CN202553901U - Medical detector - Google Patents

Abstract

The utility model provides a medical detector, comprising a physiological signal detection unit, a physiology signal processing unit, a control unit, an image acquisition unit, an information obtaining unit and an image identification unit. The image acquisition unit is used for acquiring the image reflecting the physiology information of a patient to be detected, and the image is sent to the image identification unit as an image to be identified; the information obtaining unit is used for obtaining the position information in the image to be identified related to the display position of the physiology information and sending the position information to the image identification unit; and the image identification unit reads the physiology information displayed at the position restricted by the positional information in the image to be identified according to the position information, and the read physiology information is emitted. According to the medical detector, physiology information obtained from different detecting devices can be identified, and thereby the physiology information detected by different medical detection devices is gathered.

Description

Medical detector

Technical field

This utility model relates to medical detection range, particularly, relates to a kind of medical detector.

Background technology

The health status of evaluator needs the multiple physiologic information such as electrocardio, blood oxygen, blood pressure, pulse, breathing and body temperature etc. of human body usually, and carries out analysis-by-synthesis after the physiologic information that is detected gathered, to obtain assessment result accurately.At present, the medical detector that is used for the physiologic information of human body has been widely used in medical field.Wherein, small-sized medical detector because of its have volume little, be easy to carry, advantage such as simple to operate and low price extensively adopted by individual or family.

Though by means of small-sized medical detector, the user can make things convenient in daily life and grasp self health in time.But; Because a function small-sized or portable medical detector detection physiologic information is often more single; Thereby the user must buy many corresponding medical detectors separately when needs detect multiple physiologic information; And this can bring such problem: promptly; Because small-sized medical detector does not often possess the communication function that carries out transfer of data with other medical detector; Even and it possesses communication function, also can factor according to form is different, communication interface is different and/or the equal factor of communication mode and can't intercoming mutually with different medical detectors, thereby existing small-sized medical detector is difficult to and will be gathered by the different physiologic informations that medical detector detected.This is not only bad for the expansion of function of medical detector, and to the user carry out physiologic information analysis-by-synthesis, set up work such as medical archive and brought inconvenience.

The utility model content

This utility model is intended to solve at least one of technical problem that exists in the prior art; A kind of medical detector has been proposed; It can discern the physiologic information from different medical detectors, thereby the different physiologic informations that medical detector detected is gathered.

For the purpose that realizes this utility model provides a kind of medical detector; Comprise physiological signal detecting unit, physiological single processing unit and control unit; Wherein, Said physiological signal detecting unit is used to gather detected person's physiological signal, and said physiological signal is sent to said physiological single processing unit; Said physiological single processing unit is used for converting said physiological signal into physiologic information, and said physiologic information is sent; And; Said medical detector also comprises image acquisition units, information acquisition unit and image identification unit; Wherein, said image acquisition units is used to gather the image of the physiologic information that reflects the detected person, and said image is sent to said image identification unit as image to be identified; Said information acquisition unit is used for obtaining the said image to be identified positional information relevant with the display position of physiologic information, and sends it to said image identification unit; Said image identification unit reads the physiologic information that shows in the place, position that is limited said positional information in the said image to be identified according to said positional information, and the physiologic information that is read is sent; And said control unit is used to control the work of said physiological signal detecting unit, physiological single processing unit, image acquisition units, information acquisition unit and image identification unit.

Wherein, medical detector also comprises memory element, and said memory element comprises the first physiologic information memory block and the second physiologic information memory block, and wherein, the said first physiologic information memory block is used to store by said image identification unit sends and next physiologic information; The said second physiologic information memory block is used to store by said physiological single processing unit sends and next physiologic information.

Wherein, said information acquisition unit comprises MIM message input module, in order to the positional information relevant with the display position of physiologic information in the image said to be identified that receives user's input, and said positional information is sent to said image identification unit.

Wherein, Said memory element also comprises the display mode memory block; In order to the display mode of the image of storage identification information relevant with relevant armarium and corresponding with it reflection physiologic information, said identification information comprises the numbering and/or the model of being correlated with the relevant armarium of exporting the image that reflects physiologic information; And; Said information acquisition unit comprises MIM message input module and place information inquiry module; Wherein, Said MIM message input module be used to receive user's input with the relevant identification information of said image to be identified, and send it to said place information inquiry module, the relevant identification information of said and said image to be identified comprises the numbering and/or the model of the armarium of exporting said image to be identified; Said place information inquiry module is used for searching based on the relevant identification information of said and said image to be identified and in said display mode memory block the display mode of the armarium that is complementary with said identification information; Obtaining positional information relevant in the said image to be identified, and send it to said image identification unit with the display position of physiologic information.

