KR20080101186A - Baby goods moved by sensing bio-signal - Google Patents

Abstract

An article for babies is provided, which makes an infant feel more comfortable by delivering the babies the bio-signal which is familiar to the babies. An article(100) for babies comprises: a sensor(110) sensing at least one kind of bio-signal; a signal processing unit(120) which produces one or more driving signal by using the sensed bio-signal; a motor responding to one or more driving signal; and a driving part(130) which runs at least one among speaker and vibration plate. Bio-signal includes at least one among the pulse signal, respiratory signal, and electroencephalogram, and heart sound signal.

Description

Baby Goods moved by sensing bio-signal

1 is a block diagram showing an embodiment of a baby article operating in response to a bio-signal according to the present invention.

Figure 2 is a block diagram showing another embodiment of a baby article operating in response to the biological signal according to the present invention.

3 illustrates an example of the pulse / breath detection unit illustrated in FIG. 2.

Figure 4 is a block diagram showing another embodiment of a baby article operating in response to the biological signal according to the present invention.

Figure 5 is a block diagram showing another embodiment of a baby article operating in response to the biological signal according to the present invention.

The present invention relates to an infant article such as a baby crib, a baby car seat, a baby carriage, and more particularly, to an infant article that a child can sleep or play with a comfortable mind by operating in response to a living body and a signal.

In general, baby products such as a baby crib, a baby car seat, a walker and the like are mostly manufactured in a stationary manner. However, infants generally prefer to shake or hug rather than lying alone, and they tend to sleep better if they hug or shake when they sleep. To this end, products that can shake these baby products from side to side have recently been manufactured.

By the way, these shaking products are operated at a predetermined speed at the time of manufacture, or a user such as a mother can arbitrarily adjust the speed quickly or slowly by a rotary type or a button type. In this case, the user adjusts and uses the infant at an arbitrary speed at which the infant thinks the user's favorite speed, rather than the infant's favorite speed. Therefore, in order to find the infant's favorite speed, there is a disadvantage that must go through several trials and errors.

The technical problem to be achieved by the present invention is to adjust the moving speed of the mat according to the pulse signal or breathing signal of the mother, etc., which operates in response to the bio-signal that the heart sound of the mother can be transmitted through the speaker or diaphragm To provide baby products.

In order to achieve the above technical problem, the infant product operating in response to the biosignal includes a sensing unit, a signal processing unit, and an output unit.

The detector detects at least one type of biosignal. The signal processor generates at least one driving signal using the sensed biosignal. The driving unit drives at least one of a motor, a speaker, and a diaphragm in response to the at least one driving signal.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing an embodiment of a baby article operating in response to a bio-signal according to the present invention.

The baby product 100 shown in FIG. 1 includes a detector 110, a signal processor 120, and a driver 130.

The detector 110 detects at least one type of biosignal. In this case, the biosignal may be a pulse signal, a breathing signal, an EEG signal, and a heart sound signal. For example, the detection unit 110 may include a pulse / breath detection unit 111 when detecting a pulse signal or a breathing signal, and includes a heart sound detection unit 112 when detecting a heart sound signal. can do.

The signal processor 120 generates at least one driving signal using the biosignal detected by the detector 110. In this case, the driving signal may be a signal for driving the motor 141 or a signal for driving the speaker or the diaphragm 142. For example, when the detected biosignal is a pulse signal, another driving signal may be generated according to a cycle of the pulse signal, and accordingly, the driving unit 130 may drive the speed of the motor 141 differently.

Here, the signal processor 120 may be a micro controller unit (MCU) having a calculation function, a control function, a storage function, and the like.

The signal processor 120 generates a driving signal corresponding to the biosignal detected by the mother, and directly generates a driving signal corresponding to the detected biosignal, or stores the detected biosignal and then stores the driving signal corresponding to the stored biosignal. Generate a signal. To this end, the signal processor 120 may include a storage unit 121 that stores the detected biosignal and a controller 122 that generates a driving signal corresponding to the detected biosignal or the stored biosignal. Here, the controller 122 may generate at least one driving signal by using the biosignal stored in the storage unit 121, thereby enabling the operation of the infant article 100 even when the mother is not near the infant.

The signal processor 120 further includes an A / D converter (220 in FIG. 2 and 420 in FIG. 4) to convert and store the biosignal output from the detector 110 into a digital signal or to convert the biosignal into a digital signal. A driving signal corresponding to the signal may be generated. In addition, the signal processor 120 may further include an amplifier (270 in FIG. 2 and 460 in FIG. 4) to amplify the output biosignal or obtain a filter unit (280 in FIG. 470 of 4 may be further provided to remove noise included in the output biosignal.

