguishing, the charging priority now set is described as the second charging priority), wherein, the first charging priority can be set higher than the second charging priority, to be first the wireless probe charging of low electricity, or, also the second charging priority can be set higher than the first charging priority, the charging of the wireless probe to high charge priority can be completed quickly.It should be noted that, the setting of above-mentioned charging priority criterion is only optional mode, and in actual applications, user can set concrete charging priority criterion according to actual needs, is not construed as limiting herein.

Step 103, charging priority according to each wireless probe above-mentioned determined, charge to each wireless probe above-mentioned successively according to charging priority order from high to low.

In the embodiment of the present invention, after step 102 determines that each is placed on the charging priority of each wireless probe in the charging slot of main frame, successively each wireless probe above-mentioned is charged according to charging priority order from high to low, when the wireless probe in arbitrary charging priority is all full of electricity (or electricity all reaches default high power threshold), automatically for the wireless probe in next charging priority charges, the wireless probe be placed on until all in the charging slot of main frame is all full of electricity (or electricity all reaches default high power threshold).Further, the prompting message that instruction wireless probe has completed charging can also be exported on the monitoring interface of patient monitor or the wireless probe having completed charging.

Further, if comprise this information of probe type in the probe information of step 101 acquisition, then, as shown in Fig. 1-b, step 103 can also comprise:

A1, obtain the patient information that current and above-mentioned patient monitor binds;

Wherein, probe type and the above-mentioned patient information of above-mentioned Target Wireless probe match, and above-mentioned patient information includes but not limited to the following information of patient's (namely by guardianship): EGC parameter, respiration parameter and blood pressure parameter.

A2, determine according to the patient information obtained the probe type that matches with this patient information;

Wireless probe due to different probe type possesses the function detecting patient's different parameters (as parameters such as blood pressure, electrocardio or breathings), therefore, patient information by getting in the embodiment of the present invention can be determined and the probe type that this patient information matches, further, according to the anomaly parameter in the patient information got, can determine and the probe type that this anomaly parameter matches.For fetal monitor, puerpera in the progress of labor, especially when second stage of labor, except wanting monitoring fetal parameter, also need the physiological parameter of guarding mother, so when second stage of labor, just whether can have abnormal (such as: hypertension, diabetes, heart disease etc. will affect the exception of this pregnant woman's physiological parameter) according to pregnant woman's physiological parameter parameters such as () such as blood pressure, electrocardio or breathings, determine the probe type that physiological parameter corresponding to mother that second stage of labor may need to use is corresponding.

If A3 is placed in each wireless probe in the charging slot of above-mentioned main frame there is Target Wireless probe, then the charging priority that above-mentioned Target Wireless is popped one's head in is defined as most high charge priority;

Or, in steps A 3, Target Wireless probe is there is if be placed in each wireless probe in the charging slot of above-mentioned main frame, also first can judge when Target Wireless probe electricity is now full or electricity reaches default high power threshold, this Target Wireless probe is the need of charging (such as can judge that this Target Wireless probe does not need charging), if needed, just the charging priority that above-mentioned Target Wireless is popped one's head in is defined as most high charge priority.

Further, if there is not above-mentioned Target Wireless probe in each wireless probe above-mentioned, user can also be pointed out by least one above-mentioned Target Wireless probe placement in the charging slot of above-mentioned main frame, such as: if there is not above-mentioned Target Wireless probe in each wireless probe above-mentioned, then export a Target Wireless probe placement prompting message, by this Target Wireless probe placement prompting message prompting user by least one above-mentioned Target Wireless probe placement in the charging slot of above-mentioned main frame.

The above-mentioned probe type automatically identifying needs use in conjunction with patient information, and carry out the mode of charging preparation in advance, allow medical procedures more automation and precision, medical personnel can be prevented temporarily eventful assorted and cause looking for the situation of wireless probe because of people, improve medical care efficiency.

Further, if the probe information that step 101 obtains can also comprise this information of kwh loss amount of single charge, then step 103 can also comprise: when charging to all wireless probes of same charging priority, according to the kwh loss amount of the single charge of all wireless probes of above-mentioned same charging priority, for each wireless probe in above-mentioned same charging priority distributes the charging current of corresponding size, wherein, the size of charging current of distributing for wireless probe becomes positive correlation with the kwh loss amount of the single charge of wireless probe, namely the kwh loss amount of the single charge of wireless probe is larger, the size of the charging current of distributing for this wireless probe is also larger, or, be respectively the wireless probe that the kwh loss amount of single charge is minimum, other wireless probe in the wireless probe that the kwh loss amount of single charge is maximum and same charging priority distributes first order charging current, third level charging current and second level charging current, and make above-mentioned first order charging current be less than above-mentioned second level charging current, above-mentioned second level charging current is less than above-mentioned third level charging current, namely, in all wireless probes of same charging priority, minimum charging current is distributed to the wireless probe that the kwh loss amount of single charge is minimum, maximum charging current is distributed to the wireless probe that the kwh loss amount of single charge is maximum, secondary large charging current is distributed to other wireless probe in this charging priority.