Wherein, said MIM message input module comprises touch-control display screen or button.

Preferably, said MIM message input module also is used to receive the operational order of user's input, and sends it to said control unit.

Wherein, Medical detector also comprises the health status assessment unit; Send and physiologic information that comes and/or the physiologic information that comes by the transmission of the second physiologic information memory block in order to receive by the said first physiologic information memory block; And itself and corresponding setting threshold compared, and comparative result and/or the analytical information relevant with said comparative result are sent, and; Said memory element also comprises the analysis result memory block, in order to receive comparative result next by said health status assessment unit transmission and/or the analytical information relevant with said comparative result.

Wherein, medical detector also comprises the importing unit, in order to import the analytical data relevant with said comparative result to said analysis result memory block.

Wherein, Medical detector also comprises lead-out unit; In order to receive by the said first physiologic information memory block send and the physiologic information that comes, by the second physiologic information memory block send and the physiologic information that comes, by the analysis result memory block send and the comparative result that comes, by sending and the analytical information relevant that come and/or by sending and next analytical data the analysis result memory block analysis result memory block with said comparative result, and it is exported to external equipment.

Wherein, said lead-out unit adopts wire communication or communication to communicate; Wherein, the communication interface that adopted of said wire communication mode comprises at least a wired communication interface in network interface, IEE1394 interface and the USB interface; Said communication comprises at least a communication during bluetooth, 2.4G radio communication, infrared ray, Wi-Fi communication, worldwide interoperability for microwave insert and carrierfree is communicated by letter.

Wherein, Medical detector also comprises video signal processing unit; In order to receive by the said first physiologic information memory block send and the physiologic information that comes, by the second physiologic information memory block send and the physiologic information that comes, by the analysis result memory block send and the analysis result that comes, by sending and the analytical information relevant that come and/or the analysis result memory block by sending and next analytical data the analysis result memory block with said comparative result; And be converted into video signal, and said video signal is sent.

Wherein, said image acquisition units comprises photographic head.

Wherein, the those who are investigated's that gathered of said physiological signal detecting unit physiological signal comprises at least a signal in electrocardiosignal, blood oxygen signal, blood pressure signal, pulse signal, breath signal and the body temperature signal.

Wherein, In said physiological signal detecting unit, be provided with the physiological signal acquisition module that quantity equates with the quantity of said physiological signal; Said physiological signal acquisition module is corresponding one by one with said physiological signal; In order to gathering corresponding with it physiological signal, and said physiological signal is sent to said physiologic information processing unit.

Wherein, In said physiological single processing unit, be provided with the physiological single processing module that quantity equates with the quantity of said physiological signal acquisition module; Said physiological single processing module is corresponding one by one with said physiological signal acquisition module; In order to receiving, and convert said physiological signal into corresponding physiologic information, then said physiologic information is sent from the physiological signal of corresponding said physiological signal acquisition module with it.

The utlity model has following beneficial effect:

The medical detector that this utility model provides; It obtains the positional information relevant with the display position of physiologic information in the image of the reflection physiologic information of being gathered by image acquisition units through information acquisition unit is set; The position that image identification unit can be limited this positional information in the image of being gathered is read physiologic information exactly, thereby has realized the identification to the different physiologic informations that armarium detected.This makes and compares with existing medical detector; The medical detector that this utility model provides not only has the measuring ability that detects physiologic information; But also have the recognition function of the different physiologic information that armarium detected of identification, thereby realized the function expansion of medical detector.

Description of drawings

The theory diagram of a specific embodiment of the medical detector that Fig. 1 provides for this utility model; And

Fig. 2 is the workflow diagram that medical detector shown in Figure 1 is carried out physiologic information identification.

The specific embodiment

For making those skilled in the art understand the technical scheme of this utility model better, come the medical detector that this utility model provides is described in detail below in conjunction with accompanying drawing.

