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CN103919540A - Method and device for automatically dispatching power source of measuring device - Google Patents

Method and device for automatically dispatching power source of measuring device Download PDF

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CN103919540A
CN103919540A CN 201410194119 CN201410194119A CN103919540A CN 103919540 A CN103919540 A CN 103919540A CN 201410194119 CN201410194119 CN 201410194119 CN 201410194119 A CN201410194119 A CN 201410194119A CN 103919540 A CN103919540 A CN 103919540A
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device
measuring
step
measured
parameters
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CN 201410194119
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Chinese (zh)
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徐艳东
吴卫
王俊
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北京睿仁医疗科技有限公司
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Detecting, measuring or recording for diagnostic purposes; Identification of persons
    • A61B5/02Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
    • A61B5/0205Simultaneously evaluating both cardiovascular conditions and different types of body conditions, e.g. heart and respiratory condition
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Detecting, measuring or recording for diagnostic purposes; Identification of persons
    • A61B5/145Measuring characteristics of blood in vivo, e.g. gas concentration, pH value; Measuring characteristics of body fluids or tissues, e.g. interstitial fluid, cerebral tissue
    • A61B5/1455Measuring characteristics of blood in vivo, e.g. gas concentration, pH value; Measuring characteristics of body fluids or tissues, e.g. interstitial fluid, cerebral tissue using optical sensors, e.g. spectral photometrical oximeters

Abstract

The invention discloses a method and device for automatically dispatching a power source of a measuring device. The method for automatically dispatching the power source of the measuring device comprises an obtaining step, a judgment step and an awakening step, wherein in the obtaining step, measured parameters of the measuring device are obtained; in the judgment step, whether the measured parameters meet a first preset condition or not is judged; in the awakening step, when the measured parameters meet the first preset condition, the measuring device is awakened. Change of the measured parameters can be detected in real time. When the measured parameters meet the first preset condition, the measuring device is automatically awakened, so that a switch key does not need to be arranged on the measuring device, a user does not need to additionally operate the switch key, the device is used as soon as the device is supplied, operation steps of the user are simplified, user experience is improved, the sealing and waterproof functions of a shell of the measuring device are achieved easily, and disinfection treatment conducted before the user uses the device is facilitated.

Description

一种能够自动调度测量设备电源的方法及设备 Automatic scheduling apparatus capable of measuring method and apparatus for power

技术领域 FIELD

[0001] 本发明属于测量技术领域,特别涉及一种能够自动调度测量设备电源的方法及设备。 [0001] The present invention belongs to the technical field of measuring, particularly, to a power measurement apparatus capable of automatically scheduling method and apparatus.

背景技术 Background technique

[0002]目前,电子医疗器械(例如片式的电子体温计)由于便于携带、具有更好的环保性能等优点,广泛应用于医用领域。 [0002] Currently, electronic medical devices (e.g. chip-type electronic thermometer) due portable, having a better environmental performance, etc., is widely used in the medical field. 但现有的电子体温计上一般设置有开关按键,测温前,需要先操作开关按键,以启动该电子体温计。 However, the conventional electronic clinical thermometer is generally provided with a switch button, before the temperature measurement, the need to switch the operation button to start the electronic thermometer. 该操作不仅增加了用户的操作步骤,降低了用户体验;而且,由于开关按键的设置,导致壳体难以做到密封防水,致使电子体温计不方便在多人之间使用前的消毒处理。 This operation not only increases the user's operation steps, reduces the user experience; Further, since the switch button is provided, resulting in a waterproof sealed housing is difficult to achieve, so that the electronic thermometer is inconvenient to use prior to disinfection between people.

发明内容 SUMMARY

[0003] 为此,本发明提出了一种可以解决上述问题的或至少能部分解决上述问题的一种能够自动调度测量设备电源的方法及设备。 [0003] To this end, the present invention proposes or one at least partially solve the above problems which can solve the above problems can be automatically scheduled power measuring apparatus method and apparatus.

[0004] 一个方面,本发明提出了一种能够自动调度测量设备电源的方法,包括如下步骤: [0004] In one aspect, the present invention provides a power measurement apparatus capable of automatically scheduling method, comprising the steps of:

[0005] 获取步骤,获取测量设备测量的被测参数,其中,所述被测参数包括至少一种主参数和\或至少一种副参数; [0005] acquiring step of acquiring the measured parameters measured by the measuring device, wherein the measured parameter comprises at least one primary parameter, and \ or at least one secondary parameter;

[0006] 判断步骤,判断所述被测参数是否满足第一预设条件; [0006] determination step of determining whether the measured first parameters preset condition is satisfied;

[0007] 唤醒步骤,在所述被测参数满足所述第一预设条件时,唤醒所述测量设备。 [0007] Wake-up step, the measured parameter meets a first preset condition, the wake-up measuring device.

[0008] 进一步地,上述自动调度测量设备电源的方法中,判断所述被测参数是否满足第一预设条件的方法至少包括下述一种: [0008] Further, the automatic power supply scheduling method of measuring apparatus, it is determined whether the measured first parameter satisfies a preset condition comprises at least the following method of one of:

[0009] 当获取的所述主参数大于等于第一预设值时,确定所述被测参数满足所述第一预设条件; [0009] When obtaining the primary parameter is greater than equal to a first predetermined value, said measured parameter is determined to satisfy the first predetermined condition;

[0010] 当获取的所述副参数大于等于第二预设值时,确定所述被测参数满足所述第一预设条件; [0010] When the sub-parameter acquisition equal to a second predetermined value greater than, the determination of the measured parameter meets a first preset condition;

[0011] 当获取的所述主参数小于等于第三预设值时,确定所述被测参数满足所述第一预设条件; [0011] When obtaining the primary parameter equal to the third predetermined value is less than, the determination of the measured parameter meets a first preset condition;

[0012] 当获取的所述副参数小于等于第四预设值时,确定所述被测参数满足所述第一预设条件; [0012] When the acquired parameter sub fourth predetermined value or less, the determination of the measured parameter meets a first preset condition;

[0013] 当获取的所述主参数大于等于第五预设值并且小于等于第六预设值时,确定所述被测参数满足所述第一预设条件; [0013] When acquiring the main parameter equal to the fifth predetermined value is greater than and less than equal to the sixth predetermined value, the determining the measured parameter meets a first preset condition;

[0014] 当获取的所述副参数大于等于第七预设值并且小于等于第八预设值时,确定所述被测参数满足所述第一预设条件; [0014] When the acquired parameter sub-than or equal to a preset value and smaller than a seventh predetermined value is equal to the eighth, the determination of the measured parameter meets a first preset condition;

[0015] 获取M个主参数均值与M个副参数均值的第一差值的绝对值,其中,所述M为正整数,当所述第一差值绝对值大于等于第九预设值并且小于等于第十预设值时,确定所述被测参数满足所述第一预设条件; [0015] M master takes the absolute value parameter means the M sub-parameter means a first difference values, wherein said M is a positive integer, when the first difference absolute value is greater than a ninth predetermined value, and is equal to It is less than equal to a tenth predetermined value, the determination of the measured parameter meets a first preset condition;

[0016] 当所述第一差值绝对值大于等于第十一预设值时,确定所述被测参数满足所述第一预设条件; [0016] When the first difference absolute value greater than or equal to the eleventh predetermined value, the determination of the measured parameter meets a first preset condition;

[0017] 当获取间隔tl时间长两次检测的所述被测参数的差值大于等于第十二预设值且小于等于第十三预设值时,确定所述被测参数满足所述第一预设条件; When [0017] When the acquisition interval tl longer detected two measured parameters of the difference is greater than a twelfth predetermined value equal to or less thirteenth preset value, determining the measured parameter meets the second a preset condition;

[0018] 当获取间隔t2时间长两次检测的所述被测参数的差值绝对值大于等于第十四预设值时,确定所述被测参数满足所述第一预设条件; [0019] 当获取间隔t3时间长两次检测的连续滑动窗口的所述被测参数的均值的差值大于等于第十五预设值且小于等于第十六预设值时,确定所述被测参数满足所述第一预设条件; [0018] When acquiring the parameter measured twice a longer time interval t2 detected absolute value of the difference is greater than a preset value equal to the fourteenth, the determination of the measured parameter meets a first preset condition; [0019 ] when acquiring the average value of the measured parameter long time interval t3 two successive sliding window detected difference exceeds a predetermined value equal to the fifteenth and sixteenth predetermined value or less, the measured parameter is determined satisfies the first predetermined condition;

[0020] 当获取间隔t4时间长两次检测的连续滑动窗口的所述被测参数的均值的差值大于等于第十七预设值时,确定所述被测参数满足所述第一预设条件; [0020] When acquiring the average value of the measured parameter long time interval t4 two successive sliding window detected difference exceeds a predetermined value equal to a seventeenth, said measured parameter is determined to satisfy the first predetermined condition;

[0021] 当获取的t5时间内所述被测参数的均值与获取的当前所述被测参数的差值绝对值大于等于第十八预设值时,确定所述被测参数满足所述第一预设条件; [0021] When the measured parameters of the acquired time t5 the current difference between the mean of the acquired measured parameter absolute value greater than a preset value equal to an eighteenth determining the measured parameter meets the second a preset condition;

[0022] 当获取的t6时间内所述被测参数的均值与获取的当前所述被测参数的差值大于等于第十九预设值且小于等于第二十预设值时,确定所述被测参数满足所述第一预设条件; When [0022] When the mean value of the measured parameter acquisition time t6 and the acquired current equal to the difference of the measured parameter is greater than the preset value or less nineteenth twenty preset value, determining the the measured parameter meets a first preset condition;

[0023] 以下列方式获取第二差值JK1VAK2V^MKnVn-Vlrt] [0023] obtaining a second difference JK1VAK2V ^ MKnVn-Vlrt] in the following manner

[0024] 其中,V1到Vn+1为连续的n+1个连续的被测参数值,ne [1,512], [0024] wherein, V1 to Vn 1 to n + 1 consecutive measured parameter value + continuous, ne [1,512],

[0025] K1到Kn为系数值,K^K2+-+Kn = 1,其中Ki值为非负数, [0025] K1 to Kn for the coefficient value, K ^ K2 + - + Kn = 1, where Ki value of non-negative,

[0026]当所述第二差值的绝对值大于等于第二十一预设值时,确定所述被测参数满足所述第一预设条件;以及 [0026] When the absolute value of the difference is greater than a second predetermined value equal to twenty-first, the determination of the measured parameter meets a first preset condition; and

[0027] 当所述第二差值大于等于第二十二预设值且小于等于第二十三预设值时,确定所述被测参数满足所述第一预设条件。 [0027] When the difference is larger than said second predetermined value is equal to a twenty-second and twenty-third predetermined value or less, the determination of the measured parameter meets a first preset condition.

