CN201814570U - System for detecting fetal heart rate - Google Patents

Abstract

The utility model relates to a system for detecting fetal heart rate, comprising at least one detecting part, at least one mobile phone and a remote monitoring center, wherein the detecting part is used for detecting fetal heart signals; the mobile phone is used for acquiring and sending the fetal heart signals; and the remote monitoring center is used for receiving and processing the fetal heart signals sent by the mobile phone and outputting the fetal heart signals to medical staffs for viewing. By implementation of the technical scheme of the utility model, a user can transmit the fetal heart signals detected by the detecting part to the remote monitoring center by the mobile phone; and since the mobile phone is convenient to carry, the signals of the mobile phone are transmitted in a wireless manner, the detected fetal heart signals can be transmitted to the remote monitoring center in real time at any occasion such as on a bus, in a garden and the like, so that the user can be avoided from delaying the transmission of the detected fetal heart signals to the medical staffs at the remote monitoring center for viewing due to no landline telephone.

Description

A kind of system that detects fetal heart frequency

Technical field

This utility model relates to armarium, more particularly, relates to a kind of system that detects fetal heart frequency.

Background technology

Along with popularizing of prenatal and postnatal care, antenatal care is generally paid attention to.The antenatal care content mainly is to detect the growth of fetus, in time understand the dancing number of times of heart of fetus, generally speaking, checked once in every month before pregnant 28 weeks, so detect the difficulty that fetal heart frequency has more increased handicapped anemia of pregnant woman to hospital continually, at present, the portable fetus-voice meter of increasing family wear has appearred, make the anemia of pregnant woman can detect fetal heart frequency at home, though but reduced the difficulty that the anemia of pregnant woman takes action like this, but,, can not understand the health condition of fetus well even detected the fetal heart frequency value because the user is not the professional health care personnel after all.Though also have now medical personnel in wired mode the fetal heart frequency that the user is detected to be realized long distance monitoring at home by Telephone set, Telephone set can only be useful in stationary applica-tions, as family, office and other places, for the user has brought inconvenience.

The utility model content

The technical problems to be solved in the utility model is, the above-mentioned defective that can only the fetal heart rate signal that be detected be sent to the long distance monitoring center at prior art in stationary applica-tions, a kind of system that detects fetal heart frequency is provided, can the tire tone signal that be detected be sent to the long distance monitoring center in any place.

The technical scheme that its technical problem that solves this utility model adopts is: construct a kind of system that detects fetal heart frequency, comprising:

At least one is used to detect the test section of fetal heart rate signal;

At least one is used to the hands machine that obtains described fetal heart rate signal and send described fetal heart rate signal;

Be used to receive and handle the fetal heart rate signal that described at least one mobile phone sends and export to the long distance monitoring center that medical personnel check.

In the system of detection fetal heart frequency described in the utility model, described test section comprises:

Be used to gather the probe module of fetal heart rate signal;

Be used for first processing module that the fetal heart rate signal of gathering is handled;

Be used for audio output interface that the fetal heart rate signal after handling is exported.

In the system of detection fetal heart frequency described in the utility model, described test section also comprises speaker or the earphone that links to each other with audio output interface.

In the system of detection fetal heart frequency described in the utility model, described mobile phone comprises:

Be used to receive the audio input interface of the fetal heart rate signal that the audio output interface of described detection module exports;

The fetal heart rate signal that is used for being received is sent to first wireless communication module at long distance monitoring center.

In the system of detection fetal heart frequency described in the utility model, described mobile phone also comprises the mike that links to each other with described audio input interface.

In the system of detection fetal heart frequency described in the utility model, described long distance monitoring center comprises:

Be used to receive second wireless communication module of the fetal heart rate signal that first wireless communication module of described mobile phone sent;

Be used for second processing module that the fetal heart rate signal that is received is handled;

Be used to export the output module of the fetal heart rate signal after the processing.