The theory diagram of a specific embodiment of the medical detector that Fig. 1 provides for this utility model.See also Fig. 1, this medical detector comprises image acquisition units 11, information acquisition unit 12, image identification unit 13, memory element 14, physiological signal detecting unit 15, physiological single processing unit 16, health status assessment unit 17, imports unit 18, lead-out unit 19, video signal processing unit 20 and control unit 21.

The medical detector that present embodiment provides can be used at least a information such as physiologic informations such as electrocardio, blood oxygen, blood pressure, pulse, breathing and body temperature of human body is detected, and it mainly realizes the function that physiologic information detects by physiological signal detecting unit 15 and physiological single processing unit 16.

Wherein, physiological signal detecting unit 15 is used to gather detected person's physiological signal, and physiological signal is sent to physiological single processing unit 16.Particularly, the physiological signal gathered of physiological signal detecting unit 15 can comprise such as at least a signal in the signals such as electrocardiosignal, blood oxygen signal, blood pressure signal, pulse signal, breath signal and body temperature signal.In physiological signal detecting unit 15, be provided with quantity with its n physiological signal acquisition module 151 equating of the quantity of the physiological signal that will gather; N is a natural number; 15 physiological signals that will gather of physiological signal acquisition module 151 and physiological signal detecting unit are corresponding one by one; In order to gathering corresponding with it physiological signal respectively, and said physiological signal is sent to physiological single processing unit 16.For example; If the physiological signal that physiological signal detecting unit 15 is gathered is two kinds, be respectively electrocardiosignal and blood oxygen signal, then in physiological signal detecting unit 15, be provided with two physiological signal acquisition modules accordingly; That is, ecg signal acquiring module and blood oxygen signal acquisition module.Wherein, the ecg signal acquiring module is used to gather electrocardiosignal, and this electrocardiosignal is sent to physiological single processing unit 16; Blood oxygen signal acquisition module is used to gather the blood oxygen signal, and this blood oxygen signal is sent to physiological single processing unit 16.

Physiological single processing unit 16 is used for converting physiological signal into physiologic information, and this physiologic information is sent.Particularly; In physiological single processing unit 16, be provided with n the physiological single processing module 161 that quantity equates with the quantity of physiological signal acquisition module 151; And physiological single processing module 161 is corresponding one by one with physiological signal acquisition module 151; In order to receive from the physiological signal of corresponding physiological signal acquisition module 151 with it; And be converted into corresponding physiologic information, for example electrocardiogram, heart rate, blood oxygen saturation, body temperature or respiratory frequency etc. send above-mentioned physiologic information then.

The medical detector that present embodiment provides also has image identification function except having above-mentioned physiological information detection functions,, discern the image of the reflection physiologic information that this armarium is surveyed that is shown by different armarium that is.This medical detector is mainly realized above-mentioned image identification function by image acquisition units 11, information acquisition unit 12, image identification unit 13 and memory element 14.

Wherein, memory element 14 comprises the first physiologic information memory block 141, the second physiologic information memory block 142 and display mode memory block 143.Particularly, the first physiologic information memory block 141 is used to store the next physiologic information by image identification unit 13 transmissions; The second physiologic information memory block 142 is used to store by n physiological single processing module 161 sends and next physiologic information; Display mode memory block 143 is used to store the display mode of the image of identification information relevant with relevant armarium and corresponding with it reflection physiologic information.So-called relevant armarium is meant the armarium such as at least a signal in the signals such as electrocardiosignal, blood oxygen signal, blood pressure signal, pulse signal, breath signal and body temperature signal that in the technical field of this utility model, can be used for human body.

Image acquisition units 11 is used to gather the image of the physiologic information that reflects the detected person, and this image is sent to image identification unit 13 as image to be identified.In practical application, image acquisition units 11 can adopt photographic head to take the image of reflection detected person's physiologic information, then captured image is sent to image identification unit 13.The image of so-called reflection detected person's physiologic information can be the display institute images displayed that is carried by different armarium; Also can be by such as the image of the reflections that external equipment showed such as display, computer, mobile phone from the physiologic information of other armarium; Can also be to be printed on reflection on the image-carriers such as paper from the image of the physiologic information of other armarium.As for the performance parameters such as size, pixel and resolution of photographic head, the user can select according to concrete needs, as long as can shoot can be by the image of image identification unit 13 identification for selected photographic head.

