TWM332469U - Miniaturized wireless measurement device for electrocardiographic signal - Google Patents

Description

M332469

« I VIII, new description: [New technical field] This creation is about the design of an ECG signal measuring device, especially a miniaturized wireless ECG signal measuring device. '[Prior Art]. Since the ECG signal generated by the human body is related to various health conditions of the human body, the body function of the human body can be used to understand the function of the whole body. Therefore, various ECG signal measuring devices have been developed. To monitor various health conditions of the human body by detecting the human body's 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 enable the user to understand his or her physical condition by measuring the ECG signal. In the conventional ECG signal measuring device, it is mainly measured by a plurality of electrode patches and wires and a computer device, that is, the electrode patch is attached to the human body and the wire is connected to the electrode patch and Between the computer devices, the electrocardiographic signals of the electrode patch (4) are transmitted to the computer device, and the computer device stores, analyzes and displays the received ECG signals. [New content] The technical problems to be solved by this creative work·····, and the traditional ECG signal measuring device used in the market or medical treatment to detect the sleeping state of the human body is complicated and cumbersome, and has many Leads it junction electrode patch. For sleep detectors, it is a kind of M332469 that even affects the burden of sleeping a lot. Not only did ergonomics not be considered, but the quality of sleep was not practical. In addition, the main purpose of this creation is to provide a wireless heart-signal device that can obtain the user's heart-thunder signal by wireless detection. Small-scale ECG semaphore measurement Another purpose of this creation is to provide a place for users to wear while sleeping.

The technical means to solve the problem in this creation: The technical means adopted by this creation to solve the problem of the conventional technology is a miniaturized wireless heart and electric signal measuring device, including at least two-hearted telecommunications: electrode patch and eMule. No. Receive processing module. ECG signal receiving processing = group t has - first - receiving end and - second receiving end, first - receiving end and second receiving end are respectively combined with electrocardiographic signal electrode patch, ECG signal receiving processing