[0028] 进一步地,上述自动调度测量设备电源的方法中,所述唤醒步骤之后还包括:深度休眠步骤,当获取的所述被测参数满足所述第二预设条件时,所述测量设备进入休眠状态或延时进入休眠状态。 [0028] Further, the automatic power supply scheduling method measuring apparatus, after the wake-up step further comprises: Deep Sleep step of, when acquiring the measured parameter meets a second preset condition, the measuring device go to sleep or into hibernation delay.

[0029] 进一步地,上述自动调度测量设备电源的方法中,确定所述被测参数满足所述第二预设条件的方法至少包括下述一种: [0029] Further, the automatic power supply scheduling method of measuring apparatus, determining the measured parameter meets a second preset condition comprises at least one kind of the following:

[0030] 当获取的t7时间长内的所述被测参数的均值小于等于第二十四预设值时,确定所述被测参数满足所述第二预设条件; [0030] When the average value of the measured parameter within a long acquisition time t7 twenty fourth predetermined value or less, the determination of the measured parameter meets a second preset condition;

[0031] 当获取的t8内的所述被测参数的均值大于等于第二十五预设值时,确定所述被测参数满足所述第二预设条件;以及 When [0031] When the mean value of the measured parameter within t8 obtain greater than or equal twenty-fifth predetermined value, determining the measured parameter meets a second preset condition; and

[0032]当获取的t9内的所述被测参数的均值大于等于第二十六预设值且小于等于第二十七预设值时,确定所述被测参数满足所述第二预设条件。 When [0032] When the mean value of the measured parameter within t9 acquired predetermined value greater than or equal twenty sixth and twenty seventh predetermined value or less, determining said measured parameter meets the second predetermined condition.

[0033] 进一步地,上述自动调度测量设备电源的方法中,所述唤醒步骤后和所述深度休眠步骤之间还包括: After [0033] Furthermore, the automatic measuring apparatus power scheduling method, the wake-up step, and between the deep sleep further comprising the step of:

[0034] 确定所述测量设备的使用状态,所述使用状态包括佩戴状态和取下状态; [0034] The measurement used to determine the state of the device, the usage state and removal state comprises a wearing state;

[0035] 所述测量设备处于佩戴状态时,进行佩戴警示,并保持所述测量设备处于唤醒状态;所述测量设备处于取下状态时,进行取下警示,并使所述测量设备进入休眠状态。 [0035] The measurement device is worn state, a warning is worn, and holds the measuring device in an awake state; the state measurement apparatus is removed, a warning is removed, and the measuring device into hibernation .

[0036] 进一步地,上述自动调度测量设备电源的方法中,确定所述测量设备处于取下状态的方法至少包括下述一种: [0036] Further, the automatic power supply scheduling method measuring apparatus, measurement method of determining the state of the device is removed comprises at least one kind of the following:

[0037] 当获取的被测参数的当前值与til时间前的测量值的差值大于等于第二十八预设值,确定所述测量设备处于取下状态; [0037] When the difference between the measured value before the current value of the measured parameter acquired til time greater than or equal twenty-eighth predetermined value, determining that the measuring device is removed state;

[0038] 当获取的被测参数的当前值与tl2时间前的测量值的差值小于等于第二十九预设值,确定所述测量设备处于取下状态; [0038] When the difference between the measured current value and the value before the time is less than equal to twenty-ninth tl2 predetermined value of the measured parameter acquired, determining the measuring device is removed state;

[0039] 当获取的tl3时间内的所述被测参数小于第三十预设值并且所述tl3时间之前的所述被测参数曾经大于第三十一预设值时,确定所述测量设备处于取下状态;以及 [0039] When the measured parameters obtained in the time tl3 less than thirty preset value and the measured parameters before the time was greater than thirty tl3 preset value, determining the measuring device is removed state;

[0040] 当获取的tl4时间内的所述被测参数大于第三十二预设值并且所述tl4时间之前的所述被测参数曾经小于第三十三预设值时,确定所述测量设备处于取下状态。 [0040] When the measured parameters obtained in the time tl4 is greater than thirty second predetermined value and the measured parameters before the time tl4 was less than thirty-third predetermined value, the measurement is determined state the device is removed.

[0041] 进一步地,上述自动调度测量设备电源的方法中,确定所述测量设备处于佩戴状态的方法至少包括下述一种: [0041] Further, the automatic power supply scheduling method of measuring apparatus, determining the measurement device is worn state comprises at least one kind of the following:

[0042] 当获取的被测参数满足第一预设条件时,确定所述测量设备处于佩戴状态;以及 [0042] When the measured parameter meets a first preset condition is acquired, the measurement device is determining wearing state;

[0043] 当所述测量设备不满足取下状态条件时,确定所述测量设备处于佩戴状态。 [0043] When the measuring device is removed does not satisfy the state condition, the measurement device is determining wearing state.

[0044] 进一步地,上述自动调度测量设备电源的方法中,所述判断步骤之后还包括: [0044] Further, after the automatic scheduling method of power measuring device, said determining step further comprises:

[0045] 判断执行步骤,当获取的tl5时间内的所述被测参数的均值与当前检测的所述被测参数的差值绝对值大于等于第三十四预设值时,确定所述测量设备执行了唤醒操作或深度休眠操作。 [0045] The determination step, when the difference between the mean value of the current detected in the measured parameters of the acquired time tl5 measured parameters than or equal to the absolute value of the thirty-fourth predetermined value, determining that the measurement equipment to perform operations or deep sleep wake-up operation.

[0046] 进一步地,上述自动调度测量设备电源的方法中,所述唤醒步骤之后还包括: [0046] Further, the automatic power supply scheduling method measuring apparatus, after the wake-up step further comprises:

[0047] 发射步骤,发射广播信号,所述广播信号包括所述被测参数。 [0047] The transmitting step, transmitting a broadcast signal, the broadcast signal comprising the measured parameter.

[0048] 本发明可以实时地检测被测参数的变化,当被测参数满足第一预设条件时,自动唤醒该测量设备,使该测量设备上不需要设置开关按键,进而使用户不需要执行额外的开关按键的操作,实现了即带即用,简化了用户的操作步骤,提高了用户体验。 [0048] The present invention can detect changes in the measured parameters in real time, when the measured parameter meets a first preset condition, the measuring device automatically wake up the switch button need not be provided on the measuring device, thereby enabling the user need not perform additional switch button operation, i.e., to achieve a band that is used to simplify the user's steps, improving the user experience. 另外,由于测量设备的壳体上不需要设置开关按键,所以使测量设备更容易做到壳体的密封防水,方便用户使用前的消毒处理。 Further, since no switch button disposed on the housing of the measuring device, so the measuring apparatus easier to do waterproof seal housing, to facilitate the user prior to disinfection.

[0049] 另一方面,本发明还提出了一种能够自动调度电源的测量设备,该设备包括:片状壳体、设置于所述片状壳体上的第一传感器、设置于所述片状壳体内的判断器和唤醒器;其中,所述判断器与所述第一传感器电连接,所述判断器用于接收所述第一传感器采集的被测参数,并判断所采集的被测参数是否满足第一预设条件;所述唤醒器与所述判断器电连接,所述唤醒器用于在所述被测参数满足所述第一预设条件时,唤醒所述测量设备。 [0049] another aspect, the present invention also provides an automatically scheduled power measuring apparatus, the apparatus comprising: a sheet-like housing, a first sensor disposed on said sheet-like housing provided on the sheet Analyzing and wake-up within the tubular housing; wherein said determination is electrically connected with the first sensor, a determination for receiving said measured first parameter collected by the sensor, and determines whether the measured parameters of the acquired meets a first preset condition; the wakeup is connected electrically with the determination, the wake-up for the measured parameter meets a first preset condition, the wake-up measuring device.

[0050] 进一步地,上述能够自动调度电源的测量设备,还包括:与所述判断器电连接的第二传感器,所述第二传感器用于采集所述测量设备所处环境的环境参数,并且,所述第一传感器和所述第二传感器分别设置于所述片状壳体相对的两个壁面。 [0050] Further, the measuring apparatus can be automatically scheduled power, further comprising: a second sensor electrically connected with the determination of the second sensor for acquiring the environmental parameter of the environment of the measuring device, and the first sensor and the second sensor are respectively disposed at two opposite wall surfaces of said sheet-like housing.

[0051] 进一步地,上述能够自动调度电源的测量设备,还包括:与所述判断器电连接的深度休眠器,所述深度休眠器用于当所述被测参数满足所述第二预设条件时,使所述测量设备处于深度休眠状态。 [0051] Further, the measuring apparatus can be automatically scheduled power, further comprising: Deep Sleep connected electrically with the determination, and for the deep sleep when the measured parameter meets a second preset condition when the measuring device is in the deep sleep state.

[0052] 进一步地,上述能够自动调度电源的测量设备,还包括:与所述唤醒器电连接的发射器,所述发射器用于发射广播信号,所述广播信号包括所述被测参数。 [0052] Further, the measuring apparatus can be automatically scheduled power, further comprising: the wakeup emitter electrically connected to the transmitter for transmitting a broadcast signal, the broadcast signal comprising the measured parameter. [0053] 本发明可以实时地检测被测参数的变化,当被测参数满足第一预设条件时,自动唤醒该测量设备,使该测量设备上不需要设置开关按键,进而使用户不需要执行额外的开关按键的操作,实现了即带即用,简化了用户的操作步骤,提高了用户体验。 [0053] The present invention can detect changes in the measured parameters in real time, when the measured parameter meets a first preset condition, the measuring device automatically wake up the switch button need not be provided on the measuring device, thereby enabling the user need not perform additional switch button operation, i.e., to achieve a band that is used to simplify the user's steps, improving the user experience. 另外,由于测量设备的壳体上不需要设置开关按键,所以使测量设备更容易做到壳体的密封防水,方便用户使用前的消毒处理。 Further, since no switch button disposed on the housing of the measuring device, so the measuring apparatus easier to do waterproof seal housing, to facilitate the user prior to disinfection.