Information acquisition unit 12 is used for obtaining the image to be identified positional information of being gathered by image acquisition units 11 relevant with the display position of physiologic information, and sends it to image identification unit 13.In practical application; Because different armarium is different to the display mode of the pictorial display of reflection physiologic information; Thereby the display position of the physiologic information in the image that it demonstrated may be different; This makes image identification unit 13 when the image to the different armarium gathered carries out reading of physiologic information, must know that the display position of the physiologic information in this image could read physiologic information exactly.Therefore; Just information acquisition unit 12 need be set in the medical detector that this utility model provides; The positional information relevant in the image of being gathered to obtain to be identified with the display position of physiologic information, thus make the position that image identification unit 13 can this positional information limits in image read physiologic information.

In the present embodiment, information acquisition unit 12 can adopt two kinds of obtain manners to obtain positional information relevant with the display position of physiologic information in the image of being gathered by image acquisition units 11.Above-mentioned positional information is obtained in the combination that first kind of obtain manner can adopt positional information to search module 122 and touch-control display screen 121; Second kind of obtain manner can adopt touch-control display screen 121 to obtain above-mentioned positional information.

When adopting first kind of obtain manner, information acquisition unit 12 comprises that touch-control display screen 121 and positional information search module 122.Particularly, the display mode of the image of the medical detector that provides of present embodiment identification information that storage is correlated with relevant armarium in the display mode memory block 143 of memory element 14 in advance and corresponding with it reflection physiologic information; By touch-control display screen 121 receive users adopt the mode of touch that import with the relevant identification information of armarium output image to be identified, and send it to place information inquiry module 122; Place information inquiry module 122 is searched the display mode of the image that the armarium that is complementary with this identification information exports in display mode memory block 143 based on the identification information of user input; Obtain positional information relevant in the image of being gathered to be identified with this, and positional information is sent to image identification unit 13 with the display position of physiologic information.In practical application, identification information can be numbering and/or the model corresponding with armarium.

When adopting second kind of obtain manner, information acquisition unit 12 comprises touch-control display screen 121, and need not to be provided with positional information again and search module 122.Particularly, image acquisition units 11 is sent to touch-control display screen 121 with the image of being gathered to be identified and shows; The user is with the annular of standardized the sealing in the position of the demonstration physiologic information of mode on the image to be identified that touch-control display screen 121 demonstrates of touch, and the zone that this annular limited is the position that shows physiologic information on the image to be identified; Touch-control display screen 121 is resolved through the annular of the user being enclosed choosing and is obtained the positional information that this annular limits, and positional information is sent to image identification unit 13.

Image identification unit 13 reads the physiologic information that shows in the place, position that is limited positional information in the image of being gathered according to the positional information from information acquisition unit 12, and the physiologic information that is read is sent.Particularly; The positional information that image identification unit 13 receives from touch-control display screen 121 or place information inquiry module 122; And read the physiologic information that shows in the place, position that limits positional information in the image of being gathered, and the physiologic information that is read is sent.

In the present embodiment; For functions such as the derivation of the assessment of the human health status of the medical detector that can realize providing to present embodiment, physiologic information and/or demonstrations, this medical detector also comprises health status assessment unit 17, imports unit 18, lead-out unit 19 and video signal processing unit 20.

Wherein, Health status assessment unit 17 is used to receive physiologic information that is come by 141 transmissions of the first physiologic information memory block and/or the physiologic information that is come by 142 transmissions of the second physiologic information memory block; And itself and corresponding setting threshold compared, and comparative result and/or the analytical information relevant with this comparative result are sent.For example, health status assessment unit 17 receives by the first physiologic information memory block 141 and sends and the blood pressure information that comes, and it is the highlyest compared with lowest threshold with normotensive respectively; If the blood pressure information that is received does not exceed the highest normotensive and lowest threshold, then health status assessment unit 17 generates comparative result, can also provide detected person's normotensive analytical information simultaneously to this comparative result; If the blood pressure information that received exceeds the highest normotensive or lowest threshold, then health status assessment unit 17 generates comparative results, can also provide analysis information such as reason that detected person's blood pressure exceeds standard and countermeasure to this comparative result simultaneously.In practical application; Can comparative result and/or the analytical information relevant with this comparative result be stored in the memory element 14; For this reason; Memory element 14 can also be provided with analysis result memory block 144, in order to store comparative result next by 17 transmissions of health status assessment unit and/or the analytical information relevant with this comparative result.