Or, if the probe information that step 101 obtains can also comprise this information of total charging times, then step 103 can also comprise: when charging to all wireless probes of same charging priority, according to total charging times of all wireless probes of above-mentioned same charging priority, for each wireless probe in above-mentioned same charging priority distributes the charging current of corresponding size, wherein, the size of charging current of distributing for wireless probe becomes positive correlation with total charging times of wireless probe, namely total charging times of wireless probe is larger, the size of the charging current of distributing for this wireless probe is also larger, or, be respectively the wireless probe that total charging times is minimum, other wireless probe in the wireless probe that total charging times is maximum and same charging priority distributes first order charging current, third level charging current and second level charging current, and make above-mentioned first order charging current be less than above-mentioned second level charging current, above-mentioned second level charging current is less than above-mentioned third level charging current, namely, in all wireless probes of same charging priority, minimum charging current is distributed to the wireless probe that total charging times is minimum, maximum charging current is distributed to the wireless probe that total charging times is maximum, secondary large charging current is distributed to other wireless probe in this charging priority.

Or, if the probe information that step 101 obtains can also comprise kwh loss amount and these two information of total charging times of single charge, then step 103 can also comprise: when charging to all wireless probes of same charging priority, according to kwh loss amount and total charging times of the single charge of all wireless probes of above-mentioned same charging priority, for each wireless probe in above-mentioned same charging priority distributes the charging current of corresponding size, wherein, for the kwh loss amount of single charge and all minimum wireless probe of total charging times distribute first order charging current, for the kwh loss amount of single charge and the maximum wireless probe of total charging times distribute third level charging current, for other wireless probe in same charging priority distributes second level charging current, and make above-mentioned first order charging current be less than above-mentioned second level charging current, above-mentioned second level charging current is less than above-mentioned third level charging current.

Or, when charging to all wireless probes of same charging priority, also can be that the highest wireless probe of dump energy distributes first order charging current, distributes third level charging current for the wireless probe that dump energy is minimum, for other wireless probe in same charging priority distributes second level charging current, and making above-mentioned first order charging current be less than above-mentioned second level charging current, above-mentioned second level charging current is less than above-mentioned third level charging current.

Or, when charging to all wireless probes of same charging priority, also can be that the wireless probe that dump energy is minimum distributes first order charging current, is the highest wireless probe distribution third level charging current of dump energy, for other wireless probe in same charging priority distributes second level charging current, and making above-mentioned first order charging current be less than above-mentioned second level charging current, above-mentioned second level charging current is less than above-mentioned third level charging current.

It should be noted that, above-mentioned several scheme of distributing different charging current for the wireless probe in same charging priority is only a kind of example, the embodiment of the present invention also can adopt alternate manner to be that wireless probe in same charging priority distributes different charging current, or, also can distribute identical charging current for all wireless probes in same charging priority.In addition, distribute in the mode of different charging current at the above-mentioned wireless probe for same charging priority, the charging current summation of all wireless probes simultaneously charged is less than or equal to the size of current that can be used for charging of above-mentioned main frame, concrete, the above-mentioned size of current that can be used for charging can, for the fixed current size preset, also can be periodicity or the size of current that can be used for charging calculated in real time.Concrete, step 103 can also comprise: calculate the size of current (such as periodically or in real time calculating the size of current that can be used for charging) that can be used for charging, according to the above-mentioned size of current that can be used for charging calculated, adjust the charging current of the current wireless probe charged, the charging current summation of the current all wireless probes charged is made to equal the above-mentioned size of current that can be used for charging, wherein, the above-mentioned size of current that can be used for charging equals the size of current that above-mentioned main frame available maximum current size deducts the load consumption of above-mentioned main frame.