附图说明 BRIEF DESCRIPTION

[0054] 通过阅读下文优选实施方式的详细描述,各种其他的优点和益处对于本领域普通技术人员将变得清楚明了。 [0054] By reading the following detailed description of preferred embodiments Hereinafter, a variety of other advantages and benefits to those of ordinary skill in the art will become apparent. 附图仅用于示出优选实施方式的目的,而并不认为是对本发明的限制。 The drawings are only for purposes of illustrating a preferred embodiment and are not to be considered limiting of the present invention. 而且在整个附图中,用相同的参考符号表示相同的部件。 But throughout the drawings, like parts with the same reference symbols. 其中在附图中,参考数字之后的字母标记指示多个相同的部件,当泛指这些部件时,将省略其最后的字母标记。 In the drawings wherein, after lettered reference numerals refer to the same plurality of members, when these components refers, which will mark the last letter is omitted. 在附图中: In the drawings:

[0055] 图1示出了本发明中能够自动调度测量设备电源的方法实施例的流程图; [0055] FIG. 1 shows a method of the present invention capable of automatically measuring device power scheduling flow diagram of embodiments;

[0056] 图2示出了本发明中能够自动调度测量设备电源的方法实施例的又一流程图 [0056] FIG. 2 shows a method of the present invention, the power measuring apparatus can be automatically scheduled to yet another flowchart of an embodiment

[0057] 图3示出了本发明中能够自动调度测量设备电源的方法实施例的又一流程图 [0057] FIG. 3 shows a further flowchart of an embodiment of apparatus capable of measuring the power of the automatic scheduling process of the invention

[0058] 图4示出了本发明能够自动调度测量设备电源的方法实施例中,确定测量设备是否满足唤醒条件的流程图; [0058] FIG. 4 shows the present invention is capable of automatically scheduling method of power measurement apparatus embodiments, wake-up condition determination flowchart showing the measuring device is satisfied;

[0059] 图5示出了本发明能够自动调度测量设备电源的方法实施例中,确定测量设备是否满足深度休眠条件的流程图; [0060] 图6示出了本发明能够自动调度测量设备电源的方法实施例中,确定测量设备是否处于取下状态的流程图; [0059] FIG. 5 illustrates the present invention is capable of automatically scheduling method of power measurement apparatus embodiment, a flowchart of determining the depth of sleep condition measuring apparatus meets; [0060] FIG. 6 illustrates the present invention can automatically schedule the power measurement device the embodiments of the method, it is determined whether the device is a flowchart of a measurement removed state;

[0061] 图7示出了本发明能够自动调度测量设备电源的方法实施例中,确定测量设备是否进行了唤醒操作和深度休眠操作的流程图; [0061] FIG. 7 shows the present invention is capable of automatically scheduling power measuring apparatus embodiment of the method, it is determined whether the measurement device and a deep sleep wakeup operation flowchart of the operation;

[0062] 图8为本发明中能够自动调度电源的测量设备的优选实施例的结构示意图; [0062] FIG. 8 is a schematic structural diagram of an embodiment of the measuring apparatus of the invention, the power can be automatically scheduled preferred;

[0063] 图9为本发明中能够自动调度电源的测量设备的优选实施例中,第一温度传感器和第二温度传感器的安装位置示意图; [0063] FIG. 9 of the present invention is capable of automatically scheduling embodiment, the mounting position of the first temperature sensor and the second temperature sensor is a schematic view of the power measuring apparatus of a preferred embodiment;

[0064] 图10为本发明中能够自动调度电源的测量设备的优选实施例的结构框图。 [0064] FIG. 10 is a schematic structural diagram of an embodiment of the invention, the power supply apparatus capable of automatically scheduling measure is preferably. 具体实施方式 detailed description

[0065] 本发明提供了许多可应用的创造性概念,该创造性概念可大量的体现于具体的上下文中。 [0065] The present invention provides many applicable inventive concepts, the inventive concept can be embodied in a large number of specific contexts. 在下述本发明的实施方式中描述的具体的实施例仅作为本发明的具体实现方式的示例性说明,而不构成对本发明范围的限制。 Specific embodiments described in the following embodiments of the present invention, only as a specific embodiment of the present invention is implemented illustrative, and not to limit the scope of the present invention.

[0066] 方法实施例: Example [0066] Method:

[0067] 参见图1,图1为本发明中的能够自动调度测量设备电源的方法实施例的流程图。 [0067] Referring to Figure 1, a flowchart of an embodiment of the present invention is capable of automatically scheduling method of power measurement apparatus embodiment of FIG. 如图所示,该方法包括如下步骤:获取步骤Si,获取测量设备测量的被测参数其中,所述被测参数包括至少一种主参数和\或至少一种副参数;其中,测量设备可以是血压计、体温计、血氧计等医用设备,对应地,被测参数的主参数或副参数可以是患者的体温、血压、血氧等病理参数;判断步骤S2,判断获取的被测参数是否满足第一预设条件;唤醒步骤S3,在被测参数满足第一预设条件时,唤醒该测量设备。 As shown, the method comprising the steps of: obtaining step Si, wherein obtaining the measured parameters measured by the measuring device, the measured parameter comprises at least one primary parameter, and \ or at least one secondary parameter; wherein the measuring device may a blood pressure monitor, thermometer, oximeter and other medical equipment, correspondingly, the main parameter or sub-parameter may be measured parameter pathological parameters temperature, blood pressure, blood oxygen, etc. of the patient; determining step S2, it is determined whether the acquired measured parameters meets a first preset condition; wake-up step S3, the measured parameter meets a first preset condition, the wake-up measuring device. [0068] 本实施例中,当测量设备没有被使用时,该测量设备处于深度休眠状态,此时,该测量设备处于节电模式,在该模式下,实时地获取测量设备上的传感器获取的被测参数;当被测参数满足第一预设条件时,认为该测量设备此时已经处于使用状态,唤醒该测量设备,使该测量设备开始进行测量等工作。 [0068] In this embodiment, when the measurement device is not used, the measuring device in a deep sleep state, this time, the measuring device in the power saving mode, in this mode, acquired in real time on the sensor of the measuring device to obtain measured parameter; when the measured parameter meets a first preset condition, the measuring device that is already in use at this time, the measuring device wake up, so that the measurement apparatus starts measurement work.

[0069] 本实施例中,唤醒该测量设备是指唤醒处于深度休眠中的测量设备,以使该测量设备由节电模式转为工作模式。 [0069] In this example embodiment, the measuring device wake up in a deep sleep wakeup means of the measuring device, so that the measuring apparatus into the power saving mode by the operating mode.

[0070] 需要说明的是,对于不同的被测参数,可以设置不同的第一预设条件;即使对于同一个被测参数,第一预设条件也会有不同的设置方式,本发明对第一预设条件的具体设置方法及形式不做任何限定。 [0070] Incidentally, for the different measured parameters, may be provided different first preset condition; even for the same measured parameter, the first preset condition will have a different arrangement, the present invention is the first the method and form of a particular set of predetermined conditions is not limited in any way.

[0071] 本发明实施例可以实时地检测被测参数的变化,当被测参数满足第一预设条件时,自动唤醒该测量设备,使该测量设备上不需要设置开关按键,进而使用户不需要执行额外的开关按键的操作,实现了即带即用,简化了用户的操作步骤,提高了用户体验。 [0071] Example embodiments of the present invention can detect a change in the parameters measured in real time, when the measured parameter meets a first preset condition, the measuring device automatically wake up, so that the measuring device need not be provided on switch button, thereby enabling the user does not additional switches need to perform the operation key, i.e., to achieve a band that is used to simplify the user's steps, improving the user experience. 另外,由于测量设备的壳体上不需要设置开关按键,所以使测量设备更容易做到壳体的密封防水,方便用户使用前的消毒处理。 Further, since no switch button disposed on the housing of the measuring device, so the measuring apparatus easier to do waterproof seal housing, to facilitate the user prior to disinfection.

[0072] 优选的,参见图4,对于电子体温计、血压计或血氧计等电子设备,判断所述被测参数是否满足第一预设条件的方法至少包括下述一种: [0072] Preferably, see FIG. 4, for an electronic thermometer, a sphygmomanometer, or the oximeter and other electronic equipment, it is determined whether a first predetermined condition of said measured parameter satisfies a process comprising at least one of:

[0073] 当获取的所述主参数大于等于第一预设值时,确定所述被测参数满足所述第一预设条件。 [0073] When obtaining the primary parameter is greater than equal to a first predetermined value, said measured parameter is determined to satisfy the first predetermined condition. 例如,电子体温计的主参数为温度传感器的测量值,具体实施时,第一预设值的取值范围为[20°C,40°C ],如果是血压计,主参数可选用MCU端口的一个波形的频率计数值等作为主参数。 For example, the main parameters of the electronic thermometer to measure the temperature sensor, the specific embodiment, the first preset value in the range of [20 ° C, 40 ° C], if the sphygmomanometer, the main parameters of the selected MCU port frequency count value of a waveform and the like as a main parameter.

[0074] 当获取的所述副参数大于等于第二预设值时,确定所述被测参数满足所述第一预设条件。 [0074] When the sub-parameter acquisition equal to a second predetermined value greater than, the determination of the measured parameter meets a first preset condition. 例如,具体到体温计时,副参数为一个温度传感器的测量值,第二预设值的取值范围可选择为[20°C,40°C ]。 For example, when the specific thermometer, a secondary parameter is the measured value of the temperature sensor, the range of the second predetermined value may be selected to [20 ° C, 40 ° C].

[0075] 当获取的所述主参数小于等于第三预设值时,确定所述被测参数满足所述第一预设条件。 [0075] When obtaining the primary parameter equal to the third predetermined value is less than, the determination of the measured parameter meets a first preset condition. 例如,具体到体温计时,第三预设值的取值范围可选择为小于-50摄氏度。 For example, particularly when the thermometer, the third predetermined value is in the range of less than -50 degrees Celsius selectable.

[0076] 当获取的所述副参数小于等于第四预设值时,确定所述被测参数满足所述第一预设条件。 [0076] When the acquired parameter sub fourth predetermined value or less, the determination of the measured parameter meets a first preset condition. 例如,具体到体温计时,第四预设值的取值范围可选择为小于-50摄氏度。 For example, the thermometer Specifically, the fourth range may be selected to a preset value less than -50 degrees Celsius.

[0077] 当获取的所述主参数大于等于第五预设值并且小于等于第六预设值时,确定所述被测参数满足所述第一预设条件。 [0077] When acquiring the main parameter equal to the fifth predetermined value is greater than and less than equal to the sixth predetermined value when said measured parameter is determined to satisfy the first predetermined condition. 例如,具体到体温计时,第六预设值的取值范围可选择为小于零摄氏度且第五预设值小于第六预设值。 For example, the thermometer Specifically, the sixth predetermined value range is selected to less than zero degrees and less than a fifth predetermined value of a sixth predetermined value.