The driver 130 drives at least one of the motor 141, the speaker, and the diaphragm 142 in response to the drive signal generated by the signal processor 120. To this end, the driver 130 may include a motor driver 131 for driving the motor 141 or a speaker driver 132 for driving the speaker or the diaphragm 142. In this case, the motor driver 131 may be a motor controller, and the speaker driver 132 may be a sound generating circuit. Here, as shown in FIG. 5, through the motor 141, the mat 502 provided in the infant bed 501 may be shaken, and heart sounds such as the mother may be transmitted through the speaker or the diaphragm 142. Can be.

Figure 2 is a block diagram showing another embodiment of a baby article operating in response to a bio-signal according to the present invention, when the baby product 200 shown in Figure 2 detects a pulse signal or breathing signal as a bio-signal Shows an example.

Referring to FIG. 2, the infant product 200 that operates in response to a biosignal includes a pulse / breath detection unit 210, an analog to digital (A / D) conversion unit 220, a processing unit 230, and a storage unit ( 240, a control unit 250, and a motor driving unit 260.

The pulse / breath detection unit 210 detects at least one of a pulse signal and a breathing signal as a biological signal such as a mother. To this end, the pulse / breath detection unit 210, as shown in Figure 3, the light emitting element 311, such as LED for injecting light to a specific part of the human body, such as the fingertips of the mother and the like and its specific site A photo sensor 312, such as a photo transistor, may be provided to detect a pulse signal or a breathing signal through light reflected from the photo transistor and output the electrical signal as an electrical signal. The light emitting device 311 and the photo sensor 312 may be a main component of the so-called pulse / breath detector, and the pulse / breath detector having the light emitting device 311 and the photo sensor 312 is a technology to which the present invention pertains. Anyone skilled in the art can easily implement, and thus a detailed description thereof will be omitted.

The A / D conversion unit 220 converts the pulse signal or the respiration signal detected by the pulse / breath detection unit 210 into a digital signal. The processor 230 extracts and calculates a pulse signal or a respiratory signal converted into a digital signal by the A / D converter 220 and processes it. The storage unit 240 stores the pulse signal or the respiratory signal extracted and calculated by the processor 230 and processed. The controller 250 generates at least one driving signal corresponding to the stored pulse signal or the breathing signal. The motor driver 260 drives the motor in response to the drive signal generated by the controller 250. In addition, in order to obtain a high-quality pulse signal or respiration signal, it may further include an amplifier 270 for amplifying the pulse signal or respiratory signal or a filter unit 280 for removing noise contained in the pulse signal or respiratory signal. .

Figure 4 is a block diagram showing another embodiment of a baby article operating in response to the bio-signal according to the present invention, the baby product 400 shown in Figure 4 is a case of detecting a heart sound signal with a bio-signal For example.

Referring to FIG. 4, the infant product 400 that operates in response to a biosignal includes a heart sound detector 410, an A / D converter 420, a storage 430, a controller 440, and a speaker driver ( 450).

The heart sound detector 410 detects a heart sound signal as a biological signal such as a mother. To this end, the heart sound detecting unit 410 may include a stethoscope or microphone 510 that detects a heart sound signal and outputs it as an electrical signal.

The A / D converter 420 converts the heart sound signal detected by the heart sound detector 410 into a digital signal. The storage unit 430 stores the heart sound signal converted into a digital signal by the A / D converter 420. The controller 440 generates at least one driving signal corresponding to the stored heart sound signal. The driving unit outputs sound to the speaker or vibrates the diaphragm in response to the driving signal generated by the controller 440. From a speaker or diaphragm that can be embedded in a crib or pillow, the infant can feel the heartbeat of the mother. In addition, the amplification unit 460 for amplifying the heart sound signal or the filter unit 470 for removing noise included in the heart sound signal may be further provided to obtain a high quality heart sound signal.

Figure 5 is a block diagram showing another embodiment of a baby article operating in response to the bio-signal according to the present invention, the structure of the baby bed 501 is briefly shown.

Referring to FIG. 5, a baby product 500 that operates in response to a biosignal includes a mat 502 and, like the baby product 100 shown in FIG. It includes a sensing unit for detecting a signal, a signal processing unit for generating a motor driving signal using the sensed bio-signal, and also includes a motor driving unit 520 for driving the motor 510 in response to the motor driving signal. According to the motor driving signal generated from the signal processor, the motor driver 520 may drive the motor 510 with a different rotational speed, and the like, and thus, the left / right or up / down of the mat 502 connected to the motor. The shaking may also be different.