Further, in order to the deterioration of battery phenomenon preventing the battery of wireless probe from causing because not carrying out cycle charging for a long time, in step 103, cycle charging judgement can also be carried out to the wireless probe being polled to charging further, as shown in fig 1-c, step 103 also comprises:

B1, before the wireless probe being polled to charging is charged, detect the above-mentioned wireless probe being polled to charging and whether meet the cycle charging condition preset;

In the embodiment of the present invention, before the wireless probe being polled to charging is charged, detect the above-mentioned wireless probe being polled to charging and whether meet the cycle charging condition preset, if detect the above-mentioned wireless probe being polled to charging to meet default cycle charging condition, then perform step B2, if detect the above-mentioned wireless probe being polled to charging not meet the cycle charging condition preset, then perform step B3.

Concrete, above-mentioned default cycle charging condition can be that the number of times that wireless probe carries out acyclic charging continuously exceedes default non-cycle charging frequency threshold value, also be, when the number of times detecting that wireless probe carries out acyclic charging continuously exceedes default non-cycle charging frequency threshold value, judge that this wireless probe meets default cycle charging condition, when the number of times detecting that wireless probe carries out acyclic charging does not continuously exceed default non-cycle charging frequency threshold value, judge that this wireless probe does not meet the cycle charging condition preset.Wherein, above-mentioned acyclic charging refers to the following two kinds charge condition: 1, charge from not least power threshold; 2, not disposablely the highest default power threshold is filled to.In the embodiment of the present invention, when wireless probe charges, detect the situation whether this charging belongs to acyclic charging, if, the number of times then this wireless probe being carried out continuously acyclic charging adds 1, if not, the number of times then this wireless probe being carried out continuously acyclic charging resets, in step bl is determined., when the number of times detecting that the above-mentioned wireless probe being polled to charging carries out acyclic charging continuously exceedes default non-cycle charging frequency threshold value, judge that this wireless probe meets default cycle charging condition.

Certainly, above-mentioned cycle charging condition can be also other cycle charging condition, is not construed as limiting herein.

B2, the above-mentioned wireless probe being polled to charging is discharged to default minimum power threshold, afterwards the above-mentioned wireless probe being discharged to default minimum power threshold is charged;

In the embodiment of the present invention, cycle charging refers to wireless probe from the disposable charging process being filled to the highest power threshold of setting of minimum power threshold.Therefore, in order to realize carrying out cycle charging to wireless probe, in step B2, need first the above-mentioned wireless probe being polled to charging to be discharged to default minimum power threshold, afterwards the above-mentioned wireless probe being discharged to default minimum power threshold is charged, until the electricity of this wireless probe reaches the highest default power threshold.

B3, the above-mentioned wireless probe being polled to charging to be charged.

Further, the safety issue caused to prevent host power supply temperature too high, in step 103, can also monitor the power source temperature of main frame further, and carries out intelligent charge control according to the power source temperature of the main frame monitored.As shown in Fig. 1-d, step 103 also comprises:

C1, Real-Time Monitoring is carried out to the power source temperature of main frame;

In step C1, Real-Time Monitoring is carried out to the power source temperature of the main frame of above-mentioned patient monitor, to know the power source temperature of above-mentioned main frame in real time.Concrete, Real-Time Monitoring can be carried out by temperature sensor to the power source temperature of the main frame of above-mentioned patient monitor.

C2, when monitoring above-mentioned host power supply temperature and being greater than default temperature threshold, reduce the charging current of the current wireless probe charged;

In step C2, a temperature threshold can be preset, when monitoring above-mentioned host power supply temperature and being greater than default temperature threshold, reduce the charging current of the current wireless probe charged, reduce the power source temperature of main frame with this.Further, the temperature threshold that another is higher can also be set, when monitoring above-mentioned host power supply temperature and being greater than this higher temperature threshold, automatically cut off above-mentioned main frame to the charge power supply of each wireless probe, and the prompting message that the power source temperature exporting instruction main frame is too high.Illustrate, suppose that the power work temperature range of above-mentioned main frame is 0 ~ 45 degree, then can set the first temperature threshold is 40 degree, setting the second temperature threshold is 45 degree, when the power source temperature monitoring main frame is at 0 ~ 40 degree, keep charging normal of wireless probe, when monitoring that in charging process, the power source temperature of main frame is elevated between 40 ~ 45 degree, reduce the charging current of the current wireless probe charged (particularly, when can often raise 1 ° at the power source temperature monitoring main frame, send the instruction of once falling charging current, then each wireless probe continues charging after reducing charging current according to the instruction received), when the power source temperature monitoring main frame in charging process is more than 45 degree, then carry out charge protection, namely above-mentioned main frame is automatically cut off to the charge power supply of each wireless probe, and the prompting message that the power source temperature exporting instruction main frame is too high.Above-mentioned charge protection is to protect above-mentioned main frame not cause some components and parts to burn out because temperature is too high, the generation of fire even.