[0078] 当获取的所述副参数大于等于第七预设值并且小于等于第八预设值时,确定所述被测参数满足所述第一预设条件。 [0078] When the sub-parameter acquiring a seventh preset value is greater than or equal to, and including an eighth predetermined value, said measured parameter is determined to satisfy the first predetermined condition. 例如,具体到体温计时,第八预设值的取值范围可选择为小于零摄氏度且第七预设值小于第八预设值。 For example, the thermometer Specifically, the eighth predetermined value range is selected to less than zero degrees and less than an eighth predetermined value preset seventh value.

[0079] 获取M个主参数均值与M个副参数均值的第一差值绝对值,其中,所述M为正整数,当所述第一差值绝对值大于等于第九预设值并且小于等于第十预设值时,确定所述被测参数满足所述第一预设条件。 [0079] obtaining a first difference absolute value and the mean M master M secondary parameters mean parameters, wherein said M is a positive integer which is greater than or equal to the first difference absolute value is smaller than a ninth predetermined value, and is equal to a tenth predetermined value, said measured parameter is determined to satisfy the first predetermined condition. 例如,具体到体温计时,第十预设值的取值范围可选择为小于-5摄氏度且第九预设值小于第十预设值。 For example, the thermometer Specifically, the tenth predetermined value in the range of less than -5 ° C is selected to the ninth and tenth predetermined value smaller than the predetermined value.

[0080] 当所述第一差值绝对值大于等于第十一预设值时,确定所述被测参数满足所述第一预设条件。 [0080] When the first difference absolute value greater than or equal to the eleventh predetermined value, said measured parameter is determined to satisfy the first predetermined condition. 例如,具体到体温计时,第十一预设值的取值范围可选择为[0,10°C]。 For example, particularly when the thermometer is in the range eleventh predetermined value may be selected to [0,10 ° C]. [0081] 当获取间隔tl时间长两次检测的所述被测参数的差值大于等于第十二预设值且小于等于第十三预设值时,确定所述被测参数满足所述第一预设条件。 When [0081] When the acquisition interval tl longer detected two measured parameters of the difference is greater than a twelfth predetermined value equal to or less thirteenth preset value, determining the measured parameter meets the second a preset condition. 例如,具体到体温计时,tl的取值范围为[0,120s],第十二预设值大于-50摄氏度,第十三预设值大于第十二预设值且小于-25摄氏度。 For example, particularly when the thermometer is in the range of tl [0,120s], a twelfth predetermined value is greater than -50 degrees Celsius, is greater than the predetermined value thirteenth twelfth predetermined value and less than -25 degrees Celsius.

[0082] 当获取间隔t2时间长两次检测的所述被测参数的差值绝对值大于等于第十四预设值时,确定所述被测参数满足所述第一预设条件。 [0082] When acquiring the parameter measured twice a longer time interval t2 detected absolute value of the difference is greater than a preset value equal to the fourteenth, the determination of the measured parameter meets a first preset condition. 例如,具体到体温计时,t2的取值范围为[0,120s],第十四预设值取值范围为[0,IO0C J0 For example, particularly when the thermometer is in the range t2 [0,120s], fourteenth preset value in the range [0, IO0C J0

[0083] 当获取间隔t3时间长两次检测的连续滑动窗口的所述被测参数的均值的差值大于等于第十五预设值且小于等于第十六预设值时,确定所述被测参数满足所述第一预设条件。 When [0083] the average of the measured parameters when acquiring a long time interval t3 two successive sliding window detected difference exceeds a predetermined value equal to a fifteenth sixteenth predetermined value or less, a determination is the measured parameter meets a first preset condition. 例如,具体到体温计时,t3的取值范围为[0,120s],第十五、十六预设值取值范围为[-50 0C ,-25 0C ]。 For example, particularly when the thermometer is in the range t3 [0,120s], fifteenth, sixteenth preset values ​​in the range [-50 0C, -25 0C].

[0084] 当获取间隔t4时间长两次检测的连续滑动窗口的所述被测参数的均值的差值大于等于第十七预设值时,确定所述被测参数满足所述第一预设条件。 [0084] When acquiring the average value of the measured parameter long time interval t4 two successive sliding window detected difference exceeds a predetermined value equal to a seventeenth, said measured parameter is determined to satisfy the first predetermined condition. 例如,具体到体温计时,t4的取值范围为[0,120s],第十七预设值取值范围为[0°C,IO0C ] ο For example, particularly when the thermometer is in the range t4 [0,120s], the range of the preset value seventeenth [0 ° C, IO0C] ο

[0085] 当获取的t5时间内所述被测参数的均值与获取的当前所述被测参数的差值绝对值大于等于第十八预设值时,确定所述被测参数满足所述第一预设条件。 [0085] When the measured parameters of the acquired time t5 the current difference between the mean of the acquired measured parameter absolute value greater than a preset value equal to an eighteenth determining the measured parameter meets the second a preset condition. 例如,具体到体温计时,t5的取值范围为[0,500s],第十八预设值取值范围为[0,IO0C J0 For example, particularly when the thermometer is in the range of t5 [0,500s], eighteenth preset value in the range [0, IO0C J0

[0086] 当获取的t6时间内所述被测参数的均值与获取的当前所述被测参数的差值大于等于第十九预设值且小于等于第二十预设值时,确定所述被测参数满足所述第一预设条件。 When [0086] When the mean value of the measured parameter acquisition time t6 and the acquired current equal to the difference of the measured parameter is greater than the preset value or less nineteenth twenty preset value, determining the the measured parameter meets a first preset condition. 例如,具体到体温计时,t6的取值范围为[0,500s],第十九、第二十预设值取值范围为小于零度,且第十九预设值小于等于第二十预设值。 For example, particularly when the thermometer is in the range t6 [0,500s], nineteenth, twenty preset value in the range of less than zero degrees and less than or equal twenty nineteenth predetermined preset value value.

[0087] 当以下列方式获取第二差值的绝对值:[K1VfK2V2+- +KnVn-Vn+1] [0087] When obtaining the second difference absolute values ​​in the following manner: [K1VfK2V2 + - + KnVn-Vn + 1]

[0088] 其中,V1到Vn+1为连续的n+1个连续的被测参数值,ne [1,512], [0088] wherein, V1 to Vn 1 to n + 1 consecutive measured parameter value + continuous, ne [1,512],

[0089] K1到Kn为系数值,K^K2+-+Kn = LKi值为非负数, [0089] K1 to Kn for the coefficient value, K ^ K2 + - + Kn = LKi non-negative value,

[0090] 当所述第二差值大于等于第二十一预设值时,确定所述被测参数满足所述第一预设条件。 [0090] When the difference is greater than the second predetermined value is equal to twenty-first, said measured parameter is determined to satisfy the first predetermined condition. 例如,具体到体温计时,第二十一预设值取值范围为[0,10°C]。 For example, the thermometer Specifically, a twenty-first predetermined value in the range [0,10 ° C].

[0091] 当所述第二差值绝对值大于等于第二十二预设值且小于等于第二十三预设值时,确定所述被测参数满足所述第一预设条件。 [0091] When the second difference absolute value is greater than the predetermined value is equal to a twenty-second and twenty-third predetermined value or less, the determination of the measured parameter meets a first preset condition. 例如,具体到体温计时,第二十二、第二十三预设值取值范围为小于零摄氏度。 For example, specific to the thermometer, the twenty-second, twenty-third preset value in the range of less than zero degrees Celsius.

[0092] 以上为判断所述被测参数是否满足第一预设条件的方法,具体地,以电子体温计为例:当电子体温计时没有被使用时,电子体温计处于深度休眠状态,此时获取到的温度为电子体温计所处环境的环境温度,为副参数值;当电子测温仪处于使用状态即佩戴于患者额头等部位时,获取到的温度为使用者的体温为主参数值。 [0092] The above is the method of determining whether the measured first parameter satisfies a predetermined condition, in particular, to electronic thermometers for example: when the electronic clinical thermometer is not in use, the electronic thermometer is in a deep sleep state, acquired at this time the temperature is ambient temperature of the environment of the electronic thermometer as a secondary parameter value; when the electronic thermometer that is worn in use and other parts of the patient's forehead, the acquired user's body temperature is the temperature of the main parameter values. 一般而言,使用者的体温与环境温度之间具有一定的差值,本实施例利用该性质来确定被测参数是否满足第一预设条件。 In general, a certain difference between the user's body temperature and the ambient temperature, the present embodiment utilizes this property to determine whether a first measured parameter meets a preset condition. 本实施例中,当获取到的温度值满足第一预设条件时,确定该电子测温仪处于佩戴状态,唤醒该电子体温计。 In this embodiment, when the acquired temperature value satisfies a first predetermined condition, determining the state of the electronic thermometer is worn, the wakeup electronic thermometer.

[0093] 需要说明的是,确定获取到的温度值是否满足第一预设条件的方法并不限于上述十六种,本发明在此不再一一列举,本发明对确定获取到的温度值是否满足第一预设条件的具体判断方法不做任何限定。 [0093] Incidentally, the method determines whether the acquired temperature value meets a first preset condition is not limited to the sixteen kinds, according to the present invention are not enumerated herein, the present invention determines that the acquired temperature value specific determination method satisfies a first predetermined condition is not limited thereto. [0094] 对于不同的测量设备和被测参数,第一预设条件的具体设定形式不同;就电子体温计而言,利用环境的温度值和使用者体温之间存在一定的差值这一性质设定了第一预设条件;就血压计以及其他医疗设备,也可以利用其自身的性质对第一预设条件进行设定,并且具体设定形式多样,本发明对第一预设条件的具体设置方法不做任何限定。 [0094] for different measurement devices and measured parameters, depending on the specific form of the first set of predetermined conditions; on electronic thermometer concerned, there is a certain difference between the temperature values ​​using this property and user environment temperature set the first preset condition; sphygmomanometer and on other medical devices may also be utilized on its own nature a first predetermined condition is set, and setting specific forms, according to the present invention, the first preset condition The setting method is not limited in any way.

[0095] 参见图2及图5,上述各实施例中,在唤醒步骤之后还可以包括:深度休眠步骤S4,其中,当获取的所述被测参数满足所述第二预设条件时,测量设备立即或延时进入休眠状态。 [0095] Referring to FIGS. 2 and 5, each of the above embodiments, after the wake-up may further comprise the step of: Deep Sleep step S4, wherein, when acquiring the measured parameter meets a second preset condition, measured equipment immediately or delay going to sleep. 例如,采用累加器等计时器进行预定时长的延时(例如,设定延时时长为tio,tio取值范围为[0,2h]),在延时过程中循环对所述第二预设条件进行判断,如果出现不满足情况,则重新开始计时。 E.g., an accumulator, etc. using predetermined duration timer delay (e.g., when the length of the delay is set TiO, TiO range of [0,2h]), the second predetermined cycle during the delay condition judgment, if not the case, then restart timing.