Wu, is used to receive and process the heart signal detected by the ECG signal electrode patch. 8: In the preferred embodiment of the present invention, at least two bonding members may be included, which are widely disposed at selected positions of the electric electrode patch, and can be respectively buckled to the first of the electrocardiogram receiving and processing modules. The receiving end and the second receiving end combine the ECG signal receiving processing module and the ECG signal electrode patch. This creation compares the effects of the prior art: ^ "With the technical means adopted by this creation, the combination of the core telecommunications-electrode patch and the ECG signal receiving and processing module is combined with the wireless type M332469 meter, which can make the ECG The signal detector can obtain the inconvenience caused by the electrocardiographer's name as the wire of the traditional measuring device, and the design can be easily worn by the user during sleep. /, The specific use of this creation The embodiment will be further described by the accompanying drawings. κ她1〗 [Embodiment] Referring to Fig. 1 to Fig. 2, the system shows the miniaturized ECG signal of the creation The first embodiment of the measuring device. The miniaturized materialless electrocardiographic signal measuring device 100 comprises a two-cardiac signal electrode patch ia, 丨b, an electrocardiogram, a fa 5 tiger receiving processing module 2 and a combination of two 3. The electrical ia receiving processing module 2 is configured to receive and process the ECG signals detected by the ECG signal electrode patches la, lb, and includes a module housing 21, a bottom cover 22, and a Battery unit 23, a circuit board 24, a display list 25. A button set 26 and a wireless transmitter 28. The module housing 21 includes an upper housing 211 and a lower housing 212, and the electrocardiographic signal receiving processing module 2 has a first receiving end 212a and a The second receiving end 212b, the first receiving end 212a and the second receiving end 212b are located at selected positions of the lower housing 212, and the lower housing 212 is respectively provided with a consistent hole at the first receiving end 212a and the second receiving end 212b. 213. The two bonding members 3 are respectively disposed at selected positions of the electrocardiographic signal electrode patches la and lb, and are respectively fastened to the first receiving end 212a and the second receiving end 212b of the electrocardiographic signal receiving and processing module 2, respectively. The through hole 213 is opened to combine the electrocardiographic signal receiving processing module 2 and the electrocardiographic signal electrode patch 1 a, 1 b. 7 M332469 ECG signal electrode patch 1 a, 1 b can be attached to the human body The skin of the abdomen or the heart is detected to detect the ECG signal of the human body. The bottom cover 22 is disposed at a selected position of the lower casing 212 of the module housing 21 for fixing the battery unit 23' and can be used as an electrocardiogram. Selective third electrode other than signal electrode patch 1 a, 1 & ), to correct the ECG signal of the ECG signal electrode patch la, lb. The battery unit 23 can provide a working voltage to the ECG • Signal receiving processing module 2, in actual application, the battery unit 23 It can be a rechargeable battery or a general lithium battery, etc. The circuit board 24 is disposed in the internal space of the module housing 21, and includes the control circuit of the miniaturized wireless ECG signal measuring device. The device can receive the ECG signals detected by the ECG signal electrode patches la, lb, and digitize the signals into digitalized ECG signals; and the display unit 25 is disposed at a selected position of the upper casing 211, and is connected to the control. Circuit to display the date and time. The button group 26 is also disposed at a selected position of the upper casing 211 and is connected to the control circuit for setting the date and time displayed by the display unit 25. The ten-day mode can be timed automatically or manually. In addition, the ECG signal receiving and processing module 2 can also be configured with a touch panel instead of the function of the button group 26. Moreover, the control of the miniaturized wireless ECG signal measuring device 1 has the function of automatically turning on and off the power. When the user wears the original creation, the power is automatically turned on and the power is automatically turned off. The wireless transmitter 28 is disposed on the circuit board 24 for transmitting the digitized digitalized ECG signal to a computer device. Wireless Transmitter M332469 28 is available in Bluetooth, IR, RF, RFID, or 2.4GHZ RF. The eyesights are shown in Figures 3 to 7, which show the second embodiment of the miniaturization of the creation ... and the line ECG s. The structure and circuit design of the miniaturized wireless electrocardiographic signal measuring device 100a are substantially the same as those of the first embodiment. Therefore, the same components are denoted by the same component numbers. • The difference is that the miniaturized wireless ECG signal measuring device l〇0a includes an electrocardiographic signal electrode patch lc, and the electrocardiographic signal electrode patches la, ib, and lc are each a γ-shaped insulating material. The ECG signal electrode patches lb and lc are combined together, and the three are combined to form a square patch for simultaneous attachment to the user's human body. The electrocardiographic signal electrode patch 1c serves as a selective third electrode other than the electrocardiographic signal electrode patches la, lb to correct the electrocardiographic signals detected by the electrocardiographic signal electrode patches 1a, 1b. The miniaturized wireless electrocardiographic signal measuring device 丨〇〇a includes three binding members 3 respectively disposed at the selected position of the electrocardiographic signal electrode patches la, lb, and lc, and the electrocardiogram receiving processing mode. The group 2a further includes a joint end. The structural design of the first receiving end 212a, the first receiving end 212b and the binding end 212c of the ECG h receiving processing module 2a corresponds to the joint member 3 so that the joint member 3 can be respectively engaged with the first receiving end 212a, the second receiving end 212b and the binding end 212c of the ECG signal receiving and processing module, and the ECG signal receiving processing module 2a and the ECG signal electrode patch la, lb And lc are combined. Preferably, the selected position of the miniaturized wireless ECG signal measuring device 1A, the electrocardiogram M332469 processing module 23 is provided with a data storage ticker 27 and an angle measuring device 29, and the data storage device 2 Referring to Figures 8® through 1 , it shows a third embodiment of the present miniaturized ECG signal measuring device. The design of the miniaturized benefit material ECG (4) measuring device _ is substantially the same as the second embodiment, so the same components are labeled with the same component number. The difference is that the square patch composed of the electrocardiographic signal electrode patches la, ib, and lc is disposed on the bottom surface 5b of the long strip body 5. The binding member 3 is arranged at the selected position of the long strip body 5·5a, and is respectively connected with the electrocardiographic signal electrode patches la, lb, and le, and the bonding member 3 can be respectively engaged with the electrocardiogram 5 tiger Receiving the first receiving end 212a, the second receiving end 212b and the combining end 212c of the processing module 2a, and combining the ECG signal receiving processing module with the long strip body 5 and 4 signal electrode patches la, lb, u In the present example, the electrocardiographic signal electrode patches la, lb, and lc are conductive cloths, and the long strip body 5 is a strip. The two sides of the long strip body 5 are provided with a fastening member 51. Therefore, the user can wear the miniaturized wireless electrocardiographic signal measuring device 1〇〇c to the abdomen or the chest for sleep. As can be seen from the above embodiments, the miniaturized wireless electrocardiogram provided by the present invention The signal measuring device has the industrial value, so the original operation has been in accordance with the requirements of the patent. However, the above description is only the preferred embodiment of the present invention, M332469, and those skilled in the art can Other descriptions of the improvements, but these changes still belong to the creation of this creation The spirit and the patent scope defined below. [Simplified description of the drawings] Fig. 1 is a perspective exploded view showing the first embodiment of the miniaturized wireless electrocardiographic signal measuring device of the present invention; A bottom view of the first embodiment of the wireless ECG signal measuring device; FIG. 3 is a perspective view showing a second embodiment of the miniaturized wireless ECG signal measuring device of the present invention; A bottom view of the electrocardiographic signal electrode patch of the second embodiment of the wireless electrocardiographic signal measuring device; FIG. 5 is a schematic diagram showing the corresponding component of the second embodiment of the miniaturized wireless electrocardiographic signal measuring device of the present invention The sixth embodiment shows the upper view of the ECG signal electrode patch of the second embodiment of the miniaturized wireless ECG signal measuring device; the seventh figure shows the miniaturized wireless ECG signal measuring device of the present creation 2 is a side view of the electrocardiographic signal electrode patch of the second embodiment; FIG. 8 is a perspective view showing the third embodiment of the miniaturized wireless ECG signal measuring device of the present invention; FIG. 10 is a bottom view showing a third embodiment of the miniaturized wireless ECG signal measuring device according to the third embodiment of the present invention. 】 100, 100a, 100c