Importing unit 18 is used for importing the analytical data relevant with the comparative result of health status assessment unit 17 to analysis result memory block 144.In practical application, the analytical data relevant with the comparative result of health status assessment unit 17 can be the supporting paper relevant with comparative result, illness analysis and the countermeasure explanation for example carried out to this comparative result; Also can be user oneself editor's file, state of an illness diagnosis or record that for example the doctor did.

Lead-out unit 19 is used to receive the next at least a physiological data by memory element 14 transmissions, and sends it to such as external equipments such as computer, mobile phone and printers, brings convenience with the transmission of carrying out data to the user.Send and the physiological data that comes comprises by sending and the physiologic information that comes, sent and the physiologic information that comes and sent and the comparative result that comes, the analytical information relevant with comparative result and the analytical data of being correlated with comparative result by analysis result memory block 144 by the second physiologic information memory block 142 in the first physiologic information memory block 141 by memory element 14.In practical application, lead-out unit 19 can adopt wire communication or communication to communicate.Wherein, the communication interface that wire communication mode adopted can comprise at least a wired communication interface in network interface, IEE1394 interface and the USB interface; Communication can comprise at least a communication during bluetooth, 2.4G radio communication, infrared ray, Wi-Fi communication, worldwide interoperability for microwave insert and carrierfree is communicated by letter.

Video signal processing unit 20 is used to receive the next at least a physiological data by memory element 14 transmissions, and is converted into video signal, and this video signal is sent.In the present embodiment, video signal processing unit 20 can be sent to touch-control display screen 121 with video signal and shows.Particularly, this physiological data comprises the physiologic information next by 141 transmissions of the first physiologic information memory block, the physiologic information that is come by 142 transmissions of the second physiologic information memory block and next analysis result, the analytical information relevant with said comparative result and the analytical data of being correlated with said comparative result by 144 transmissions of analysis result memory block.In practical application, the medical detector that this utility model provides also can be provided with display screen in addition and replace the touch-control display screen to realize Presentation Function.

Control unit 21 is used to control the work of image acquisition units 11, information acquisition unit 12, image identification unit 13, memory element 14, physiological signal detecting unit 15 and physiological single processing unit 16.In practical application, touch-control display screen 121 can be used to receive the operational order that the user adopts the touch manner input, and this operational order is sent to control unit 21, so that control unit 21 is according to the work of operational order control corresponding units.

Need to prove; Though the medical detector that present embodiment provides adopts touch-control display screen 121 to receive positional information relevant with the display position of physiologic information in the image of being gathered to be identified of user's input, receive the identification information of being correlated with image to be identified of user's input and/or the operational order that receives user's input as the MIM message input module of information acquisition unit 12; But this utility model is not limited thereto; In practical application; The medical detector that this utility model provides also can adopt button to receive above-mentioned positional information, identification information to be identified and/or operational order as the MIM message input module of information acquisition unit 12, and sends it to units corresponding.

Also need to prove; Though in the present embodiment; Video signal processing unit 20 receives by the first physiologic information memory block 141 and sends and physiologic information that comes and/or the physiologic information that is come by 142 transmissions of the second physiologic information memory block; But this utility model is not limited thereto, and in practical application, video signal processing unit also can directly receive by physiological single processing unit and/or Figure recognition unit and send and next physiologic information; And be converted into video signal, and this video signal is sent to the touch-control display screen or other display screens show.That is to say; The medical detector that this utility model provides can also not stored physiological single processing unit and/or the unitary physiologic information of Figure recognition; And directly convert video signal into, and show through the touch-control display screen by video signal processing unit.Can save the process of the above-mentioned physiologic information of storage like this according to user's concrete needs, thereby improve the speed of service of medical detector, and save the memory space of medical detector.

Further need to prove; Though in the present embodiment, lead-out unit 19 receives by the first physiologic information memory block 141 and sends and physiologic information that comes and/or the physiologic information that is come by 142 transmissions of the second physiologic information memory block, and this utility model is not limited to this; In practical application; Lead-out unit can also directly receive by physiological single processing unit and/or Figure recognition unit and send and next physiologic information, and it is derived, and that is to say; The medical detector that this utility model provides can also not stored physiological single processing unit and/or the unitary physiologic information of Figure recognition, and directly exports to external equipment by lead-out unit.Can save the process of the above-mentioned physiologic information of storage like this according to user's concrete needs, thereby improve the speed of service of medical detector, and save the memory space of medical detector.

