TWI317272B - - Google Patents

Description

ϊ 317272 IX. Description of the invention: [Technical field of invention] The present invention relates to the design of an electrocardiographic signal measuring device, and more particularly to a wireless sleep ECG signal measuring device, which can provide a quantity: The ECG digital signal is sent to the health center to study the sleep quality of the person being measured. [Prior Art] Because the ECG signal generated by the human body is related to various health conditions of the human body, the human body's ECG signal can be used to understand the function of the whole body. Therefore, various ECG signal measuring devices have been developed to borrow The human body's various health conditions are monitored by the detection of human ECG signals. For example, an electrocardiogram (EKG) measuring device for medical use or an electrocardiographic signal measuring device generally used for understanding sleep conditions can allow the user to know his or her own physical condition by measuring the ECG signal. In the conventional electrocardiographic signal measuring device, 'mainly is measured by a plurality of electrode stickers, # and wires, and a computer device, and the electrode patch is attached to the human body, and the wire is connected to the electrode patch and Between the computer devices, the ECG signal for transmitting the electrode patch is sent to the computer device, and the computer device stores, analyzes and displays the received ECG signal. SUMMARY OF THE INVENTION The technical problem to be solved by the present invention is that the body sleep state is traditional and has a plurality of wires. However, the current market or medical device for detecting a human heart signal measuring device is complicated in design and cumbersome 5 1317272; (four) film. The burden of sleep is big. Not only did not consider ergonomics, but.疋 - kind of sleep quality. Not reluctant, use or even influence 彖h This "the main purpose of the Ming is to provide a kind of | line digital 弋 electric signal measuring device, you can use the wireless _ way can be the ECG signal. Eight is the user of this service. The other purpose of this month is to provide a kind of sleep ECG signal! Quality? It is convenient for users to wear while sleeping and can be used afterwards:: Sleep: The technical means for solving the problem of the present invention The technical means adopted by the technology slave problem is a line-type sleep ECG signal measuring device, which comprises at least two-cardiography, an electrode patch, an ECG signal detecting module and at least two bonding members. The cardiac signal detection module includes a modeling memory circuit, a microprocessor, a built-in door, and a display. The electrocardiogram 7 is connected to the processing circuit to connect (4) the electrocardiographic signal electrode patch to detect the J to the electro-chemical 5 tiger, and digitally process the digital ECG signal; the microprocessor_ is connected to the ECG signal The receiving and processing circuit is configured to receive the digitized ECG signal sent by the signal receiving and processing circuit; and the built-in memory system is connected to the microprocessor, and the digital heart is stored; the display is also connected The microprocessor is configured to display the digitized 2 signal. The bonding device is respectively disposed on the electrocardiographic signal electrode mounting position 1 ' can be respectively fastened to the module 1372772 丨 housing of the electrocardiographic signal detecting module, and the ECG signal detecting module and the center are respectively The electrical signal electrode patch is 'bonded. In a preferred embodiment of the present invention, the ECG detection module further includes a bevel transmission interface connected to the microprocessor for transmitting the digitized ECG signal to the computer device. And the data transmission interface can be connected to a wireless transmitter. The invention compares the effects of the prior art, and the technical means adopted by the present invention can enable the ECG signal detector to obtain the ECG signal without connecting the wires, thereby eliminating the traditional measuring device guide. The inconvenience is convenient to wear when sleeping, and can be recorded and analyzed. Xuan ~ chaos nickname to understand the user's sleep. The specific embodiments of the present invention will be further described by the following examples and the accompanying drawings. [Embodiment] > 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 A second embodiment of a wireless sleep ECG signal measuring device. The first embodiment 100 of the wireless sleep ECG signal measuring device of the present invention comprises an electrocardiographic signal first slice a, an electrocardiographic signal first 'pole patch lb, an ECG signal detecting module 2 and at least two bonding members 3. The ECG detection module 2 includes a module housing 2, a bottom box 22, a battery unit 23, a circuit board 24, a display unit, and a 1317272 key group 26. The housing unit 21 includes an upper housing 211 and a lower housing 212. The lower housing has a constant hole 2a formed at both ends thereof, and the coupling member 3 is disposed on the electrocardiographic signal. The connection position of the electrode patch la and the second electrode patch lb of the electrocardiographic signal can be respectively fastened to the through hole 2a for the ECG signal detecting module 2 and the first electrode of the ECG signal The patch la and the electrocardiographic signal second electrode patch ib are combined. The ECG signal first electrode patch la and the ECG