Further, whether the embodiment of the present invention can also have new wireless probe to be positioned in the charging slot of above-mentioned main frame by Real-Time Monitoring, when there being new wireless probe to be positioned in the charging slot of above-mentioned main frame, judge whether the new wireless probe placed belongs to the probe type of this main frame support, if do not belonged to, the information that the new wireless probe placed of instruction does not belong to the probe type that this main frame is supported can be provided, if belonged to, then the mode in step 102 can be adopted to determine the charging priority of the new wireless probe placed.Further, if the new more current wireless probe charged of wireless probe placed has more high charge priority, then automatically reduce the charging current to the current wireless probe charged, separate a part of charging current to new wireless probe charging of placing, ensure that the new wireless probe placed first charges, and can use at any time; If the charging priority of the new more current wireless probe charged of wireless probe placed is low, then the new wireless probe placed is to be charged by the mode etc. of step 103.

Further, whether the embodiment of the present invention can also wireless probe electricity be had to be full of in the current wireless probe charged of Real-Time Monitoring or electricity has reached default high power threshold or left charging slot, if have wireless probe electricity to be full of or electricity has reached default high power threshold or left charging slot, then automatically adjust the charging current of the wireless probe that other is charging, namely redistribute the charging current of the wireless probe that other is charging.

Further, in step 103, the current dump energy of wireless probe being placed on each wireless probe in charging slot or charging can also be shown in real time at the monitoring interface of patient monitor, or, also can show respective dump energy at each wireless probe, be not construed as limiting herein.

It should be noted that, starting to charge to wireless probe, the charging process of this wireless probe terminates being full of at this wireless probe when electricity or electricity reach default high power threshold or be moved out of charging slot.

Therefore, by obtaining the probe information of each wireless probe in charging slot in the present invention, and the charging priority of each wireless probe is determined according to probe information and default charging priority criterion, successively each wireless probe is charged according to charging priority order from high to low, thus achieve the intelligent charge of each wireless probe in charging slot is controlled, monitor complete machine can be avoided to charge to the wireless probe in all charging slots and the safety issue that causes simultaneously, improve the fail safe of wireless probe charging.In addition, on the basis of the embodiment of the present invention, corresponding charging priority criterion can be set in conjunction with actual needs, make Intelligent Recognition can to need the wireless probe (such as the wireless probe of high charge priority) of use recently and preferentially charge to these wireless probes under limited power condition, for clinical monitoring is autotelic ready, can meet better clinical in multiple wireless probe situation about simultaneously using, improve medical care efficiency.

Embodiment two

The embodiment of the present invention provides a kind of wireless probe battery charge controller being applied to patient monitor, and wherein, above-mentioned patient monitor comprises main frame and at least two wireless probes, refers to Fig. 2, and the wireless probe battery charge controller 200 in the embodiment of the present invention, comprising:

Acquiring unit 201, for obtaining the probe information of each wireless probe in the charging slot being placed on above-mentioned main frame;

Priority determining unit 202, for the probe information of each wireless probe above-mentioned that obtains according to acquiring unit 201 and default charging priority criterion, determine the charging priority of each wireless probe above-mentioned, wherein, above-mentioned charging priority criterion is relevant to the probe information of wireless probe;

Charging control unit 203, for the charging priority of each wireless probe above-mentioned determined according to priority determining unit 202, charges to each wireless probe above-mentioned successively according to charging priority order from high to low.

Optionally, above-mentioned probe information comprises following information: probe type; Above-mentioned charging priority criterion is concrete relevant to the probe type of wireless probe; Priority determining unit 202, specifically for according to the probe type of each wireless probe above-mentioned obtained and default charging priority criterion, determines the charging priority of each wireless probe above-mentioned.

Optionally, priority determining unit 202 comprises: patient information acquiring unit, for obtaining the patient information that current and above-mentioned patient monitor is bound; Probe type determining unit, for determining and the probe type that above-mentioned patient information matches; Sub-priority determining unit, for when there is Target Wireless probe in each wireless probe above-mentioned, is defined as most high charge priority by the charging priority that above-mentioned Target Wireless is popped one's head in.Wherein, the probe type of above-mentioned Target Wireless probe and above-mentioned patient information match.Further, priority determining unit 202 also comprises: Tip element, for when do not exist in each wireless probe above-mentioned above-mentioned Target Wireless probe time, prompting user by least one above-mentioned Target Wireless probe placement in the charging slot of above-mentioned main frame.

