TWM340037U - Wearable cardio-signal measuring device - Google Patents

Description

M340037 WL,: VIII. New description: [New technical field] This creation is about the design of an ECG signal measuring device, especially for a wearing 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 electrocardiographic signal measuring devices have been developed to 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 measuring device generally used for understanding sleep conditions can enable the user to know his or her physical condition by measuring the ECG signal. In the conventional ECG signal measuring device, the electrodes are 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 the computer. Between the devices, the ECG signals detected by the electrode patch are transmitted to the computer device, and the computer device stores, analyzes and displays the received ECG signals. For example, in the Patent No. 136-33 of the Republic of China, an electrocardiogram sensing device is disclosed which comprises an elastic sheet in which a plurality of predetermined conductive wires are placed for placement on a patient's chest. The device is formed by an elastic bottom layer, wherein a plurality of electrodes of a predetermined model transmit electrical pulses from the patient to the electrocardiogram, and the improvement includes a first mechanism for positioning the device from above in the clavicle dent M340037. And a first clamping mechanism positions the device in the sternal indentation whereby positioning of the device at the clavicle indentation and sternal indentation allows the electrodes to be repositioned at approximately the same location. [New content] The technical problems to be solved by this creative: However, the current C-signal measurement device for detecting human sleep conditions in the market or medical treatment is complicated and cumbersome, and has multiple wires (Leads) links. Electrode patch. It is a great burden for sleep condition detectors. Not only does it not consider ergonomics, it is not practical, and even affects the quality of sleep. Although there are also chest strap-type ECG signal measuring devices on the market, most of the electrode patches are gj fixed on the chest strap. When the material patch is attached for a long time and the electrode patch is stained with many dirt, Cleaning is quite inconvenient. ... Therefore, the main purpose of this creation is to provide a measuring instrument for attaching the heart telecom, so as to save the complicated wires and make it easy for the user to wear. Another object of the present invention is to provide a wearable ECG signal measuring device for the removable electrode patch, so that the user can remove the electrode patch and clean it. The technical means for solving the problem in this creation············································································ - ECG signal side module and at least two ECG signal electrode patches. The wear-attached carrier has a module setting surface and an electrode patch. The face name M340037 is set at the selected position of the Dai-bearing carrier, and each of the coupling members is formed with a detection module combined with the mounting surface. And an electrode patch joint portion is formed on the electrode patch bonding surface of the Dai-bearing carrier. The electrocardiogram (4) detecting module is coupled to the module setting surface of the wearing carrier by the module joint portion of the bonding member The core and electric signal electrode patch is bonded to the electrode patch bonding surface of the wearing carrier by the electrode patch bonding portion of the bonding member. The creation of the present invention is compared with the effect of the prior art: ,,,,,,,,,,,,,,,,,,,,, The user only needs to attach the wearing carrier to the chest, so that the user's heartbeat signal can be sensed by the ECG signal electrode patch and the sensed jump signal can be transmitted to the n signal fairy module, thereby eliminating the complexity. The wire is quite convenient to wear, and each piece of ECG signal electrode patch can be independently removed from the accessory body, so that the ECG signal electrode patch can be easily cleaned or replaced with a new ECG. Signal electrode patch. The specific embodiments used in the present application will be further described by the following embodiments and accompanying drawings. [Embodiment] Referring to Figures 1 and 2, the present invention is attached to an electrocardiogram signal. The measuring device 100 includes a wearing carrier 1, three bonding members 2a, 2b, 2e, an electrocardiographic signal detecting module 3 and three ECG signal electrode patches 4a, 4b, 4e. The Dai carrier 1 has a mode. The set surface 11 and an electrode patch joint surface 12. The joint members 2a, 2b, 2c are disposed at the central adjacent position of the wear carrier 1 'the joint members 2a, 2b, 2c on the module setting surface of the wear carrier 1 system