In the system of detection fetal heart frequency described in the utility model, described first wireless communication module and described second wireless communication module are respectively at least one in following: gsm module, CDMA module, TDMA module.

In the system of detection fetal heart frequency described in the utility model, described long distance monitoring center also comprises and is used for recording module that the fetal heart rate signal after handling is recorded.

In the system of detection fetal heart frequency described in the utility model, described long distance monitoring center also comprises:

Be used for counting module that the fetal heart rate signal after handling is counted;

Be used for calculating instantaneous heart rate value and average heart rate value, reaching the computing module of drawing the fetal rhythm rate curve according to the count value of described counting module.

In the system of detection fetal heart frequency described in the utility model, described output module comprises:

The audio player that is used for the fetal heart rate signal after the playback process;

Be used to show instantaneous heart rate value and the average heart rate value that is calculated, the video player that reaches drafting fetal rhythm rate curve.

Implement the system of detection fetal heart frequency of the present utility model, the user can be sent to the long distance monitoring center with the fetal heart rate signal that the test section branch detects by mobile phone, because mobile phone is easy to carry and its signal is to pass through wireless transmission, therefore can in officely in real time close occasion is sent to the long distance monitoring center with the fetal heart rate signal that is detected, as on the car, park etc., make that the user is unlikely to incur loss through delay the medical personnel that the fetal heart rate signal that will be detected is sent to the long distance monitoring center because of no fixed line phone and check.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and Examples, in the accompanying drawing:

Fig. 1 is the building-block of logic that this utility model detects the system embodiment one of fetal heart frequency;

Fig. 2 is the building-block of logic that this utility model detects the system embodiment two of fetal heart frequency;

Fig. 3 is the building-block of logic that this utility model detects the system embodiment three of fetal heart frequency;

Fig. 4 is the building-block of logic that this utility model detects the system embodiment four of fetal heart frequency.

The specific embodiment

As shown in Figure 1, detect in the building-block of logic of system embodiment one of fetal heart frequency at this utility model, this system comprises at least one test section 110,120,130, at least one mobile phone 210,220,230 and long distance monitoring center 300.Wherein, at least one test section 110,120,130 is used to detect fetal heart rate signal, and each test section can be existing portable fetus-voice meter, does not do at this and gives unnecessary details; At least one mobile phone 210,220,230 is used to obtain the fetal heart rate signal that pairing test section branch detects and sends it to long distance monitoring center 300, and long distance monitoring center 300 receives and handles at least one mobile phone 210,220,230 fetal heart rate signal that sent and export to medical personnel and check.By implementing this technical scheme, the user can be sent to the long distance monitoring center with the fetal heart rate signal that the test section branch detects by mobile phone, because mobile phone is easy to carry and its signal is to pass through wireless transmission, therefore can in officely in real time close occasion is sent to the long distance monitoring center with the fetal heart rate signal that is detected, as on the car, park etc., make that the user is unlikely to incur loss through delay the medical personnel that the fetal heart rate signal that will be detected is sent to the long distance monitoring center because of no fixed line phone and check.

Fig. 2 is the building-block of logic that this utility model of the present utility model detects the system embodiment two of fetal heart frequency, in the present embodiment, the system of this detection fetal heart frequency comprises test section 110, mobile phone 210 and long distance monitoring center 300, should be noted that, present embodiment and following two embodiment are that example describes with a test section 110 and a mobile phone 210 only, but this utility model does not limit the quantity of test section and the quantity of mobile phone.Test section 110 comprises probe module 111, first processing module 112 and the audio output interface 113 that connects successively.Mobile phone 210 comprises the audio input interface 212 and first wireless communication module 211 that connects successively.Long distance monitoring center 300 comprises second wireless communication module 301, second processing module 302 and the output module 303 that connects successively.Preferably, first wireless communication module 211 and second wireless communication module 301 are respectively at least one in following: gsm module, CDMA module, TDMA module.In the present embodiment, probe module 111 is used to gather fetal heart rate signal; First processing module 112 is used for the fetal heart rate signal of gathering is handled, as carries out processing such as filtering, amplification; Audio output interface 113 is used for the fetal heart rate signal after handling is exported, and this audio output interface 113 can connect speaker or earphone.Audio input interface 212 is used to receive the fetal heart rate signal that the audio output interface 113 of detection module 110 is exported; The fetal heart rate signal that first wireless communication module 211 is used for being received is sent to second communication module 301 at long distance monitoring center 300; Second wireless communication module 301 is used to receive the fetal heart rate signal that first wireless communication module 211 of mobile phone 210 is sent; Second processing module 302 is used for the fetal heart rate signal that is received is handled, as processing such as decodings; Output module 303 is used to export the fetal heart rate signal after the processing, can be audio player as output module 303.