[0096] 本实施例中,在测量设备被唤醒后进行测量等工作的过程中,还实时地判断获取到的被测参数是否满足第二预设条件,若满足,则说明此时该测量设备已经处于非使用状态,则控制该测量设备重新处于休眠状态,以节约耗能。 [0096] In this embodiment, the measurement process, etc. after the measurement device is awakened, there is also a second preset condition is determined in real time whether the acquired parameters satisfy the test, if yes, then at this time the measuring device It has been in a non-use state, the control of the re-measurement device in a dormant state to save energy.

[0097] 参见图5确定所述被测参数满足所述第二预设条件的方法至少包括下述一种: [0097] Referring to FIG. 5 to determine the measured parameter meets a second preset condition comprises at least one kind of the following:

[0098] 当获取的t7内的所述被测参数的均值小于等于第二十四预设值时,确定所述被测参数满足所述第二预设条件。 [0098] When the average value of the measured parameter t7 acquired within a twenty-fourth predetermined value or less, the determination of the measured parameter meets a second preset condition. 例如,测量设备为体温计时,第二十四预设值取值范围为[O, 400C ],t7 取值范围为[0,2h]。 For example, when the measuring device is a thermometer, a twenty-fourth predetermined value in the range [O, 400C], t7 in the range [0,2h].

[0099] 当获取的t8内的所述被测参数的均值大于等于第二十五预设值时,确定所述被测参数满足所述第二预设条件,例如,测量设备为体温计时,第二十五预设值取值范围大于50。 When [0099] When the mean value of the measured parameter within t8 obtain greater than or equal twenty-fifth predetermined value, determining the measured parameter meets a second preset condition, for example, when the measuring device is a thermometer, a twenty-fifth predetermined value in the range of greater than 50. . ,t8取值范围为[0,2h]。 , T8 ranging [0,2h].

[0100]当获取的t9内的所述被测参数的均值大于等于第二十六预设值且小于等于第二十七预设值时,确定所述被测参数满足所述第二预设条件。 When [0100] When the mean value of the measured parameter within t9 acquired predetermined value greater than or equal twenty sixth and twenty seventh predetermined value or less, determining said measured parameter meets the second predetermined condition. 例如,测量设备为体温计时,第二十六、二十七预设值取值范围大于50°C,t9取值范围为[0,2h]。 For example, the measurement device is a thermometer, the second 26, 27 preset values ​​in the range of greater than 50 ° C, t9 the range [0,2h].

[0101] 需要说明的是,具体实施时,也可以采用其他方法确定被测参数是否满足第二预设条件,本发明对确定被测参数是否满足第二预设条件的具体方法不做任何限定。 [0101] Incidentally, the specific embodiments, it may be determined whether the second measured parameter meets a preset condition by other methods, the present invention is a method for determining the specific second predetermined condition is satisfied without any measured parameter defined .

[0102] 参见图3,上述各实施例中,唤醒步骤和深度休眠步骤之间还可以包括:状态判断步骤S5,确定该测量设备所处的状态,该状态包括佩戴状态和取下状态;控制步骤S6,测量设备处于佩戴状态时,进行佩戴警示,并唤醒该测量设备,测量设备处于取下状态时,进行取下警示,并使该测量设备处于深度休眠状态。 [0102] Referring to Figure 3, each of the above embodiments, between the step and the deep sleep wakeup may further comprise the step of: determining the state of step S5, determines the state of the measurement device is located, the wearing state and a state comprising a state removed; Control step S6, the measuring device is worn state, a warning is worn, the measuring device and wake up, when the device is in measuring state is removed, a warning is removed, and the measuring device in a deep sleep state.

[0103] 本实施例在测量设备的工作过程中,实时地判断该测量设备是处于佩戴状态(使用状态)还是取下状态(非使用状态)。 [0103] During operation of the present embodiment, the measuring device, the measuring device is determined in real time is in the worn state (use state) or removed state (non-use state). 当该测量设备处于佩戴状态时,控制该测量设备持续处于唤醒状态,以使该测量设备进行测量等工作;当该测量设备处于取下状态时,控制该测量设备立即或经过延时后进入深度休眠状态,以减少耗能。 When the measuring device is worn state, continuously controlling the measuring device is awake, so that the measuring device for measuring the work; when the measuring device is removed state, the control of the measuring apparatus immediately or after a certain delay penetration depth sleep state to reduce power consumption. 此外,本实施例还可选择对该测量设备的佩戴状态和取下状态进行不同的警示,具体实施时,可以选择声光警示等。 Further, the present embodiment can also choose a different embodiment of the wearing state and a warning state measuring device is removed, the specific embodiment, sound and light alerts the like may be selected.

[0104] 具体地,参见图6对于体温计、血压计或血氧计等测量设备,确定所述测量设备处于取下状态的方法至少包括下述一种: [0104] In particular, referring to FIG. 6 thermometer, blood pressure measurement device or the oximeter, the measurement device is determining the state comprises removing at least one kind of the following:

[0105] 当获取的被测参数的当前值与til时间前的测量值的差值大于等于第二十八预设值,确定所述测量设备处于取下状态。 [0105] When the difference between the measured value before the current value of the measured parameter acquired til time greater than or equal twenty-eighth predetermined value, determining that the measuring device is removed state. 例如,当被测参数为温度值时,til取值为(O, 300s],第二十八预设值取值范围为[_5°C,-0.5°C ]。 For example, when the measured parameter is temperature, TIL value of (O, 300s], twenty-eighth predetermined value in the range [_5 ° C, -0.5 ° C].

[0106] 当获取的被测参数的当前值与tl2时间前的测量值的差值小于等于第二十九预设值,确定所述测量设备处于取下状态。 [0106] When the difference between the measured current value and the value before the time is less than equal to twenty-ninth tl2 predetermined value of the measured parameter acquired, determining the measuring device is removed state. 例如,当被测参数为温度值时,tl2取值为(O, 300s],第二十九预设值取值范围为[20°C,50°C ]。 For example, when the measured parameter is temperature, TL2 value of (O, 300s], the twenty-ninth predetermined value in the range [20 ° C, 50 ° C].

[0107] 当获取的tl3时间内的所述被测参数小于第三十预设值并且在tl3时间之前的所述被测参数曾经大于第三十一预设值时,确定所述测量设备处于取下状态。 [0107] When the measured parameters obtained in the time tl3 less than thirty preset value and the measured time before tl3 parameter was greater than thirty preset value, it is determined in the measuring device remove the state. 例如,当被测参数为温度值时,tl3取值为(0,300s],第三十预设值取值范围为[0,35°C ],第三十一预设值取值范围为[25°C,40°C ]。 For example, when the measured parameter is temperature, TL3 value of (0,300s], thirty preset values ​​in the range [0,35 ° C], the thirty-first preset value in the range of [25 ° C, 40 ° C].

[0108] 当获取的tl4时间内的所述被测参数大于第三十二预设值并且所述tl4时间之前的所述被测参数包括小于第三十三预设值的参数值时,确定所述测量设备处于取下状态。 [0108] When the measured parameters obtained in the time tl4 is greater than thirty second preset value and the measured parameters include a parameter prior to the time tl4 thirty third value is less than a preset value, it is determined the state measuring apparatus is removed. 例如,当被测参数为温度值时,tl4取值为(0,300s],第三十二、三十三预设值取值范围为[-5 0C ,0°C],并且第三十二预设值大于第三十三预设值。 For example, when the measured parameter is temperature, TL4 value of (0,300s], thirty xxxiii preset value in the range [-5 0C, 0 ° C], and the thirtieth two thirty-third greater than the preset value preset value.

[0109] 具体地,对于体温计、血压计或血氧计等测量设备,确定所述测量设备处于佩戴状态的方法至少包括下述一种: [0109] In particular, for a thermometer, blood pressure measurement device or the oximeter, the measurement device is determining wearing state comprises at least one kind of the following:

[0110] 当获取的被测参数满足第一预设条件时,确定所述测量设备处于佩戴状态;以及,当所述测量设备不满足取下状态条件时,确定所述测量设备处于佩戴状态。 [0110] When the measured parameter meets a first preset condition acquired, determining the measuring device is in a wearing state; and, when the measuring device is removed does not satisfy the state condition, the measurement device is determining wearing state. 其中,具体地判断过程参见上文,此处不再赘述。 Wherein, in particular see above determination process, not further described herein.

[0111] 参见图7,为了判断测量设备是否进行了唤醒操作和深度休眠操作,还可以对上述实施例做进一步改进:判断步骤之后还可以包括:判断执行步骤,当获取的tl5时间内的所述被测参数的均值与当前检测的所述被测参数的差值绝对值大于等于第三十四预设值时,确定所述测量设备执行了唤醒操作或深度休眠操作。 [0111] Referring to Figure 7, in order to determine whether the measurement device wake-up operation and a deep sleep operation, also the above-described embodiments further improvements: After determining step may further comprise: a determination step, when the inner tl5 time acquisition of the when the difference between the mean value and the detected current of said measured parameters measured parameters than or equal to the absolute value of the thirty-fourth predetermined value, determining that the measuring device performs a deep sleep wakeup operation or operations. 例如,当被测参数为温度值时,tl4取值为(0,300s],第三十四预设值取值范围为[0°C,10°C ]。 For example, when the measured parameter is temperature, TL4 value of (0,300s], thirty-fourth preset values ​​in the range [0 ° C, 10 ° C].

[0112] 上述各实施例中,唤醒步骤之后还可以包括:发射步骤,发射广播信号,该广播信号包括被测参数。 [0112] each of the above embodiments, after the wake-up may further comprise the step of: transmitting step of transmitting a broadcast signal, the broadcast signal comprises a measured parameter. 上位机接收该广播信号,并对接收到的广播信号中所包含的被测参数进行显示。 PC receives the broadcast signal, and the measured parameter of the received broadcast signal contained in the display. 具体实施时,上位机可以选择ipad等设备。 In specific implementation, the host computer can select ipad and other equipment.