The M340037 is respectively formed with a detecting module joint portion 21a, a detecting module joint portion 21b and a detecting module joint portion 21c, and the joint members 2a, 2b, 2c are attached to the electrode patch joint surface 12 of the carrier 1 An electrode patch bonding portion 22a, an electrode patch bonding portion 22b, and an electrode patch bonding portion 22c are formed, respectively. Therefore, in the present embodiment, the bonding members 2a, 2b, and 2c are used as male buckles. The electrocardiographic signal detecting module 3 includes a module housing 31, and three metal bonding members 32a, 32b, and 32c are disposed on the bottom surface of the module housing 31. In the embodiment, the metal bonding members 32a, 32b, The 32c is used as a female buckle, and can be fastened to the joint module joints 21a, 21b, and 21c of the joints 2a, 2b, and 2c, so that the electrocardiographic signal detecting module 3 is coupled by the joints 2a, 2b. The detection module combining portions 21a, 21b, and 21c of the 2c are coupled to the module setting surface 11 of the carrier 1 and the electrocardiographic signal detecting module 3 further includes a display unit 33, a button group 34, and a data. Store the memory card slot 35. The display unit 33 can display the heartbeat information, date and time of the user. The button group 34 is used for the user to start the measurement and storage of the ECG signal, and the user can set the date and time displayed by the display unit 33, and the timing can be automatically timed or manually timed. Alternatively, the ECG signal detecting module 3 may be configured with a touch panel instead of the button group 34. The data storage memory card slot 35 is adapted to insert a data storage memory card 5 so that the measured heartbeat information can be stored in the data storage memory card 5. The electrocardiographic signal electrode patches 4a, 4b, and 4c respectively have the electrode patch bonding members 41a, 41b, and 41c. In the embodiment, the electrode patch bonding members 41a, 41b, and 41c are used as the female buckles. 1] can be engaged with the M340037 electrode patch bonding portions 22a, 22b, 22e of the bonding members 2a, 2b, 2c, so that the electrocardiographic signal electrode patches, 4b, 4c are respectively connected by the bonding members 2a, 2b, and the electrodes The patch bonding portions, 22b, 22c are bonded to the electrode patch bonding surface 2 of the attached carrier 1. Please also refer to FIG. 3, the two ends of the attached carrier 1 are respectively formed with a carrier body la and lb, and a connection tl member 13 is disposed on each of the carrier body 1& and lb, in this embodiment. The connecting element 13 is a devil glued, and the user can wear the wearing carrier 1 around the chest by using the attached body h and lb, and the electrode patch bonding surface 12 of the wearing carrier 1 is in contact with the human body. When the user wears the attached carrier 1 on the chest and the electrode patch bonding surface 12 of the carrier 1 is in contact with the user, the electrocardiographic signal electrode patches 4a, 4b and the patch are attached to the skin of the human body close to the heart. And can detect the ECG signal generated by the human body. Referring to FIG. 4, since the electrocardiographic signal electrode patch 4a, the electrode patch bonding members 41a, 41b, and 41c of the servant 4c can be respectively engaged with the electrode patch bonding portions of the bonding members 2a, 2b, and 2c. 22a, 22b, 22c may also be removed by the electrode patch bonding portions 22a, 22b, 22c of the bonding members 2a, 2b, 2c, so that when the electrocardiographic signal electrode patch 4a, 4b, or 4c is excessively stained or damaged. The user can separately remove the dirty or damaged ECG signal electrode patch 4a, 4b, or 4c for cleaning, or replace the new ECG signal electrode patch. As shown in FIG. 5, the ECG detection module 3 further includes a microprocessor 36, a built-in memory 361, an ECG signal receiving and processing circuit 37, a data transmission interface 38, and a battery unit 39. And display unit 33, button group 34, data storage memory card slot 35, built-in memory 361, ECG signal receiving and processing circuit 37, data transmission interface 38 and battery unit