By on can know that the medical detector that this utility model provides also has the recognition function of the different armarium of identification except having the measuring ability that detects physiologic information.For helping those skilled in the art to understand the technical scheme of this utility model further, respectively this medical detector is carried out the workflow that physiologic information detects and physiologic information is discerned below and carry out detailed description.

See also Fig. 2, carry out the workflow diagram of physiologic information identification for medical detector shown in Figure 1.In step S10, the image of gathering the physiologic information that reflects the detected person is as image to be identified.

Flow process gets into step S20 after step S10 accomplishes.In step S20, obtain positional information relevant in the image of being gathered to be identified with the display position of physiologic information.Obtaining of this positional information comprises two kinds of obtain manners.

Wherein, first kind of obtain manner mode that can adopt the user to import above-mentioned positional information by touch-control display screen or button is obtained.In practical application; When adopting the touch-control display screen to import above-mentioned positional information; The user can be with the annular of standardized the sealing in position of the demonstration physiologic information of mode on the image to be identified that the touch-control display screen is shown that touch, the zone that this annular limited is the position that shows physiologic information on the image to be identified; The touch-control display screen is resolved through the annular of the user being enclosed choosing and is obtained the positional information that this annular limits.When adopting button to import above-mentioned positional information, the user can import the coordinate that shows the position of physiologic information on the image to be identified, and this coordinate is above-mentioned positional information.

Second kind of obtain manner comprises the steps: to receive the user by touch-control display screen or the button input and the relevant identification information of armarium output image to be identified; The display mode of the armarium that is complementary with identification information of searching in advance storage based on this identification information is to obtain the positional information that shows physiologic information on the image to be identified.In practical application, identification information can be and relevant numbering and/or the model of armarium of exporting image to be identified.

Flow process gets into step S30 after step S20 accomplishes.In step S30, read the physiologic information that shows in the place, position that the positional information that obtains limits in the image to be identified.

Flow process gets into step S40 after step S30 accomplishes.In step S40, judge whether the physiologic information that is read among the storing step S30.If then flow process gets into step S50; If not, then flow process gets into step S60.

In step S50, the physiologic information that storage is read.

In step S60, judge whether physiologic information and corresponding setting threshold are compared.This physiologic information comprises the physiologic information without storage from step S30, perhaps from the physiologic information after the storage of step S50.If then flow process gets into step S70; If not, then flow process gets into step S100.

In step S70, above-mentioned physiologic information is compared and comparative result and/or the analytical information relevant with this comparative result are sent with corresponding setting threshold.

After step S70 accomplished, flow process got into step S80.In step S80, judge whether to store the comparative result of acquisition and/or the analytical information relevant with this comparative result.If then flow process gets into step S90; If not, then flow process gets into step S100.

In step S90, comparative result that storage obtains and/or the analytical information relevant with this comparative result.

In step S100, judge whether to show physiologic information, comparative result and/or the analytical information relevant with this comparative result.This physiologic information comprises the physiologic information without storage from step S30, perhaps from the physiologic information after the storage of step S50.This comparative result and/or the analytical information relevant with this comparative result comprise from step S70 without the comparative result of storage and/or with this comparative result relevant analytical information, perhaps from comparative result after the storage of step S90 and/or the analytical information relevant with this comparative result.If then flow process gets into step S110; If not, then flow process gets into step S120.

In step S110, show above-mentioned physiologic information, comparative result and/or the analytical information relevant with this comparative result.

In step S120, judge whether to derive physiologic information, comparative result and/or the analytical information relevant with this comparative result.This physiologic information comprises the physiologic information without storage from step S30, perhaps from the physiologic information after the storage of step S50.This comparative result and/or the analytical information relevant with this comparative result comprise from step S70 without the comparative result of storage and/or with this comparative result relevant analytical information, perhaps from comparative result after the storage of step S90 and/or the analytical information relevant with this comparative result.If then flow process gets into step S130; If not, then flow process gets into step S140.

In step S130, derive physiologic information, comparative result and/or the analytical information relevant with this comparative result.In practical application, can adopt wire communication or communication that above-mentioned physiologic information, comparative result and/or the analytical information relevant with this comparative result are exported to such as external equipments such as computer, mobile phone and printers.Wherein, the communication interface that wire communication mode adopted can comprise at least a wired communication interface in network interface, IEE1394 interface and the USB interface; Communication can comprise at least a communication during bluetooth, 2.4G radio communication, infrared ray, Wi-Fi communication, worldwide interoperability for microwave insert and carrierfree is communicated by letter.