signal second electrode patch lb can be attached to the skin of the human body or near the heart to detect the ECG signal of the human body. The bottom cover 22 is disposed at an optional position of the lower casing 212 for fixing the battery unit 23, and can be used as the electrocardiographic signal first electrode patch la and the second electrode of the electrocardiographic signal. A selective third electrode (ground) to correct the detected ECG signal. The battery can be a rechargeable battery or a general lithium battery, etc., when the battery is 7C 23 and can provide a working voltage to the heart and electrical signal detecting module 2 '. The circuit board 24 is disposed in the internal space of the module housing 21, and the first embodiment of the wireless sleep ECG signal measuring device 100 t channel can receive the ECG signal An electrode patch & and an electrocardiographic signal detected by the second electrode patch lb of the electrocardiographic signal, and is processed into a digitized cardiac 'electric signal by a number of two; and the display device 25 is disposed on the upper and lower months The selection position of the 1 211 is connected to the control circuit for displaying the date, and the button group 26 is also disposed at a selected position of the upper casing 211 to be connected to the 5H control circuit. Use it. In addition, the period indicated by the display 25 is: 1317272 "Time" when it is cut at 5 o'clock, or when the person receives the ECG signal 9 + 々 8 inches. In addition, the key group 26 can also A touch panel is configured to replace the function of automatically turning on and off the power supply according to 100 Yulu. When using the present invention, the power supply is from the user of the company + the user of the field ^ R , „g _ Move, the power will automatically turn off when it is under drought. The second figure is not the wireless sleep ECG signal control circuit diagram of the present invention. As shown in the figure, I smoked the yoghurt one---- this month',, line-type sleep ECG semaphores, the first step of the circuit board of the example of the circuit board 24 includes an electrocardiogram The circuit 241, the microprocessor 242, a built-in memory: and the Bayer transmission interface 244', wherein the ECG signal receiving and processing circuit, such as the singular-electrocardiographic signal amplifying circuit (10) and the analog-to-digital signal conversion (4) 4 lb. Moreover, the first electrocardiographic signal_module 2 of the wireless sleep ECG signal measuring device of the present invention can also be plugged into the data storage device 27a and set an angle measuring device 29. When the wireless sleep electrocardiographic signal measuring device of the present invention is used to measure the electrocardiographic signal of the first electrode patch la of the telecardiogram signal and the second electrode patch la of the electrocardiographic signal, The electrocardiographic signal amplifying circuit is amplified and digitized into a digitalized electrocardiographic signal by the analog-to-digital signal conversion circuit 24, and then transmitted to the microprocessor 242, and the bottom cover 22 is grounded and The electrocardiographic signal first selects a second electrode other than the second electrode material lb of the electrocardiographic signal to correct the detected ECG signal. The microprocessor 242 transmits the received digital ECG signal to 1317272 243 for storage. Alternatively, the digital telecentricity can be extracted from the memory 243 and transmitted through the data interface interface. Or the microprocessor 242 can also store: = signal to the data storage memory card I: = ^ 244 can be a USB socket or a similar component 1 ^ digital memory stored in the built-in memory 243 ECG signals and analysis of the user's sleep quality are very helpful. In the later stage of the incident, the date displayed on the display 25 can be set, and the computer Μ 4 can also set the date and time displayed on the display 25 via the data transmission interface 244 and the processing target 242 and control the heart. Upload and download of electrical signals. The angle measuring device 29 is used to measure the angle of sleep of the wearer. The fourth figure shows another circuit diagram of the bright-line sleep ECG signal measuring device of the present invention, which is substantially the same as the previous control circuit, so the same components are labeled with the same component number, The difference lies in the first embodiment of the benefit line sleep ECG signal measuring device of the present invention, wherein the ECG signal detection mode, and the second can be included in the hot wire transmitter 28, and the microprocessor The received digital H money is sent to the receiving circuit 41 via the (four) transmitting interface (10) and the wireless transmitter 28, and then transmitted to the computer device 4. The wireless transmitter 28 is designed in the form of Bluetooth, infrared (IR), radio frequency (RF), wireless identification system (RHD), or a 2 4ghz lamp. The ECG detection module 2 is provided with a touch panel 20 connected to the microprocessor for setting the display period and time of the display. 