M340037 39 is connected to the microprocessor 36, respectively. The central electrical signal receiving and processing circuit 37 includes an electrocardiographic signal amplifying circuit 371 and an analog to digital signal converting circuit 372. When the ECG signal of the ECG signal electrode patch 4a, 4b is amplified by the ECG signal amplifying circuit 371, and digitally processed into a digital ECG signal via the analog to digital signal conversion circuit 372, the signal is transmitted to The microprocessor 36 and the ECG signal electrode patch 4c are grounded and serve as selective third electrodes other than the ECG signal electrode patches 4a, 4b to correct the detected ECG signals. The microprocessor 36 transmits the received digital ECG signal to the built-in memory 361 for storage, and the digital ECG signal is extracted from the built-in memory 361 and transmitted to the first via the data transmission interface 38. Computer device 6. Alternatively, the microprocessor 36 can store the received digital ECG signal to the data storage memory card 5 inserted in the data storage memory card slot 35. The data transmission interface 38 can be a USB slot or a similar component such as RS232. In addition to the button group 34 setting the date and time displayed on the display unit 33, the computer device 6 can also set the date and time displayed on the display unit 33 via the data transmission interface 38 and the microprocessor 36 and control the ECG. Signal upload and download. The battery unit 39 is used to supply the power required by the electrocardiographic signal detecting module 3, which may be a rechargeable battery or a general lithium battery or the like. It can be seen from the above embodiments that the Dai-style heart-tune measuring device provided by the present invention has industrial utilization value, so the original operation has met the requirements of the patent. However, the above description is only for the description of the preferred embodiment of this creation. Where M340037 is old! Those who are good at this item can make other improvements according to the above mentioned sun and moon, but these changes still belong to the creative spirit of this creation. And in the scope of patents defined below. [Simple diagram of the diagram] The brother 1 is the three-dimensional exploded view of the attached ECG signal measuring device; the second figure is the perspective view of the attached ECG signal measuring device; The bottom view of the attached ECG signal measuring device; Figure 4 is the bottom view of the ECG signal electrode patch in the present attached ECG signal measuring device; Figure 5 is the creation of the attached heart Control circuit diagram of the electrical signal measuring device. [Description of main component symbols] 100 Attached ECG signal measuring device 1 Wearing the carrier la, lb Wearing the accessory body 11 Module setting surface 12 Electrode patch bonding surface 13 Connecting elements 2a, 2b, 2c Bonding members 21a, 21b 21c detection module joint portion 22a, 22b, 22c electrode patch joint portion 3 ECG signal detection module 31 module housing 11 M340037 32a, 32b, 32c metal joint member 33 display unit 34 button group 35 data storage Memory card slot 36 Microprocessor 361 Built-in memory 37 ECG signal receiving and processing circuit 371 ECG signal amplifying circuit 372 Analog to digital signal conversion circuit 38 Data transmission interface 39 Battery unit 4a, 4b, 4c ECG signal electrode Patch 41a, 41b, 41c electrode patch bond 5 data storage memory card 6 computer device 12

Claims (1)

M340037 Nine, the scope of application for patents: 1 1. A wearing-type ECG signal measuring device, comprising: wearing a carrier, having a module setting surface and an electrode patch bonding surface; at least two bonding members, disposed in the wearing A selected position of the carrier is provided, and each of the bonding components is respectively formed with a detecting module joint portion on the module mounting surface of the wearing body, and an electrode patch is respectively formed on the electrode patch bonding surface of the wearing carrier. An electrocardiographic signal_module, wherein the binding module of the bonding component is coupled to the module mounting surface of the wearing carrier; at least two ECG signal electrode patches, and the electrode patch of the bonding component The bonding portion is bonded to the electrode patch bonding surface of the wearing carrier. 2. The wear-attached heart and electric signal measuring device according to the invention of claim 2, wherein the electrocardiographic signal electrode patch is a conductive cloth. 3 ‘Please ask for the scope of patents! The wearable electrocardiographic signal measuring device of the present invention, wherein the electrocardiographic signal electrode patch is a conductive 塾 formed by a key. 4. The application of the attached heart and electric signal measuring device described in claim 1 wherein the electrocardiographic signal electrode patch is made of a conductive tree film. 5. If the attached ECG signal measurement is described in item 1 of the patent application scope, the display unit is arranged, wherein the ECG signal detection module includes an ECG signal measurement and installation button group. 6. If the application of the patent scope is described in item 1, the ECG signal detection module includes a wearable ECG signal as disclosed in the first item of the patent application. The measurement dream, the ECG signal detection module includes a: a slot for inserting a data storage memory card. The child money card is as claimed in claim i, wherein the ECG signal detection module includes a data transmission interface T, as described in item i of the patent application scope. The wearing-type ECG signal measuring wear-through is formed on both sides of the wearing carrier. 14