Here, the mat 502 is connected to the motor 510 by a mat-motor connecting member 504. The mat-motor connecting member 504 may be composed of at least one bar. In addition, the lower portion of the mat 502 is combined with a friction reducing member 503 to reduce friction. The friction reducing member 503 may be formed in a form in which a plurality of balls are arranged.

On the other hand, the infant product 100 operating in response to the bio-signal according to the present invention includes a temperature display unit for detecting and displaying the ambient temperature with a temperature sensor, a humidity display unit for detecting and displaying the ambient humidity with a humidity sensor In addition, the pressure sensor may further include a weight display unit for measuring and displaying the weight of the infant.

The technical spirit of the present invention has been described above with reference to the accompanying drawings. However, the present invention has been described by way of example only, and is not intended to limit the present invention. In addition, it is apparent that any person having ordinary knowledge in the technical field to which the present invention belongs may make various modifications and imitations without departing from the scope of the technical idea of the present invention.

As described above, the infant product operating in response to the bio-signal according to the present invention can pass the bio-signal contacted to the infant when the infant is in the mother's belly, the infant can be more comfortable, and also the infant Even when you are away, you can deliver your own bio-signals, which has the advantage of having a comfortable mind.

Claims (17)

A detector for detecting at least one type of biosignal; A signal processor configured to generate at least one driving signal using the detected biosignal; And And a driving unit for driving at least one of a motor, a speaker, and a diaphragm in response to the at least one driving signal. The method of claim 1, wherein the bio-signal, Infant article that operates in response to a biological signal, characterized in that it comprises at least one of a pulse signal, a breathing signal, an EEG signal and a heart sound signal. The method of claim 1, wherein the signal processing unit, A storage unit which stores the detected biosignal; And And a controller configured to generate a driving signal corresponding to the sensed biosignal or the stored biosignal. The method of claim 1, wherein the driving unit, And a motor driver for driving the motor and a speaker driver for driving the speaker or the diaphragm. The method of claim 1, wherein the signal processing unit, Infant article operating in response to the biological signal, characterized in that for converting the biological signal output from the sensing unit into a digital signal. The method of claim 1, wherein the signal processing unit, Infant article that operates in response to the biological signal, characterized in that for amplifying the biological signal output from the detection unit. The method of claim 1, wherein the signal processing unit, Infant article operating in response to the biological signal, characterized in that for removing the noise contained in the biological signal output from the detection unit. A pulse / breath detection unit for detecting at least one of a pulse signal and a breathing signal; An A / D converter converting a signal detected from the pulse signal and the respiratory signal into a digital signal; A processor configured to extract, calculate, and process a signal converted into the digital signal; A storage unit which stores the processed signal; A controller configured to generate at least one driving signal corresponding to the stored signal; And And a motor driver configured to drive a motor in response to the at least one drive signal. The method of claim 8, Responding to the bio-signal further comprises at least one of an amplifier for amplifying the detected signal from the pulse signal and breathing signal and a filter unit for removing noise included in the signal detected from the pulse signal and breathing signal Baby goods that work by. The method of claim 8, wherein the pulse / breath detection unit, And a photo sensor for detecting light reflected from the specific part of the human body and outputting the light reflected by the specific part of the human body as an electrical signal. A heart sound detector for detecting a heart sound signal; An A / D converter converting the detected heart sound signal into a digital signal; A storage unit for storing the heart sound signal converted into the digital signal; A controller configured to generate at least one driving signal corresponding to the stored heart sound signal; And And a speaker driver configured to output a sound to a speaker or vibrate the diaphragm in response to the at least one drive signal. The method of claim 11, And an amplifying unit for amplifying the detected heart sound signal and a filter unit for removing noise included in the detected heart sound signal. The method of claim 11, wherein the heart sound detecting unit, Infant supplies operating in response to a biological signal, characterized in that it comprises a stethoscope or a microphone for detecting the heart sound signal and outputs the electrical signal. In the baby product provided with a mat, A detector for detecting at least one type of biosignal; A signal processor configured to generate a motor driving signal using the detected biosignal; And a motor driver for driving the motor in response to the motor driving signal. The mat is connected to the motor by a mat-motor connection member, the infant product operates in response to the biological signal, characterized in that the friction reducing member is coupled to the lower portion is coupled. The method of claim 14, wherein the friction reducing member, Infant article that operates in response to the biological signal, characterized in that formed in the form of a plurality of balls (ball). The method of claim 14, wherein the mat-motor connecting member, Infant article that operates in response to the biological signal, characterized in that consisting of at least one bar (bar). The method according to any one of claims 1 to 16, Infant article operating in response to a biological signal, characterized in that it further comprises at least one of a temperature display for sensing and displaying the temperature, a humidity display for sensing and displaying the humidity and a weight display for sensing and displaying the weight.

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