[0113] 以电子体温计为例,对本发明的优选实施例进行详细说明: [0113] In an electronic thermometer, for example, preferred embodiments of the present invention will be described in detail:

[0114] 获取电子体温计上的第一传感器检测到的温度值作为被测参数值中的主参数,同时,可选择装配第二传感器测量环境等温度作为被测参数指的副参数,通过上述中所述被测参数是否满足第一预设条件的方法进行判断,如果满足第一预设条件,如果此时测量设备处于深度休眠中,则进行唤醒操作,如果处于唤醒状态,则发出佩戴警示并保持唤醒工作状态,如果不满足条件则继续保持休眠状态。 [0114] acquires the temperature detected by the first sensor of the electronic thermometer as a test parameter value in the primary parameter, while the second sensor assembly selectively measuring the ambient temperature and the like as a secondary parameter refers to the measured parameter, by the above the method of the measured parameter meets a first preset condition is determined, if the first predetermined condition is satisfied, the measuring device if this time is in a deep sleep, wake-up operation is performed, if in the awake state, and a warning is issued to wear Stay awake working condition, if the condition continues to remain dormant. 当所述佩戴状态的体温计进行取下操作判断时,如果被测量值满足第二预设条件时,则进行取下警示,并将体温计立即或经过预定延时后进入深度休眠状态,例如,采用计数器进行延时计算,当计数器达到预设值,则进行休眠操作,其中,可选定任一种上文中的判断方法,对采集的被测参数进行第二预设条件的判断;同时,可选择判断体温计是否进行了唤醒或休眠操作,具体判断方法此处不再赘述。 When the thermometer is for removing the worn state operation judgment, if the measured value satisfies a second predetermined condition, a warning is performed is removed, and the thermometer immediately or after a predetermined delay into the deep sleep state, e.g., using calculated delay counter when the counter reaches a preset value, the sleep operation is performed, wherein, in the determination method above may be any of a selected measured parameters to be determined in the acquisition of a second predetermined condition; the same time, select thermometer were determined whether or hibernation wake-up operation, specific determination method will not be repeated here.

[0115] 以电子血压计为例,对本发明的优选实施例进行详细说明: [0115] In an example of the electronic sphygmomanometer, preferred embodiments of the present invention will be described in detail:

[0116] 可穿戴的电子血压计处于休眠状态时,部分工作器件断电停止工作,自动开关机(自动唤醒操作或休眠操作)所需的另一部分工作器件,如MCU中的检测线程、用于判断佩戴状态的传感器(例如,温度传感器、压力传感器或电容式触摸键等)则进行预定周期的循环检测工作,采集传感器等参数,进行第一预设条件的判断,如果满足开机条件,则进行唤醒操作,从而使其他工作部件进入工作状态;当处于佩戴工作态的血压计,可选择进行多种工作操作的同时,选择定期进行取下操作的检测,如果满足第二预设条件,则立即进行休眠操作或者进行累加器的延时操作,达到预定延时后进行休眠操作,即保留判断开机判断的工作器件,其他的工作器件断电停止工作。 When [0116] the wearable electronic sphygmomanometer in a dormant state, part of power from the device stops working, automatic switch (automatic wake-up operation or the sleep operation) of the desired part of the work to another device, such as the MCU detection thread for Analyzing sensors (e.g., temperature sensors, pressure sensors or a capacitive touch key, etc.) is wearing state detecting operation performed a predetermined cycle period, like the acquisition parameter sensor, for determining a first predetermined condition, if the start condition is satisfied, for wake-up operation, so that other work member into the working state; sphygmomanometer when worn simultaneously in operational configuration, choose various work operations, selecting removed periodically detecting operation, if the second predetermined condition is satisfied, immediately sleep operation performed accumulator or by delay operation, after the predetermined time delay for the sleep operation, i.e., operation of the device is determined to retain power determination, the other down the device stops working. 例如,被测参数采集方式为电容式触摸检测方式,在可穿戴的血压计上,通过弛张振荡器构成电容传感器,弛张振荡器输出一个PWM信号,该PWM信号用于对计数器进行选通操作,当血压计进行佩戴(例如,皮肤接触血压计的佩戴处)时,计数器累加,当计数值满足第一预设条件(例如超过第一预设值时),则判断血压计进入佩戴状态,进行唤醒开机操作;反之,当判断计数值不满足第二预设条件时,执行延时或立即的休眠关机操作。 For example, the measured parameter acquisition mode to the capacitive touch detection mode, on wearable sphygmomanometer, a capacitive sensor constituted by a relaxation oscillator, the relaxation oscillator output a PWM signal, the PWM signal is used to gate the counters in operation, when the sphygmomanometer is worn (e.g., skin contact wear at sphygmomanometer), the accumulation counter when the count value satisfies a first predetermined condition (e.g., exceeds a first predetermined value), it is determined to enter the wearing state sphygmomanometer , a wake-up start operation; the other hand, when the count value does not satisfy the second predetermined condition, performs a sleep latency or immediate shutdown. 根据本发明的方法的血压计,能够最大程度的节省功耗,尤其对于可穿戴的血压计,实现了自动的开关机(深度休眠与唤醒的切换),而不需要使用者进行操作按键操作,极大提高了使用方便性,同时能够更好的控制功耗,防止忘记关机导致电池空耗。 The sphygmomanometer according to the method of the invention, to maximize power savings, particularly for wearable sphygmomanometer achieve automatic switch (switching deep sleep and wake-up), without requiring the user to operate the operation key, greatly improves the ease of use, while being able to better control power consumption, causing the battery to prevent forget to turn off the Depletion.

[0117] 以电子血氧计为例,对本发明的优选实施例进行详细说明: [0117] In an example electronic oximeter, a detailed description of the embodiments of the present invention is preferably:

[0118] 电子血氧计尤其是可穿戴的血氧计,其中,可选择采集器件为光电二极管,光照亮度为被测参数,当达到第一预设条件时,进行唤醒操作,使得血氧计从关机态进入工作态;反之,当被测参数满足第二预设条件时,则进行休眠操作,以实现电子血氧计的自动开关机操作而不需要佩戴者进行操作。 [0118] Electronic oximeter wearable particular oximeter, wherein the acquisition means is a photodiode Alternatively, the light brightness of the measured parameters, when reaching the first predetermined conditions, wake-up, so that the oximeter into the working state from either the off state; the other hand, when the measured parameter meets a second preset condition, the sleep operation is performed, in order to achieve automatic switch operation of the electronic oximeter without the need to operate the wearer.

[0119] 综上可知,本发明实施例使测量设备上不需要设置开关按键,进而使用户不需要执行额外的开关按键的操作,实现了即带即用,简化了用户的操作步骤,提高了用户体验。 [0119] To sum up, embodiments of the present invention does not require that the switch button is provided on the measuring device, thereby enabling the user does not need to perform an additional operation of the switch button, i.e. to achieve a tape that is used to simplify the user's steps, improved user experience. 另外,由于测量设备的壳体上不需要设置开关按键,所以使测量设备更容易做到壳体的密封防水,方便使用前的消毒处理。 Further, since no switch button disposed on the housing of the measuring device, so the measuring apparatus easier to do waterproof seal housing, the ease of use prior to disinfection.

[0120] 设备实施例: [0120] Example apparatus:

[0121] 参见图8,图10,图中示出了本发明能够自动调度电源的测量设备优选结构。 [0121] Referring to FIG. 8, FIG. 10, there is shown a preferred structure of the measuring apparatus of the present invention can automatically schedule power. 如图所示,本实施例包括:片状壳体100、设置于片状壳体100上的第一传感器、以及设置于片状壳体100内的判断器400和唤醒器500。 As shown, this embodiment includes: a sheet-like housing 100, a first sensor disposed on the sheet-shaped housing 100, and disposed in the sheet 100 is determined within the housing 400 and the wakeup unit 500. 其中,判断器400与第一传感器电连接,判断器400用于接收第一温度传感器200采集的被测参数,并判断所采集的被测参数是否满足第一预设条件。 Wherein the determiner 400 is electrically connected to the first sensor determines the measured parameter 400 for receiving a first temperature sensor 200 acquired, and determining a first predetermined condition is satisfied measured parameters acquired. 唤醒器500与判断器400电连接,唤醒器500用于在被测参数满足第一预设条件时,唤醒该测量设备。 400 wake electrical connector 500 and determines, wake-up 500 for the measured parameter meets a first preset condition, the wake-up measuring device.

[0122] 优选地,第一传感器为第一温度传感器200,该测量设备为电子体温计。 [0122] Preferably, the first sensor is a first temperature sensor 200, the measuring device is an electronic thermometer.

[0123]本实施例中,当电子体温计没有被使用时,测量设备处于深度休眠状态,在该状态下,实时地获取第一温度传感器检测到的温度值,当检测到的第一温度值满足第一预设条件时,认为该测量设备已经处于使用状态,即已经佩戴于人体的额头等部位,此时唤醒该测量设备,使该测量设备开始进行测量等工作。 [0123] In this embodiment, when the electronic clinical thermometer is not used, the measuring device in a deep sleep state, in this state, acquired in real time temperature value detected by the first temperature sensor, when the detected temperature value satisfies a first when the first pre-condition, that the measuring device is already in use, which have been worn on the forehead and other parts of the body, then wake up the measuring device, so that the measuring device to start taking measurements and so on.

[0124] 本实施例实时地检测第一温度传感器检测的温度值的变化,并在温度值满足第一预设条件时,自动唤醒该电子体温计。 Example When detecting a change in real time the temperature value detected by the first temperature sensor, and satisfies a first predetermined temperature condition, the automatic wake-up electronic thermometer [0124] present. 由于该电子体温计可以自动被唤醒,所以该电子体温计上不需要设置开关按键,进而使用户不需要执行开关按键的操作,简化了用户的操作步骤,提高了用户体验,实现了即带即用。 Since the automatic electronic thermometer can be awakened, it is not necessary to provide a switch button on the electronic clinical thermometer, thereby enabling the user does not need to perform the operation of the switch button, simplification of the operation of the user, improving the user experience, i.e., to achieve a band that is used. 另外,由于该电子体温计的壳体上不需要设置开关按键,所以该电子体温计更容易做到壳体的密封防水,方便使用前的消毒处理。 Further, since no switch button disposed on the housing of the electronic thermometer so that the electronic thermometer easier to do waterproof seal housing, the ease of use prior to disinfection.

[0125] 需要说明的是,本发明中的测量设备不仅可以为电子体温计,也可以为电子血压计等其他医用设备,本发明对测量设备的具体类型不做任何限定。 [0125] Incidentally, in the measurement apparatus of the present invention may be not only an electronic thermometer, the medical devices may be another electronic blood pressure monitor, etc., the present invention is the particular type of measurement device is not limited in any way. [0126] 需要说明的是,对于不同的测量设备,检测的被测参数不同,相应地,第一预设条件的设置方法也不同;即使对于同一个被测参数,第一预设条件也会有不同的设置方式,本发明对第一预设条件的具体设置方法不做任何限定。 [0126] Incidentally, for measuring different devices, different measured parameters detected, accordingly, provided a method different from the first predetermined condition; even for the same measured parameter, the first preset condition will there are different ways of setting the specific setting method of the present invention, a first preset condition is not limited thereto.