Fig. 3 is the building-block of logic that this utility model of the present utility model detects the system embodiment three of fetal heart frequency, in the present embodiment, the system of this detection fetal heart frequency comprises test section 110, mobile phone 210 and long distance monitoring center 300, wherein, test section 110 comprises probe module 111, first processing module 112, audio output interface 113 and the speaker 114 that connects successively.Mobile phone 210 comprises mike 213, audio input interface 212 and first wireless communication module 211 that connects successively.Long distance monitoring center 300 comprises successively second wireless communication module 301, second processing module 302, counting module 305, computing module 306 and the video player 3032 that connect, and the recording module 304 and the audio player 3031 that are connected with second processing module 302 respectively, wherein, audio player 3031 and video player 3032 all are used to export the fetal heart rate signal after the processing.Preferably, first wireless communication module 211 and second wireless communication module 301 are respectively at least one in following: gsm module, CDMA module, TDMA module.In the present embodiment, probe module 111 is used to gather fetal heart rate signal; First processing module 112 is used for the fetal heart rate signal of gathering is handled; Fetal heart rate signal after speaker 114 will be handled by audio output interface 113 is play.The mike 213 of mobile phone 210 is gathered the fetal heart rate signal that speaker 114 is play, and is sent to first wireless communication module 211 by the fetal heart rate signal that audio input interface 212 is gathered mike 213; The fetal heart rate signal that first wireless communication module 211 is used for being received is sent to second communication module 301 at long distance monitoring center 300; Second wireless communication module 301 is used to receive the fetal heart rate signal that first wireless communication module 211 is sent; Second processing module 302 is used for the fetal heart rate signal that is received is handled; Fetal heart rate signal after the processing is leaded up to audio player 3031 and is play, at first count through counting module 305 on another road, computing module 306 calculates instantaneous heart rate value and average heart rate value, and draws the fetal rhythm rate curve according to the count value of counting module 305 then, instantaneous heart rate value of being calculated and average heart rate value, and the fetal rhythm rate curve of drawing play through video player 3032.At this moment, medical personnel at the long distance monitoring center can not only hear the tire sound by audio player 3031 in real time, and can observe instantaneous heart rate value, average heart rate value and the fetal rhythm rate curve of fetal heart frequency by video player 3032, so can understand the foetus health situation more intuitively, in addition, recording module 304 can also be recorded to the fetal heart rate signal after handling, can prevent fetal heart rate signal when sending since medical personnel do not miss at scene, long distance monitoring center detection opportunity situation generation.Like this, medical personnel also can understand the health status of fetus by accessing the recording of being stored in the recording module 304 after arriving scene, long distance monitoring center.