In step S140, process ends.

Need to prove, adopt and judge whether earlier to show and judge whether that then the order that derives carries out work though the medical detector that this utility model provides is carried out the workflow of physiologic information identification, that is, and first execution in step S100 and step S110; Back execution in step S120 and step S130, but this utility model is not limited thereto, and in practical application, also can said sequence be put upside down, that is, adopt to judge whether earlier to derive to judge whether that then the order that shows carries out work.

The workflow that the medical detector that provides in the face of this utility model is down carried out the physiologic information detection describes in detail.Particularly, the workflow of this physiologic information detection may further comprise the steps:

Step 1, the beginning flow process.

Step 2 judges whether to detect detected person's physiological signal.If then flow process gets into step 3; If not, then flow process gets into step 5.

Step 3 is gathered detected person's physiological signal.In practical application, this physiological signal comprises at least a signal in electrocardiosignal, blood oxygen signal, blood pressure signal, pulse signal, breath signal and the body temperature signal.

Flow process gets into step 4 after step 3 is accomplished.Step 4 converts the physiological signal of gathering in the step 3 into physiologic information, and it is sent.In practical application, this physiologic information comprises electrocardiogram, heart rate, blood oxygen saturation, body temperature or respiratory frequency etc.

Step 5, process ends.

Need to prove; In practical application; The workflow that the workflow of physiologic information identification and physiologic information detect does not have sequencing on the time of implementation, that is to say, can carry out the workflow of physiologic information identification earlier and then carry out the workflow that physiologic information detects; The workflow of perhaps carrying out the physiologic information detection is earlier then carried out the workflow of physiologic information identification, also can carry out the workflow that physiologic information identification and physiologic information detect simultaneously.And, the user can also according to concrete needs select the two one of carry out work.That is, only carry out the workflow that physiologic information detects, perhaps only carry out the workflow of physiologic information identification.

In sum; The above-mentioned medical detector that present embodiment provides; It obtains the positional information relevant with the display position of physiologic information in the image of the reflection physiologic information of being gathered by image acquisition units through information acquisition unit is set; The position that image identification unit can be limited this positional information in the image of being gathered is read physiologic information exactly, thereby has realized the identification to the different physiologic informations that armarium detected.This makes and compares with existing medical detector that the medical detector that this utility model provides not only has the measuring ability that detects physiologic information, but also has above-mentioned recognition function, thereby has realized the function expansion of medical detector.

It is understandable that above embodiment only is the illustrative embodiments that adopts for the principle that this utility model is described, yet this utility model is not limited thereto.For the one of ordinary skilled in the art, under the situation of spirit that does not break away from this utility model and essence, can make various modification and improvement, these modification and improvement also are regarded as the protection domain of this utility model.

Claims (15)

1. a medical detector comprises physiological signal detecting unit, physiological single processing unit and control unit, wherein

Said physiological signal detecting unit is used to gather detected person's physiological signal, and said physiological signal is sent to said physiological single processing unit;

Said physiological single processing unit is used for converting said physiological signal into physiologic information, and said physiologic information is sent;

It is characterized in that said medical detector also comprises image acquisition units, information acquisition unit and image identification unit, wherein

Said image acquisition units is used to gather the image of the physiologic information that reflects the detected person, and said image is sent to said image identification unit as image to be identified;

Said information acquisition unit is used for obtaining the said image to be identified positional information relevant with the display position of physiologic information, and sends it to said image identification unit;

Said image identification unit reads the physiologic information that shows in the place, position that is limited said positional information in the said image to be identified according to said positional information, and the physiologic information that is read is sent; And

Said control unit is used to control the work of said physiological signal detecting unit, physiological single processing unit, image acquisition units, information acquisition unit and image identification unit.

2. medical detector according to claim 1 is characterized in that, also comprises memory element, and said memory element comprises the first physiologic information memory block and the second physiologic information memory block, wherein

The said first physiologic information memory block is used to store by said image identification unit sends and next physiologic information;

The said second physiologic information memory block is used to store by said physiological single processing unit sends and next physiologic information.