Optionally, above-mentioned probe information also comprises following information: the kwh loss amount of single charge.Charging control unit 203 specifically for: when charging to all wireless probes of same charging priority, according to the kwh loss amount of the single charge of all wireless probes of above-mentioned same charging priority, for each wireless probe in above-mentioned same charging priority distributes the charging current of corresponding size.Wherein, the size of charging current of distributing for wireless probe becomes positive correlation with the kwh loss amount of the single charge of wireless probe, or, other wireless probe be respectively in the minimum wireless probe of the kwh loss amount of single charge, the maximum wireless probe of kwh loss amount of single charge and same charging priority distributes first order charging current, third level charging current and second level charging current, wherein, above-mentioned first order charging current is less than above-mentioned second level charging current, and above-mentioned second level charging current is less than above-mentioned third level charging current.

Optionally, above-mentioned probe information also comprises following information: total charging times.Charging control unit 203 specifically for: when charging to all wireless probes of same charging priority, according to total charging times of all wireless probes of above-mentioned same charging priority, for each wireless probe in above-mentioned same charging priority distributes the charging current of corresponding size.Wherein, the size of charging current of distributing for wireless probe becomes positive correlation with total charging times of wireless probe, or, other wireless probe be respectively in the maximum wireless probe of the minimum wireless probe of total charging times, total charging times and same charging priority distributes first order charging current, third level charging current and second level charging current, wherein, above-mentioned first order charging current is less than above-mentioned second level charging current, and above-mentioned second level charging current is less than above-mentioned third level charging current.

Optionally, charging control unit 203 also comprises: computing unit, for calculating the size of current that can be used for charging, wherein, the above-mentioned size of current that can be used for charging equals the size of current that above-mentioned main frame available maximum current size deducts the load consumption of above-mentioned main frame; Charging current adjustment unit, for the above-mentioned size of current that can be used for charging calculated according to above-mentioned computing unit, adjust the charging current of the current wireless probe charged, make the charging current summation of the current all wireless probes charged equal the above-mentioned size of current that can be used for charging.

Optionally, charging control unit 203 also comprises: cycle charging detecting unit, for before charging to the wireless probe being polled to charging, detects the above-mentioned wireless probe being polled to charging and whether meets the cycle charging condition preset; First sub-charging control unit, for when above-mentioned cycle charging detecting unit detects that the above-mentioned wireless probe being polled to charging meets default cycle charging condition, the above-mentioned wireless probe being polled to charging is discharged to default minimum power threshold, afterwards the above-mentioned wireless probe being discharged to default minimum power threshold is charged; Second sub-charging control unit, during for detecting that when above-mentioned cycle charging detecting unit the above-mentioned wireless probe being polled to charging does not meet the cycle charging condition preset, charges to the above-mentioned wireless probe being polled to charging.

Optionally, the wireless probe battery charge controller in the embodiment of the present invention also comprises: power source temperature monitoring means, for carrying out Real-Time Monitoring to the power source temperature of above-mentioned main frame; Charging control unit 203 concrete also for: when above-mentioned power source temperature monitoring means monitor above-mentioned host power supply temperature be greater than default temperature threshold time, reduce the charging current of the current wireless probe charged.

It should be noted that, the concrete accessible site of wireless probe battery charge controller in the embodiment of the present invention is in patient monitor, this wireless probe battery charge controller may be used for the whole technical schemes realized in above-described embodiment one, the function of its each functional module can according to the method specific implementation in above-described embodiment one, its specific implementation process can refer to the associated description in above-described embodiment, repeats no more herein.

Therefore, by obtaining the probe information of each wireless probe in charging slot in the present invention, and the charging priority of each wireless probe is determined according to probe information and default charging priority criterion, successively each wireless probe is charged according to charging priority order from high to low, thus achieve the intelligent charge of each wireless probe in charging slot is controlled, monitor complete machine can be avoided to charge to the wireless probe in all charging slots and the safety issue that causes simultaneously, improve the fail safe of wireless probe charging.In addition, on the basis of the embodiment of the present invention, corresponding charging priority criterion can be set in conjunction with actual needs, make Intelligent Recognition can to need the wireless probe (such as the wireless probe of high charge priority) of use recently and preferentially charge to these wireless probes under limited power condition, for clinical monitoring is autotelic ready, can meet better clinical in multiple wireless probe situation about simultaneously using, improve medical care efficiency.