Fig. 4 is the building-block of logic that this utility model of the present utility model detects the system embodiment four of fetal heart frequency, the system of the detection fetal heart frequency of present embodiment and the same section of embodiment three, do not do at this and to give unnecessary details, the part that they are different below only is described: compare embodiment three, test section 110 in the system of the detection fetal heart frequency of present embodiment also comprises second counting module 115 that is connected successively with first processing module 112, second computing module 116 and first communication interface 117, mobile phone 210 also comprise the interconnective second communication interface 214 and second video player 215.Preferably, first communication interface 117 and second communication interface 214 are the blue tooth interface or the USB interface of coupling mutually.In the present embodiment, fetal heart rate signal after 115 pairs first processing modules of second counting module 112 are handled is counted, computing module 116 calculates instantaneous heart rate value and average heart rate value according to the count value of counting module 115, and drafting fetal rhythm rate curve, instantaneous heart rate value of being calculated and average heart rate value, and the fetal rhythm rate curve of drawing be sent to the second communication interface 214 of mobile phone 210 through first communication interface 117, the instantaneous heart rate value that 215 pairs of second communication interfaces 214 of second video player are received, average heart rate value and fetal rhythm rate curve are play, at this moment, the user also can observe the instantaneous heart rate value of fetal heart frequency by second video player 215 on mobile phone 210, average heart rate value and fetal rhythm rate curve, therefore, so also made things convenient for user's observation, so that in time understand the health status of fetus.

The above is a preferred embodiment of the present utility model only, is not limited to this utility model, and for a person skilled in the art, this utility model can have various changes and variation.All within spirit of the present utility model and principle, any modification of being done, be equal to replacement, improvement etc., all should be included within the claim scope of the present invention.

Claims (10)

1. a system that detects fetal heart frequency is characterized in that, comprising:

At least one is used to detect the test section of fetal heart rate signal;

At least one is used to the hands machine that obtains described fetal heart rate signal and send described fetal heart rate signal;

Be used to receive and handle the fetal heart rate signal that described at least one mobile phone sends and export to the long distance monitoring center that medical personnel check.

2. the system of detection fetal heart frequency according to claim 1 is characterized in that, described test section comprises:

Be used to gather the probe module of fetal heart rate signal;

Be used for first processing module that the fetal heart rate signal of gathering is handled;

Be used for audio output interface that the fetal heart rate signal after handling is exported.

3. the system of detection fetal heart frequency according to claim 2 is characterized in that, described test section also comprises speaker or the earphone that links to each other with audio output interface.

4. according to the system of each described detection fetal heart frequency of claim 1 to 2, it is characterized in that described mobile phone comprises:

Be used to receive the audio input interface of the fetal heart rate signal that the audio output interface of described test section exports;

The fetal heart rate signal that is used for being received is sent to first wireless communication module at long distance monitoring center.

5. the system of detection fetal heart frequency according to claim 4 is characterized in that, described mobile phone also comprises the mike that links to each other with described audio input interface.

6. the system of detection fetal heart frequency according to claim 4 is characterized in that, described long distance monitoring center comprises:

Be used to receive second wireless communication module of the fetal heart rate signal that first wireless communication module of described mobile phone sent;

Be used for second processing module that the fetal heart rate signal that is received is handled;

Be used to export the output module of the fetal heart rate signal after the processing.

7. the system of detection fetal heart frequency according to claim 6 is characterized in that, described first wireless communication module and described second wireless communication module are respectively at least one in following: gsm module, CDMA module, TDMA module.

8. the system of detection fetal heart frequency according to claim 6 is characterized in that, described long distance monitoring center also comprises and is used for recording module that the fetal heart rate signal after handling is recorded.

9. the system of detection fetal heart frequency according to claim 6 is characterized in that, described long distance monitoring center also comprises:

Be used for counting module that the fetal heart rate signal after handling is counted;

Be used for calculating instantaneous heart rate value and average heart rate value, reaching the computing module of drawing the fetal rhythm rate curve according to the count value of described counting module.

10. the system of detection fetal heart frequency according to claim 9 is characterized in that, described output module comprises:

The audio player that is used for the fetal heart rate signal after the playback process;

Be used to show instantaneous heart rate value and the average heart rate value that is calculated, the video player that reaches drafting fetal rhythm rate curve.

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