3. medical detector according to claim 1; It is characterized in that; Said information acquisition unit comprises MIM message input module; In order to the positional information relevant in the image said to be identified that receives user's input, and said positional information is sent to said image identification unit with the display position of physiologic information.

4. medical detector according to claim 2; It is characterized in that; Said memory element also comprises the display mode memory block; In order to the display mode of the image of storage identification information relevant with relevant armarium and corresponding with it reflection physiologic information, said identification information comprises the numbering and/or the model of being correlated with the relevant armarium of exporting the image that reflects physiologic information; And

Said information acquisition unit comprises MIM message input module and place information inquiry module, wherein

Said MIM message input module be used to receive user's input with the relevant identification information of said image to be identified; And sending it to said place information inquiry module, the relevant identification information of said and said image to be identified comprises the numbering and/or the model of the armarium of exporting said image to be identified;

Said place information inquiry module is used for searching based on the relevant identification information of said and said image to be identified and in said display mode memory block the display mode of the armarium that is complementary with said identification information; Obtaining positional information relevant in the said image to be identified, and send it to said image identification unit with the display position of physiologic information.

5. according to claim 3 or 4 described medical detectors, it is characterized in that said MIM message input module comprises touch-control display screen or button.

6. medical detector according to claim 5 is characterized in that, said MIM message input module also is used to receive the operational order of user's input, and sends it to said control unit.

7. medical detector according to claim 2; It is characterized in that; Also comprise the health status assessment unit, send and physiologic information that comes and/or the physiologic information that comes by the transmission of the second physiologic information memory block in order to receive, and itself and corresponding setting threshold are compared by the said first physiologic information memory block; And comparative result and/or the analytical information relevant with said comparative result are sent, and

Said memory element also comprises the analysis result memory block, in order to receive comparative result next by said health status assessment unit transmission and/or the analytical information relevant with said comparative result.

8. medical detector according to claim 7 also comprises the importing unit, in order to import the analytical data relevant with said comparative result to said analysis result memory block.

9. according to claim 7 or 8 described medical detectors; It is characterized in that; Also comprise lead-out unit; In order to receive by the said first physiologic information memory block send and the physiologic information that comes, by the second physiologic information memory block send and the physiologic information that comes, by the analysis result memory block send and the comparative result that comes, by sending and the analytical information relevant that come and/or by sending and next analytical data the analysis result memory block analysis result memory block with said comparative result, and it is exported to external equipment.

10. medical detector according to claim 9 is characterized in that, said lead-out unit adopts wire communication or communication to communicate; Wherein

The communication interface that said wire communication mode is adopted comprises at least a wired communication interface in network interface, IEE1394 interface and the USB interface;

Said communication comprises at least a communication during bluetooth, 2.4G radio communication, infrared ray, Wi-Fi communication, worldwide interoperability for microwave insert and carrierfree is communicated by letter.

11. according to claim 7 or 8 described medical detectors; It is characterized in that; Also comprise video signal processing unit; In order to receive by the said first physiologic information memory block send and the physiologic information that comes, by the second physiologic information memory block send and the physiologic information that comes, by the analysis result memory block send and the analysis result that comes, by sending and the analytical information relevant that come and/or the analysis result memory block by sending and next analytical data the analysis result memory block with said comparative result; And be converted into video signal, and said video signal is sent.

12. medical detector according to claim 1 is characterized in that, said image acquisition units comprises photographic head.

13. medical detector according to claim 1; It is characterized in that the those who are investigated's that said physiological signal detecting unit is gathered physiological signal comprises at least a signal in electrocardiosignal, blood oxygen signal, blood pressure signal, pulse signal, breath signal and the body temperature signal.

14. medical detector according to claim 13; It is characterized in that; In said physiological signal detecting unit, be provided with the physiological signal acquisition module that quantity equates with the quantity of said physiological signal; Said physiological signal acquisition module is corresponding one by one with said physiological signal, in order to gathering corresponding with it physiological signal, and said physiological signal is sent to said physiologic information processing unit.

15. medical detector according to claim 14; It is characterized in that; In said physiological single processing unit, be provided with the physiological single processing module that quantity equates with the quantity of said physiological signal acquisition module; Said physiological single processing module is corresponding one by one with said physiological signal acquisition module; In order to receiving, and convert said physiological signal into corresponding physiologic information, then said physiologic information is sent from the physiological signal of corresponding said physiological signal acquisition module with it.

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