Embodiment three

The embodiment of the present invention provides a kind of patient monitor, and as shown in Figure 3, the patient monitor in the embodiment of the present invention comprises main frame 31 and wireless probe 32.

Main frame 31 comprises: charging priority configuration module 311, AC power supplies detection module 312, power detection module 313, main frame temperature detecting module 314, host data communication module 315, main frame display module 316 and main frame main control module 317.

Wherein, charging priority configuration module 311 for: according to probe information and the default charging priority criterion of all wireless probes in main frame 31 charging slot, determine the charging priority of each wireless probe above-mentioned, wherein, above-mentioned charging priority criterion is relevant to the probe information of wireless probe.

AC power supplies detection module 312 for: host A c-power supply access state is detected, with this detect AC power supplies whether access and the input voltage of AC power supplies whether accurate so as and only when main frame 31 accesses AC power supplies and the input voltage of this AC power supplies is accurate just permission wireless probe is charged.

Power detection module 313 for: the load current of main frame 31 is monitored in real time, and computation host 31 can be used for charge size of current, simultaneously in conjunction with main frame main control module 317 complete each wireless probe charging current distribute.

Main frame temperature detecting module 314 for: carry out Real-Time Monitoring mainly through the power unit internal temperature of temperature sensor to main frame 31, and according to power module temperature, intelligent charge control is carried out to the charging current of the wireless probe of current charging, the power source temperature of main frame is controlled in limited range.When the power source temperature of main frame 31 is higher, provides and fall charging current mark, notify that the wireless probe charged reduces charging current, reduce power supply heating.When the power source temperature of main frame 31 exceeds limiting temperature scope, provide and close charging current mark, main frame main control module 317 cuts off the charge power supply of main frame 31 to each wireless probe when monitoring this mark automatically, and the warning message that the power source temperature providing instruction main frame 31 is too high, show this warning message at main frame display module 316.

Host data communication module 315 for: complete the data communication between main frame 31 and wireless probe 32, receive the state information that wireless probe 32 sends over, the total current information of main frame 31 and the charging priority information of wireless probe 32 are sent to wireless probe 32 simultaneously.

Main frame display module 316 for the display state information of the main frame 31 and state information of wireless probe 32, when the power source temperature of main frame 31 exceeds limiting temperature scope, the warning message that the power source temperature of display instruction main frame 31 is too high; When the battery temperature of wireless probe 32 exceeds limiting temperature scope, the warning message that display instruction wireless probe 32 battery temperature is too high; When wireless probe 32 carries out cycle charging, the cycle charging information of display wireless probe 32.

Main frame main control module 317 respectively with charging priority configuration module 311, AC power supplies module 312, power detection module 313, main frame temperature detecting module 314, host data communication module 315, main frame display module 316 connects, be mainly used in: control charging priority configuration module 311, AC power supplies module 312, power detection module 313, main frame temperature detecting module 314, host data communication module 315 and main frame display module 316 complete charging priority configuration respectively, AC power supplies access state is monitored, bearing power is monitored, power source temperature Real-Time Monitoring, exchanges data between main frame and probe, main machine status information shows, the function of wireless probe state information display.

Wireless probe 32 comprises: charging current charge-variable module 321, cycle charging determination module 322, probe temperature detection module 323, probe data communication module 324, probe display module 325, probe main control module 326.

Charging current charge-variable module 321 for: according to main frame 31 distribute charging current, charge to the internal cell of wireless probe 32, automatically charge mode is adjusted, to adapt to the regulation and control of main frame 32 pairs of charging currents when the charging current that main frame 32 distributes changes.

Cycle charging determination module 322 for: according to charging times to the battery of wireless probe 32 carry out periodic cycle charging judge and management, namely detect wireless probe 32 whether to meet cycle charging condition and (such as detect wireless probe 32 to continue recently how many times and do not carry out cycle charging, and compare with non-cycle charging frequency threshold value, if when the nearest number of times continuing not carry out cycle charging of wireless probe 32 exceedes this non-cycle charging frequency threshold value, judge to meet cycle charging condition), if meet cycle charging condition, deterioration of battery phenomenon then in order to prevent battery from causing because not carrying out cycle charging for a long time, temporarily do not charge, discharge completely until wireless probe 32 and charge again, provide cycle charging information, prompting user current wireless probe 32 carries out cycle charging, if do not meet cycle charging condition, then direct this wireless probe 32 to be charged.