1317272, the eighth figure shows the wireless sleep ECG signal measuring device of the present invention; 'Please refer to the fifth to ninth figures, and the fifth figure shows the wireless sleep ECG signal measuring device of the present invention. The second embodiment shows a bottom view of the second embodiment of the wireless sleep electrocardiographic signal measuring device of the present invention, and the seventh embodiment shows the wireless sleep of the present invention. The combination of the electrocardiographic signal measuring device in the second embodiment corresponds to the top view of the ECG signal electrode patch of the second embodiment, and the ninth figure shows the second implementation of the wireless sleep ECG signal measuring device of the present invention. A side view of an example of an ECG signal bungee patch. The structure and circuit design of this second embodiment are substantially the same as those of the first embodiment described above, and the same components are denoted by the same component numbers. The difference is that the electrocardiographic signal first electrode patch la and the electrocardiographic signal second electrode patch lb and the electrocardiographic signal third electrode patch are connected with a -Y subtype non-conductive material. The two are combined to form a square patch to be attached to the user's body at the same time. The third electrode of the electrocardiographic signal: the slice 1C serves as the third electrode of the electrocardiographic signal first-electrode patch U and the electrocardiographic signal second electrode patch lb to correct the detected heart electric signal. a % pole patch joint 3 a and

The ECG signal detecting module and the bonding member 3 can be divided into at least two electric metal bonding members 3b, which are respectively disposed on the core telecommunication portion electrode patch 1b and the electrocardiogram signal; The electrode patch bonding member 3 a is disposed at a distance from each other, and the heart-shaped detector & 1317272 two-electrode patch 1a, the electrocardiographic signal second electrode patch 1b, and the electrocardiogram are disposed. The first-package patch lc is combined. The electrocardiographic signal detecting module 2 of the second embodiment 1A is disposed with a data storage memory card slot 27 and an angle measuring device, 29' (4) storing a memory card _ 27 The detected ECG signal is stored by inserting a data card 27a, and the angle measurement is used to measure the wearer's sleeping posture angle. The first embodiment is described in the tenth to twelfth aspects. Figure 10 is a perspective view showing a third embodiment of a line-type sleep ECG signal measuring device, and a tenth-picture showing a third embodiment of the wireless sleep ECG signal measuring device of the present invention. The combination diagram corresponds to the schematic diagram, and the second diagram shows the bottom view of the third embodiment of the wireless sleep-to-electrical measurement apparatus of the present invention. The structural design of the third embodiment 100c is substantially the same as the second embodiment described above, and the same components are denoted by the same component numbers. ""Poor" in the square ' σ Xuan ' "Electric 彳 § No. 1 electrode patch 1 a, ECG signal - electrode stickers >! lb, ECG signal third t-pole patch composed of square stickers The sheet is sewn to the bottom surface 5b of a strip 5. The electrode patch bonding member is disposed at a distance from the top surface 5a of the strip 5, and is respectively connected to the first electrode patch la of the electrocardiogram k, the second electrode patch lb of the electrocardiogram signal, and the heart number The third electrode patch 1C can be respectively fastened to the metal bonding component 3b and the electrocardiographic signal detecting module 2 is coupled to the strip 5 . 12 1317272; The strip 5 is in the form of a long strip, and a fastening element 51 is disposed on both sides thereof, so that the user can wear the third embodiment 100c of the wireless sleep ECG measuring device of the present invention. On the abdomen or chest to avoid sleep. The thirteenth image shows an interval sampling plot of the analog-to-digital digital ECG signal. It uses an 8-bit analog-to-digital converter to convert the analog signal strength into a digital poor material (〇~255). The signal sampling frequency is per second. The signal strength range is 〇~3. The analog signal of 〇〇〇mV is converted into a digital signal with a digit value of 0~255, and the sampling ratio is 1〇〇Hz, and the data is taken once every l〇ms, and the conversion formula is Y=(x/255)x3〇〇〇 mV, where Y represents the analogy "actual value of intensity" χ represents the converted digital signal value 'for example, the analog signal of intensity 4 176.46 mv is converted into digital signal 15 after conversion, compared to the present invention can provide the measured d digital signal The health center is studied to study the sleep quality of the person being measured. It can be seen from the above embodiments that the wireless sleep ECG measuring device 4 provided by the present invention has industrial value, and the present invention has been in compliance with the requirements of the patent. (4) The above description of the preferred embodiment of the present invention, those skilled in the art may, in accordance with the above description (4) other various improvements, but these changes still belong to the inventive spirit of the present invention and the patents defined below In the scope. BRIEF DESCRIPTION OF THE DRAWINGS The first figure shows an exploded perspective view of the first embodiment of the wireless sleep ECG signal measuring device of the present invention; the second figure shows the wireless sleep ECG signal measuring device of the present invention. A real 13 1317272 bottom view of the embodiment; the third figure shows the control circuit diagram of the wireless sleep ECG signal measuring device of the present invention; the fourth figure shows the other of the wireless sleep ECG signal measuring device of the