La, lb, lc 2 21 211 212 212a 212b 212c 213 22 23 miniaturized wireless ECG signal measuring device ECG signal electrode patch ECG signal receiving processing module module housing upper housing lower housing first Receiver second receiving end combined with end through hole bottom cover battery unit

24 Circuit board 25 Display unit 26 Button set 27 Data storage Memory card slot 27a Feeding storage memory card 28 Wireless transmitter 29 Angle measuring device 3 Bonding piece 5 Strip body 12 M332469 5b 5a Long strip body bottom length Top surface fastener element 51 of the strip body

Claims (1)

M332469 IX. Patent application scope: 1. A miniaturized m-free signal measuring device, comprising: at least two ECG signal electrode patches; - ECG signal receiving and processing module, having a first receiving end and a second pure The first receiving end and the second connecting end are respectively coupled to the anti-electricity signal electrode patch, and the electrocardiographic signal receiving processing module is configured to receive and process the electrocardiographic signal electrode patch to detect Heart Telecommunications • No. 2. The miniaturized wireless type electric signal ampere set as described in the third paragraph of the patent scope of the invention includes at least two joint members respectively disposed at selected positions of the heart telecommunications or electrode patch, respectively The first receiving end and the second receiving end of the ECG signal receiving and processing module are fastened, and the ECG signal receiving processing module and the ECG signal electrode patch are combined. 103. The miniaturized wireless electric signal measuring device according to claim 1, wherein the electrocardiographic signal receiving processing module comprises a module shell, and the selected position of the module housing is The bottom cover is configured to serve as the ^electrode, and the miniaturized wireless ECG signal quantity described in the first item of the telecom = π special (4) circumference is detected by the electrocardiographic signal electrode patch. The ECG signal receiving processing module includes a wireless transmitting state for transmitting the heart telecom 14 M332469 processed by the ECG signal receiving processing module to a computer device. 5·- Miniaturized wireless ECG signal measuring device, including ···> One ECG signal electrode patch, each ECG signal electrode patch is provided with an insulating material for each ECG signal electrode patch The ECG signal receiving and processing module has a first receiving end and a second receiving end, and the first receiving end and the second receiving end are respectively coupled to the ECG signal electrode patch, the ECG The signal receiving processing module is configured to receive and process the ECG signal detected by the ECG signal electrode patch. " 6· The miniaturized wireless ECG signal measuring device according to claim 5, comprising at least two bonding members respectively disposed at selected positions of the core telecommunications electrode patch, respectively And combining the first receiving end and the second receiving end of the ECG signal receiving processing module, and combining the ECG signal receiving processing module and the ECG signal electrode patch. ★ Declared Patent|&> The miniaturized wireless ECG signal measuring device described in Item 5 includes a three-cardiogram signal electrode patch, wherein a one-core telecommunications wave electrode patch is used as the third electrode, Correct the ECG signal detected by the remaining two ECG signal electrode patches. 8. For example, please refer to the miniaturized wireless ECG signal measurement described in item 5 of the patent scope. The heart and electric signal receiving station of the Wangli module includes a wireless transmitter 15 M332469. The ECG signal processed by the ECG signal receiving processing module is sent to a computer device. 9. A miniaturized wireless ECG signal measuring device, comprising: at least two ECG signal electrode patches, each of which is connected between each ECG signal electrode patch. The electrocardiographic signal electrode patches are combined together by an insulating material. And the ECG signal electrode patch is disposed on a long strip body for the user to wear at a selected position of the body; an ECG signal receiving processing module having a first receiving And the second receiving end, the first receiving end and the second receiving end are respectively coupled to the ECG signal electrode patch, and the ECG signal receiving processing module is configured to receive and process the ECG signal electrode The ECG signal detected by the patch. The miniaturized wireless electric signal measuring garment device according to the ninth aspect of the patent application includes at least two coupling members respectively disposed at selected positions of the long strip body and respectively connected to the electrocardiogram a signal electrode patch, the junction member being respectively fastened to the first receiving end and the second receiving end of the ECG signal receiving processing module, and the ECG signal receiving processing module and the ECG signal electrode Patches are combined. U. The small-sized wireless heart-and-electric signal measuring device according to claim 9 of the patent scope includes a three-cardiac signal electrode patch, wherein a one-hearted telecommunications electrode patch is used as the third electrode, Correct the remaining two ECG signals. 16 M332469 ^ (. > The ECG signal detected by the pole patch, please patent/丨型型型型电电信号量', heart: 仏号 electrode patch is conductive Cloth, the strip T system is a strip. % A two applications, the miniaturized wireless device described in the scope of claim 9 wherein the deduction signal receiving processing module includes - wirelessly transmitting the heart The ECG signal processed by the electrical signal receiving and processing module is sent to a computer device.