Probe temperature detection module 323 for: in wireless probe 32 charging process, by temperature sensor, Real-Time Monitoring is carried out to the battery temperature of wireless probe 32, when battery temperature exceedes limiting temperature scope, provide and close charging current mark, the charge power supply of automatic Shutdown Hosts 31 pairs of wireless probes 32 when probe main control module 326 monitors this mark, and the warning message that the battery temperature providing instruction wireless probe 32 is too high, show this warning message at wireless probe 32 and main frame 31 simultaneously.

Probe data communication module 324 for: complete the data communication between main frame 31 and wireless probe 32, send the state information of wireless probe 32 to main frame 31, simultaneously the charging priority information of the total current information that sends over of Receiving Host 31 and wireless probe 32.

Probe display module 325: the state information (such as battery level information and charging status information) of display wireless probe 32 in real time.Further, when the battery temperature of wireless probe 32 exceeds limiting temperature scope, the warning message that display indicates the battery temperature of wireless probe 32 too high; When carrying out cycle charging when popping one's head in, display instruction wireless probe 32 just in the information of cycle charging, to carry out cycle charging by this information prompting user current wireless probe 32, advise to be charged saturated after re-use.

Probe main control module 326 respectively with charging current charge-variable module 321, cycle charging determination module 322, probe temperature detection module 323, probe data communication module 324 is connected with probe display module 325, for: control charging current charge-variable module 321, cycle charging determination module 322, probe temperature detection module 323, probe data communication module 324 and probe display module 325 complete probe intelligent charge respectively and control, battery temperature Real-Time Monitoring, the function that between main frame 31 and wireless probe 32, the state information of exchanges data and wireless probe 32 shows.

Concrete, the main frame main control module 317 in the embodiment of the present invention and probe main control module 326 can be built by the programmable microprogramming device of known features.

It should be noted that, Fig. 3 carries out signal explanation with single wireless probe 32, single wireless probe 32 with the connected mode of main frame 31, in fact, patient monitor in the embodiment of the present invention comprises a more than wireless probe, concrete, the structure of other wireless probe of patient monitor and with the connected mode of main frame 31 can with reference in the embodiment of the present invention to the description of wireless probe 32, repeat no more herein.

It should be noted that, in several embodiments that the application provides, should be understood that disclosed apparatus and method can realize by another way.Such as, device embodiment described above is only schematic, such as, the division of said units, be only a kind of logic function to divide, actual can have other dividing mode when realizing, such as multiple unit or assembly can in conjunction with or another system can be integrated into, or some features can be ignored, or do not perform.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of device or unit or communication connection can be electrical, machinery or other form.

For aforesaid each embodiment of the method, in order to easy description, therefore it is all expressed as a series of combination of actions, but those skilled in the art should know, the present invention is not by the restriction of described sequence of movement, because according to the present invention, some step can adopt other order or carry out simultaneously.Secondly, those skilled in the art also should know, the embodiment described in specification all belongs to preferred embodiment, and involved action and module might not be all that the present invention is necessary.

In the above-described embodiments, the description of each embodiment is all emphasized particularly on different fields, in certain embodiment, there is no the part described in detail, can see the associated description of other embodiment.

Be more than to a kind of be applied to the wireless probe charge control method of patient monitor and the description of device provided by the present invention, for one of ordinary skill in the art, according to the thought of the embodiment of the present invention, all will change in specific embodiments and applications, to sum up, this description should not be construed as limitation of the present invention.

Claims (10)

1. be applied to a wireless probe charge control method for patient monitor, described patient monitor comprises main frame and at least two wireless probes, it is characterized in that, described method comprises:

Obtain the probe information of each wireless probe be placed in the charging slot of described main frame;

According to the probe information of each wireless probe and default charging priority criterion described in obtaining, determine the charging priority of each wireless probe described, wherein, described charging priority criterion is relevant to the probe information of wireless probe;

According to the charging priority of each wireless probe described in determining, successively each wireless probe described is charged according to charging priority order from high to low.

2. method according to claim 1, is characterized in that, described probe information comprises following information: probe type; Described charging priority criterion is concrete relevant to the probe type of wireless probe;

The probe information of described each wireless probe according to acquisition and default charging priority criterion, determine the charging priority of each wireless probe described, be specially:

According to the probe type of each wireless probe and default charging priority criterion described in obtaining, determine the charging priority of each wireless probe described.