[0127] 就电子体温计而言,第一预设条件的具体设置方法参见上述方法实施例即可,本发明在此不再赘述。 [0127] For electronic thermometer, the specific setting method of the first preset condition can refer to the above embodiment of the method embodiment, the present invention is not repeated here.

[0128] 参见图9,上述实施例中的测量设备还包括:第二温度传感器300。 [0128] Referring to Figure 9, the above-described embodiment of the measuring apparatus further comprising: a second temperature sensor 300. 其中,第二温度传感器300与判断器400电连接。 Wherein the second temperature sensor 300, 400 is electrically connected with the determination. 第二温度传感器300用于采集该测量设备所处环境的环境温度值,并且,第一温度传感器200和第二温度传感器300设置于片状壳体相对的两个壁面。 A second temperature sensor 300 for acquiring the ambient temperature of the environment measurement apparatus, and the first temperature sensor 200 and second temperature sensors 300 disposed in two wall surfaces of the housing opposite to the sheet.

[0129] 佩戴时,安装有第一温度传感器200的壁面帖服于使用者的额头上,此时,第一温度传感器200检测的温度值为使用者的体温;由于第二温度传感器300与第一温度传感器200相对设置,所以佩戴时第二温度传感器300并不与使用者的额头接触,第二温度传感器300此时检测的温度值为环境温度。 [0129] When worn, the first temperature sensor is attached to a wall surface 200 on the user's forehead docile, at this time, the temperature of the first temperature sensor 200 detects the temperature value of the user; since the second temperature sensor 300 and the second a temperature sensor 200 disposed opposite, so that when worn the second temperature sensor 300 is not in contact with the user's forehead, a second temperature sensor 300 detects temperature at this time is the ambient temperature. [0130] 本实施例中,根据第一温度传感器200和第二温度传感器300检测的温度值作为被测参数的主参数和副参数,当被测参数满足第一预设条件时认为该电子体温计已经处于佩戴状态,唤醒该电子体温计。 [0130] In this embodiment, a first temperature sensor and the second temperature sensor 300 detects a value of 200 as a main parameter and a secondary parameter of the measured parameters when the measured parameter meets a first preset condition that the electronic thermometer already in wearing condition, wake up the electronic thermometer.

[0131] 请继续参见图9,上述实施例中的测量设备还包括:深度休眠器600。 [0131] Please continue to refer to FIG. 9, the above-described embodiments of the measuring apparatus further comprising: a deep sleep 600. 其中,该深度休眠器600与判断器400电连接。 Wherein the deep sleep 600 is electrically connected to the determiner 400. 深度休眠器600用于当被测参数满足第二预设条件时,控制该测量设备处于深度休眠状态。 600 is a deep sleep when the measured parameter meets a second preset condition, the control of the measuring device in a deep sleep state. 其中,确定被测参数满足第二预设条件的具体方法参见上述方法实施例即可,本发明在此不再赘述。 Wherein, the specific method for determining the measured parameter meets a second preset condition can refer to the above embodiment of the method embodiment, the present invention is not repeated here.

[0132] 参见图9,上述实施例中的测量设备还包括:发射器700。 [0132] Referring to Figure 9, the above-described embodiments of the measuring apparatus further comprises: a transmitter 700. 其中,该发射器700与唤醒器500电连接。 Wherein, the transmitter 700 and the wakeup unit 500 are electrically connected. 该发射器700用于发射广播信号,广播信号包括被测参数。 The transmitter 700 for transmitting a broadcast signal, the broadcast signal comprising the measured parameter.

[0133] 需要说明的是,本发明实施例中的判断器、唤醒器、深度休眠器和发射器均由现有芯片和硬件电路搭建而成。 [0133] Incidentally, in the embodiment of the present invention determines an embodiment, wake-up, a deep sleep and emitter structures made by conventional chip and a hardware circuit.

[0134] 需要说明的是,本发明中的能够自动调度电源的方法、测量设备的原理相同,相关之处可以相互参照。 [0134] Incidentally, the power supply method capable of automatic scheduling in the present invention, the same principle of the measuring device, can place the relevant cross-reference.

[0135] 综上可知,由于该电子体温计可以自动被唤醒,所以该电子体温计上不需要设置开关按键,进而使用户不需要执行开关按键的操作,简化了用户的操作步骤,提高了用户体验,实现了即带即用。 [0135] To sum up, since the electronic thermometer can automatically wake up, it is unnecessary to switch the keys on the electronic clinical thermometer, thereby enabling the user does not need to perform the operation of the switch button, simplification of the operation of the user, improving the user experience, That is achieved with a ready to use. 另外,由于该电子体温计的壳体上不需要设置开关按键,所以该电子体温计更容易做到壳体的密封防水,方便使用前的消毒处理。 Further, since no switch button disposed on the housing of the electronic thermometer so that the electronic thermometer easier to do waterproof seal housing, the ease of use prior to disinfection.

[0136] 应该注意的是,本发明的方法的流程图中步骤的减少、增加或者顺序的改变,不影响权利要求,本领域的技术人员可能会变换流程图的处理顺序、减少或者增加判断的步骤,上述实施例对本发明进行说明而不是对本发明进行限制,并且本领域技术人员在不脱离所附权利要求范围的情况下可设计出替换实施例。 [0136] It should be noted that the reduction step of the method of the present invention, a flow diagram, the order of additions or changes, does not affect the claims, those skilled in the art can transform processing procedure of the flowchart, judgment decrease or increase step, the above-described embodiments of the present invention will be described the present invention rather than limiting, and those skilled in the art without departing from the scope of the appended claims may be devised alternative embodiments. 在权利要求中,不应将位于括号之间的任何参考符号构造成对权利要求的限制。 In the claims, should not be limited by any reference signs located claimed configured to claims between parentheses. 单词“包含”不排除存在未列在权利要求中的元件或步骤。 The word "comprising" does not exclude the presence of elements or steps not listed in the appended claims.

Claims (13)