present invention FIG. 5 is a perspective view showing a second embodiment of the wireless sleep ECG measuring device of the present invention; and FIG. 6 is a view showing a second embodiment of the wireless sleep ECG measuring device according to the second embodiment of the present invention. The bottom view of the signal electrode patch; the seventh figure shows the corresponding component in the second embodiment of the wireless sleep ECG signal measuring device of the present invention, and the eighth figure shows the wireless sleep ECG signal amount of the present invention. The top view of the ECG signal electrode patch of the second embodiment of the measuring device, and the ninth figure shows the ECG signal electrode patch of the second embodiment of the wireless sleep ECG signal measuring device of the present invention 10 is a perspective view showing a third embodiment of the wireless sleep ECG signal measuring device of the present invention; and FIG. 11 is a view showing a combination of the third embodiment of the wireless sleep ECG measuring device of the present invention; Corresponding Schematic; Fig. 12 is a bottom view showing a third embodiment of the wireless sleep electrocardiographic signal measuring device of the present invention; and Fig. 13 is a cross-sectional sampling chart showing analogous digital electrocardiographic signals. 14 1317272

: Main component symbol description] 100, 100a, 100c Wireless sleep ECG signal measuring device la ECG signal First electrode patch lb ECG signal Second electrode patch lc ECG signal Second electrode patch 2 ECG Signal detection module 2a through hole 21 module housing 211 upper housing 212 lower housing 22 bottom cover 23 battery unit 24 circuit board 241 electrocardiographic signal receiving and processing circuit 241a electrocardiographic signal amplifying circuit 241b analog to digital signal conversion Circuit 242 Microprocessor 243 Built-in memory 244 Data transmission interface 25 Display 26 Button group 27 Data storage Memory card slot 27a Data storage memory card 15 1317272 28 Wireless transmitter 29 'Angle measuring device η J Connector 3a Electrode sticker Sheet joint 3b metal joint 4 computer device 41 receiving circuit 5 strip 51 adhesive element 5b bottom surface of strip 5a top surface of strip 16

Claims (1)

1317272 : , ' £ - Patent application scope: " .· ! •, +. 1· A wireless sleep ECG signal measuring device, including: at least two ECG signal electrode patches for attaching to a use The skin of the abdomen or near the heart to detect the ECG signal of the human body; an ECG signal detection module comprising: a module housing; • an ECG signal receiving and processing circuit for receiving the ECG signal The electrocardiographic signal detected by the electrode patch is processed into a digitized ECG signal by analog-to-digital conversion; a microprocessor is connected to the ECG signal receiving and processing circuit for receiving and receiving the ECG signal a digitalized ECG signal sent by the circuit; a built-in δ hexamed body connected to the microprocessor for storing the digitized ECG signal; an art angle measuring device connected to the microprocessor for Measure the sleeping posture angle of the user; at least two bonding members respectively disposed at the selected position of the electrocardiographic signal electrode patch can be respectively fastened to the module housing of the electrocardiographic signal detecting module Electrical signal detection module and the ECG electrode patch to be binding. The wireless sleep ECG signal measurement described in σ Hsn1 ^Electronic 仏 (4) module further includes a display connected to the 7272 microprocessor for displaying the date and time. = Please refer to the wireless sleep ECG signal measurement device described in the second aspect of the patent, wherein the ECG signal module comprises a button group connected to the microprocessor for setting the date displayed by the display. and time. 4·^Please refer to the wireless sleep ECG signal measurement described in the scope of claim 2, wherein the heart 'f signal detection module includes a touch panel on the microprocessor for setting the display The date and time displayed. For the data transmission interface, please refer to the wireless sleepy ECG signal measurement mentioned in item 1. The ECG signal detection module further includes a microprocessor and a computer device. 6·=: Wireless sleep ECG measurement as described in item 5 of the scope? The Hibb's transmission interface is connected to a wireless transmitter, and the electrical connection is connected to a receiving circuit to enable data transmission between the computer devices. In the office. The wireless sleep ECG signal measurement /, the Zhonghao ECG signal detection module described in the mouth of the article further includes a battery unit. 8^1Special = Fan (4) The wireless sleep ECG signal measurement /, the Zhongyi ECG signal detection module includes a data storage memory card • 1332772 slot 'to plug in a data storage memory card . The wireless sleep electrocardiographic signal measuring device according to claim 1, wherein the electrocardiographic signal electrode patch is a conductive cloth. The wireless sleep ECG measuring device according to claim 9, wherein the conductive cloth is sewn to a cloth to be worn on a human body. The wireless sleep ECG signal amount as described in item 1 of the patent application is ashamed, wherein the electrocardiographic signal electrode patch is an electroplated conductive pad 2', and the application is as described in the above paragraph. Wireless sleep heart telegraph = shame, wherein the ECG signal electrode patch is made of conductive silicone spine