3. method according to claim 2, is characterized in that, the probe type of described each wireless probe according to acquisition and default charging priority criterion, determines the charging priority of each wireless probe described, comprising:

Obtain the patient information that current and described patient monitor is bound;

Determine and the probe type that described patient information matches;

If there is Target Wireless probe in each wireless probe described, then the charging priority that described Target Wireless is popped one's head in is defined as most high charge priority, wherein, probe type and the described patient information of described Target Wireless probe match.

4. method according to claim 3, is characterized in that, describedly determines and the probe type that described patient information matches, and comprises afterwards:

If do not exist in each wireless probe described described Target Wireless probe, then point out user by Target Wireless probe placement described at least one in the charging slot of described main frame.

5. method according to claim 2, is characterized in that, described probe information also comprises following information: the kwh loss amount of single charge;

The described charging priority according to each wireless probe described in determining, charges to each wireless probe described successively according to charging priority order from high to low, comprising:

When charging to all wireless probes of same charging priority, according to the kwh loss amount of the single charge of all wireless probes of described same charging priority, for each wireless probe in described same charging priority distributes the charging current of corresponding size;

Wherein, the size of charging current of distributing for wireless probe becomes positive correlation with the kwh loss amount of the single charge of wireless probe, or, other wireless probe be respectively in the minimum wireless probe of the kwh loss amount of single charge, the maximum wireless probe of kwh loss amount of single charge and same charging priority distributes first order charging current, third level charging current and second level charging current, wherein, described first order charging current is less than described second level charging current, and described second level charging current is less than described third level charging current.

6. method according to claim 2, is characterized in that, described probe information also comprises following information: total charging times;

The described charging priority according to each wireless probe described in determining, charges to each wireless probe described successively according to charging priority order from high to low, comprising:

When charging to all wireless probes of same charging priority, according to total charging times of all wireless probes of described same charging priority, for each wireless probe in described same charging priority distributes the charging current of corresponding size;

Wherein, the size of charging current of distributing for wireless probe becomes positive correlation with total charging times of wireless probe, or, other wireless probe be respectively in the maximum wireless probe of the minimum wireless probe of total charging times, total charging times and same charging priority distributes first order charging current, third level charging current and second level charging current, wherein, described first order charging current is less than described second level charging current, and described second level charging current is less than described third level charging current.

7. the method according to any one of claim 1 to 6, is characterized in that, the described charging priority according to each wireless probe described in determining, charges successively, comprising according to charging priority order from high to low to each wireless probe described:

Calculate can be used for charge size of current, wherein, described in can be used for charge size of current equal the size of current that described main frame available maximum current size deducts the load consumption of described main frame;

According to the size of current that can be used for described in calculating charging, adjust the charging current of the current wireless probe charged, make the charging current summation of the current all wireless probes charged equal described in can be used for the size of current of charging.

8. the method according to any one of claim 1 to 6, is characterized in that, the described charging priority according to each wireless probe described in determining, charges successively, comprising according to charging priority order from high to low to each wireless probe described:

Before charging to the wireless probe being polled to charging, whether the wireless probe being polled to charging described in detection meets the cycle charging condition preset;

If the wireless probe being polled to charging described in detecting meets default cycle charging condition, then, the described wireless probe being polled to charging is discharged to default minimum power threshold, afterwards the described wireless probe being discharged to default minimum power threshold is charged;

If the wireless probe being polled to charging described in detecting does not meet the cycle charging condition preset, then, the described wireless probe being polled to charging is charged.

9. the method according to any one of claim 1 to 6, is characterized in that, the described charging priority according to each wireless probe described in determining, charges successively, comprising according to charging priority order from high to low to each wireless probe described:

Real-Time Monitoring is carried out to the power source temperature of described main frame;

When monitoring described host power supply temperature and being greater than default temperature threshold, reduce the charging current of the current wireless probe charged.

10. be applied to a wireless probe battery charge controller for patient monitor, described patient monitor comprises main frame and at least two wireless probes, it is characterized in that, described wireless probe battery charge controller comprises:

Acquiring unit, for obtaining the probe information of each wireless probe in the charging slot being placed on described main frame;

Priority determining unit, for probe information and the default charging priority criterion of each wireless probe described in obtaining according to described acquiring unit, determine the charging priority of each wireless probe described, wherein, described charging priority criterion is relevant to the probe information of wireless probe;

Charging control unit, for the charging priority of each wireless probe described in determining according to described priority determining unit, charges to each wireless probe described successively according to charging priority order from high to low.