  1. 1.一种能够自动调度测量设备电源的方法,其特征在于,包括如下步骤: 获取步骤,获取测量设备测量的被测参数,其中,所述被测参数包括至少一种主参数和\或至少一种副参数; 判断步骤,判断所述被测参数是否满足第一预设条件; 唤醒步骤,在所述被测参数满足所述第一预设条件时,唤醒所述测量设备。 A scheduling method capable of automatically measuring the power supply apparatus, characterized by comprising the steps of: acquiring step of acquiring the measured parameters measured by the measuring device, wherein the measured parameter comprises at least one primary parameter, and \ or at least one kind of secondary parameter; determining step of determining whether the measured parameter meets a first preset condition; wake-up step, when the measured parameter meets a first preset condition, the wake-up measuring device.
  2. 2.根据权利要求1所述的能够自动调度测量设备电源的方法,其特征在于,判断所述被测参数是否满足第一预设条件的方法至少包括下述一种: 当获取的所述主参数大于等于第一预设值时,确定所述被测参数满足所述第一预设条件; 当获取的所述副参数大于等于第二预设值时,确定所述被测参数满足所述第一预设条件; 当获取的所述主参数小于等于第三预设值时,确定所述被测参数满足所述第一预设条件; 当获取的所述副参数小于等于第四预设值时,确定所述被测参数满足所述第一预设条件; 当获取的所述主参数大于等于第五预设值并且小于等于第六预设值时,确定所述被测参数满足所述第一预设条件; 当获取的所述副参数大于等于第七预设值并且小于等于第八预设值时,确定所述被测参数满足所述第一预设条件; 获取M个主参数均值与M个副参数 2. The power measuring apparatus capable of automatically scheduling method according to claim 1, characterized in that the method of determining whether the measured first parameter satisfies a predetermined condition includes at least one kind of the following: when the main acquired parameter equal to the first predetermined value is greater than, the determination of the measured parameter meets a first preset condition; when the acquired parameter sub-equal to a second predetermined value greater than, said measured parameter is determined to satisfy the first preset condition; when the acquired primary parameter equal to the third predetermined value is less than the determining the measured parameter meets a first preset condition; when the acquired parameter sub-fourth or less the preset value, determining the measured parameter meets a first preset condition; when the primary parameter is greater than or equal acquiring fifth predetermined value and less than equal to the sixth predetermined value, said measured parameter is determined to satisfy the said first preset condition; when the parameter acquisition sub preset value is greater than or equal seventh and eighth predetermined value or less, the measured parameter is determined to satisfy the first predetermined condition; obtaining master M the mean parameters and sub-parameters M 值的第一差值的绝对值,其中,所述M为正整数,当所述第一差值绝对值大于等于第九预设值并且小于等于第十预设值时,确定所述被测参数满足所述第一预设条件; 当所述第一差值绝对值大于等于第十一预设值时,确定所述被测参数满足所述第一预设条件; 当获取间隔tl时间长两次检测的所述被测参数的差值大于等于第十二预设值且小于等于第十三预设值时,确定所述被测参数满足所述第一预设条件; 当获取间隔t2时间长两次检测的所述被测参数的差值绝对值大于等于第十四预设值时,确定所述被测参数满足所述第一预设条件; 当获取间隔t3时间长两次检测的连续滑动窗口的所述被测参数的均值的差值大于等于第十五预设值且小于等于第十六预设值时,确定所述被测参数满足所述第一预设条件;当获取间隔t4时间长两次检测的连续滑动窗口的所 The absolute value of the first difference value, wherein said M is a positive integer, when the first difference absolute value is greater than a ninth predetermined value equal to a tenth predetermined value or less and determining the measured the parameter meets a first preset condition; when the first difference absolute value greater than or equal to the eleventh predetermined value, the determination of the measured parameter meets a first preset condition; acquisition interval tl when the long time the difference between the two measured parameters detected than or equal to a twelfth predetermined value or less thirteenth preset value, determining the measured parameter meets a first preset condition; when the acquisition interval t2 when the difference between the length of the sensed parameter detected two times the absolute value is greater than a preset value equal to the fourteenth, the determination of the measured parameter meets a first preset condition; when acquiring a long time interval t3 is detected twice mean difference of the measured parameter is greater than a continuous sliding window and less than or equal to the predetermined value when the fifteenth sixteenth equal to a preset value, the determination of the measured parameter meets a first preset condition; when acquires the time interval t4 continuous sliding window twice longer detected 被测参数的均值的差值大于等于第十七预设值时,确定所述被测参数满足所述第一预设条件; 当获取的t5时间内所述被测参数的均值与获取的当前所述被测参数的差值绝对值大于等于第十八预设值时,确定所述被测参数满足所述第一预设条件; 当获取的t6时间内所述被测参数的均值与获取的当前所述被测参数的差值大于等于第十九预设值且小于等于第二十预设值时,确定所述被测参数满足所述第一预设条件;以下列方式获取第二差值:[K1VJK2Vf+...+KnVn-VnJ其中,V1到Vn+1为连续的n+1个连续的被测参数值,ne [1,512], K1到Kn为系数值,K^K2+- +Kn = 1,其中Ki值为非负数,当所述第二差值的绝对值大于等于第二十一预设值时,确定所述被测参数满足所述第一预设条件;以及当所述第二差值大于等于第二十二预设值且小于等于第二十三预设值时,确定所述被测参数满 When the difference between the mean of the measured parameter is greater than a preset value equal to the seventeenth, the determination of the measured parameter meets a first preset condition; t5 the current time when the average of the measured parameters acquired and the acquired said difference is greater than the absolute value of the measured parameter is equal to the eighteenth preset value, determining the measured parameter meets a first preset condition; mean time t6 when the measured parameter is acquired and the acquired the measured current difference is greater than or equal nineteenth parameter preset value and not more than twenty preset value, the determination of the measured parameter meets a first preset condition; second acquisition in the following manner difference: [K1VJK2Vf + ... + KnVn-VnJ wherein, V1 to Vn + 1 to n + 1 successive contiguous measured parameter value, ne [1,512], K1 to Kn for the coefficient value, K ^ K2 + - + when Kn = 1, where Ki value of non-negative, when the absolute value of the difference is greater than a second predetermined value equal to twenty-first, the determination of the measured parameter meets a first preset condition; and when the the second difference is greater than said predetermined value is equal to a twenty-second and twenty-third predetermined value or less, the measured parameter is determined over 足所述第一预设条件。 The foot first preset condition.
  3. 3.根据权利要求1或2所述的能够自动调度测量设备电源的方法,其特征在于,所述唤醒步骤之后还包括: 深度休眠步骤,当获取的所述被测参数满足所述第二预设条件时,所述测量设备进入休眠状态或延时进入休眠状态。 According to claim 1 or 2 or a scheduling method capable of automatically measuring the power of the apparatus, characterized in that, after the wake-up step further comprises: step of deep sleep, when acquiring the measured parameter meets the second pre- when the conditions are set, the measuring device enters a sleep state or delay into hibernation.
  4. 4.根据权利要求3所述的能够自动调度测量设备电源的方法,其特征在于,确定所述被测参数满足所述第二预设条件的方法至少包括下述一种: 当获取的t7时间长内的所述被测参数的均值小于等于第二十四预设值时,确定所述被测参数满足所述第二预设条件; 当获取的t8内的所述被测参数的均值大于等于第二十五预设值时,确定所述被测参数满足所述第二预设条件;以及当获取的t9内的所述被测参数的均值大于等于第二十六预设值且小于等于第二十七预设值时,确定所述被测参数满足所述第二预设条件。 4. The method of claim 3 power measurement apparatus capable of automatically scheduling claim, wherein the method of determining the measured parameter meets a second preset condition comprises at least one kind of the following: When the acquired time t7 when the average value of the measured parameter within a length of less than equal to twenty-fourth predetermined value, determining the measured parameter meets a second preset condition; when the average value of the measured parameter is greater than the acquired t8 It is equal to twenty-fifth predetermined value, determining the measured parameter meets a second preset condition; and when the average value of the measured parameter within t9 obtain greater than or equal twenty sixth predetermined value and less than It is equal to twenty-seventh predetermined value, determining the measured parameter meets a second preset condition.
  5. 5.根据权利要求3所述的能够自动调度测量设备电源的方法,其特征在于,所述唤醒步骤后和所述深度休眠步骤之间还包括: 确定所述测量设备的使用状态,所述使用状态包括佩戴状态和取下状态; 所述测量设备处于佩戴状态时,进行佩戴警示,并保持所述测量设备处于唤醒状态;所述测量设备处于取下状态时,进行取下警示,并使所述测量设备进入休眠状态。 The power measuring apparatus capable of automatically scheduling method according to claim 3, characterized in that, after the wake-up between the step and the deep sleep further comprising the step of: determining the measurement state of the device used, the use of wearing state and a state comprising a removed state; measuring device is in the worn state, a warning is worn, and holds the measuring device in an awake state; the state measurement apparatus is removed, a warning is removed, and the said measuring device enters a sleep state.
  6. 6.根据权利要求5所述的能够自动调度测量设备电源的方法,其特征在于,确定所述测量设备处于取下状态的方法至少包括下述一种: 当获取的被测参数的当前值与til时间前的测量值的差值大于等于第二十八预设值,确定所述测量设备处于取下状态; 当获取的被测参数的当前值与tl2时间前的测量值的差值小于等于第二十九预设值,确定所述测量设备处于取下状态; 当获取的tl3时间内的所述被测参数小于第三十预设值并且所述tl3时间之前的所述被测参数曾经大于第三十一预设值时,确定所述测量设备处于取下状态;以及当获取的tl4时间内的所述被测参数大于第三十二预设值并且所述tl4时间之前的所述被测参数曾经小于第三十三预设值时,确定所述测量设备处于取下状态。 The power measurement apparatus capable of automatically scheduling method according to claim 5, characterized in that the measurement device is determining the state comprises removing at least one kind of the following: current value when the measured parameter acquired difference measurement value before til time is greater than or equal twenty-eighth predetermined value, determining a state of the measuring device is removed; when the difference measurement value before the current value of the parameter measured time tl2 acquired less twenty ninth predetermined value, determining a state of the measuring device is removed; the measured parameters when the measured parameters obtained in the time tl3 less than thirty predetermined value and the time before was tl3 greater than thirty preset value, determining that the measuring device is removed state; and when the measured parameters within the time tl4 acquired is greater than a predetermined value, and the thirty-second time before tl4 once the measured parameter is less than the thirty-third predetermined value, determining that the measuring device is removed state.
  7. 7.根据权利要求6所述的能够自动调度测量设备电源的方法,其特征在于,确定所述测量设备处于佩戴状态的方法至少包括下述一种: 当获取的被测参数满足第一预设条件时,确定所述测量设备处于佩戴状态;以及当所述测量设备不满足取下状态条件时,确定所述测量设备处于佩戴状态。 When the measured parameter meets a first preset acquired: 7. The scheduling method capable of automatically measuring the power supply apparatus, wherein the measurement device is determining wearing state comprises at least the following A process according to claim 6, when the condition is determined in the measuring device worn state; and when the measuring apparatus does not meet the status condition is removed, the measurement device is determining wearing state.
  8. 8.根据权利要求3所述的能够自动调度测量设备电源的方法,其特征在于,所述判断步骤之后还包括: 判断执行步骤,当获取的tl5时间内的所述被测参数的均值与当前检测的所述被测参数的差值绝对值大于等于第三十四预设值时,确定所述测量设备执行了唤醒操作或深度休眠操作。 Determination step, when the mean value of the measured parameter within the acquired current time tl5: 8.3 to automatically scheduling method according to the power measuring apparatus, wherein, after said determining step further comprising the claims when the difference between the detected absolute value of the measured parameter is greater than the predetermined value is equal to thirty-fourth, the measuring device determines the operation performed or deep sleep wakeup operation.
  9. 9.根据权利要求1所述的能够自动调度测量设备电源的方法,其特征在于,所述唤醒步骤之后还包括: 发射步骤,发射广播信号,所述广播信号包括所述被测参数。 Transmitting step of transmitting a broadcast signal, the broadcast signal comprising the measured parameters: 9. A method of measuring apparatus capable of automatically scheduling power supply, wherein further comprising the step of, after the wake-up according to claim 1.
  10. 10.一种能够自动调度电源的测量设备,其特征在于,包括:片状壳体、设置于所述片状壳体上的第一传感器、设置于所述片状壳体内的判断器和唤醒器;其中, 所述判断器与所述第一传感器电连接,所述判断器用于接收所述第一传感器采集的被测参数,并判断所采集的被测参数是否满足第一预设条件; 所述唤醒器与所述判断器电连接,所述唤醒器用于在所述被测参数满足所述第一预设条件时,唤醒所述测量设备。 A power supply apparatus capable of automatically scheduling measure, characterized in that, comprising: a sheet-like housing, a first sensor disposed on said sheet-like housing provided on the judgment and the wake-up sheet-like housing ; wherein said determination is electrically connected with the first sensor, the measured parameter is determined for receiving said first sensor acquisition, and determining a first predetermined condition is satisfied measured parameter acquired; the wake is connected electrically with the determination, the wake-up for the measured parameter meets a first preset condition, the wake-up measuring device.
  11. 11.根据权利要求10所述的能够自动调度电源的测量设备,其特征在于,还包括: 与所述判断器电连接的第二传感器,所述第二传感器用于采集所述测量设备所处环境的环境参数,并且,所述第一传感器和所述第二传感器分别设置于所述片状壳体相对的两个壁面。 According to claim 10 can be automatically scheduled power measuring apparatus, characterized by further comprising: a second sensor electrically connected with the determination of the second sensor for acquiring the measurement device is located environmental parameters of the environment, and the first sensor and the second sensor are disposed in two wall surfaces of said housing opposite to the sheet.
  12. 12.根据权利要求10所述的能够自动调度电源的测量设备,其特征在于,还包括: 与所述判断器电连接的深度休眠器,所述深度休眠器用于当所述被测参数满足所述第二预设条件时,使所述测量设备处于深度休眠状态。 12. The method of claim 10 can be automatically scheduled power measuring apparatus, characterized by further comprising: Deep Sleep connected electrically with the determination of the deep sleep when the measured parameters for satisfying the when said second preset condition, so that the measuring device in a deep sleep state.
  13. 13.根据权利要求10所述的能够自动调度电源的测量设备,其特征在于,还包括: 与所述唤醒器电连接的发射器,所述发射器用于发射广播信号,所述广播信号包括所述被测参数。 13. The method of claim 10 can be automatically scheduled power measuring apparatus, characterized by further comprising: the wakeup emitter electrically connected to the transmitter for transmitting a broadcast signal, the broadcast signal comprising the said measured parameter.
CN 201410194119 2014-05-08 2014-05-08 Method and device for automatically dispatching power source of measuring device CN103919540A (en)

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