TWM610765U - Heart rhythm sensor belt structure - Google Patents

Abstract

Translated fromChinese

一種心率感測帶結構，供戴附於一使用者胸部，用以測量該使用者的心律訊號，該心率感測帶結構包括一軟膠感測帶，開設有彼此間隔的第一通孔和第二通孔。該軟膠感測帶的兩自由端分別形成一體成型的扣環，該軟膠感測帶是選自於熱塑性聚氨酯膠材、熱塑性彈性膠材、矽膠、橡膠的材料之一。一彈性帶的兩自由端分別設有扣具，分別扣持於該軟膠感測帶的該扣環，該彈性帶係以具有拉伸彈性的織物材料製成。A heart rate sensing belt structure for wearing on a user’s chest for measuring the user’s heart rhythm signal. The heart rate sensing belt structure includes a soft rubber sensing belt with first through holes spaced apart from each other. The second through hole. The two free ends of the soft rubber sensor belt respectively form an integrally formed buckle, and the soft rubber sensor belt is one of materials selected from the group consisting of thermoplastic polyurethane rubber material, thermoplastic elastic rubber material, silicon rubber, and rubber. Two free ends of an elastic belt are respectively provided with buckles which are respectively buckled on the buckles of the soft rubber sensing belt, and the elastic belt is made of a fabric material with stretch elasticity.

Description

Translated fromChinese

心律感測帶結構Heart rhythm sensor belt structure

[0001]  本創作係關於一種心律感測裝置，特別是一種包括軟膠感測帶的心律感測帶結構。[0001] This creation is related to a heart rhythm sensing device, especially a heart rhythm sensing belt structure including a soft rubber sensing belt.

[0002]  由於人們深切瞭解適當運動對人之重要性，故各種健身運動設備及其附屬裝置應運而生。例如，心律感測裝置可供運動者在運動時，精確測量出運動者的心律訊號，以使運動者得知心跳次數及其他經轉換得到的各項測量數值，運動者也可以針對該測量數值據以調整自己的運動量。 [0003]  在先前技術中，可以發現有各種不同心律感測裝置的設計。然而，這些先前技術仍存在許多缺點，例如： (1)   傳統心律感測裝置係整片式、多層式貼合結構，失去原有帶狀織物的柔軟特性。 (2)   使用日久之後，不易清洗，不慎髒污必須拋棄。 (3)   帶狀織物與導電極片間的貼合，必須另設計有絕緣層，結構複雜。 (4)   帶狀織物與導電極片間的貼合，因材料屬性差異太大，不易貼合且容易脫離。 (5)   帶狀織物與導電極片間的貼合，會因使用者運動而潮濕，產生雜訊，量測品質不佳，且無法持久性。 (6)   帶狀織物造型結構受織物限制，無法具有不同形狀變化，沒有時尚感。 (7)   帶狀織物與多層式導電極片設計，與鈕扣件結合的發射器容易脫落。 (8)   帶狀織物容易受潮，會因運動吸收汗水增加重量而脫落。[0002] Since people have a deep understanding of the importance of proper exercise to people, various fitness exercise equipment and its accessory devices have emerged. For example, the heart rhythm sensing device allows the athlete to accurately measure the heart rhythm signal of the athlete during exercise, so that the athlete can know the number of heartbeats and other converted measurement values, and the athlete can also target the measured values According to adjust their exercise volume. [0003] In the prior art, various designs of heart rhythm sensing devices can be found. However, these prior technologies still have many shortcomings, such as: (1) The traditional heart rhythm sensing device is a one-piece, multi-layer laminated structure, which loses the softness of the original ribbon-shaped fabric. (2) After a long time of use, it is not easy to clean, and it must be discarded if it is accidentally dirty. (3) The bonding between the strip fabric and the conductive electrode sheet must be additionally designed with an insulating layer, which has a complicated structure. (4) The bonding between the ribbon-shaped fabric and the conductive electrode sheet is difficult to fit and easy to detach due to the large difference in material properties. (5) The bonding between the belt-shaped fabric and the conductive electrode sheet will be wet due to the user's movement, resulting in noise, poor measurement quality, and no durability. (6) The belt-shaped fabric modeling structure is limited by the fabric, and cannot have different shape changes, and there is no sense of fashion. (7) With the design of ribbon-shaped fabric and multi-layer conductive sheet, the transmitter combined with the button is easy to fall off. (8) The ribbon-shaped fabric is easily damp, and will fall off due to exercise, absorbing sweat and increasing weight.

[0004]  緣此，本創作之主要目的即是先前技術的缺失而改善心律感測帶結構，以期排除傳統帶狀織物結構的種種問題，除了使穿戴更舒適外，並且大大改善量測品質。 [0005]  本創作所採用之技術手段係在心率感測帶結構包括一軟膠感測帶，開設有彼此間隔的第一通孔和第二通孔。該軟膠感測帶的兩自由端分別形成一體成型的扣環，該軟膠感測帶是選自於熱塑性聚氨酯膠材、熱塑性彈性膠材、矽膠、橡膠的材料之一。一彈性帶的兩自由端分別設有扣具，分別扣持於該軟膠感測帶的該扣環，該彈性帶係以具有拉伸彈性的織物材料製成。 [0006]  在效果方面，本創作具有以下優點： (1)採整片式主體及多層式貼合結構，具有帶狀物的柔軟特性。 (2)穿戴後，容易清洗，可重複使用不需拋棄。 (3)構造簡單，製造及組裝成本低。 (4)耐久性，確保品質。 (5)本創作不受帶狀織物的造型限制，更可提升時尚感，滿足穿戴者的需求。 (6)本創作可具排汗功能設計，更適合穿戴者長時間運動。 (7)本創作因係採帶狀結構而非織物的設計構成，穿戴者在穿戴運動時，汗水完全不會滲透，而可確保輕、柔、不易脫落，更確保量測人體固定部位及品質。 (8)本創作因係採用帶狀一體軟膠材質，其表面構造設計更可一體設計凹凸狀結構，而結合左、右兩個彼此間隔的生理訊號感測單元，穿戴時更容易貼合人體皮膚，確保量測品質。 (9)本創作因係採用帶狀一體軟膠材質，其表面構造設計可具凹凸狀而結合鈕扣鉚釘組件，而可防止訊號處理暨傳輸單元，因使用者穿戴而脫落。 (10)本創作因係採用帶狀一體軟膠材質，在結合左、右兩個生理訊號號感測單元時，不需再設計有絕緣層。 [0007]  本創作所採用的具體技術，將藉由以下之實施例及附呈圖式作進一步之說明。[0004] For this reason, the main purpose of this creation is to improve the heart rhythm sensing belt structure due to the lack of prior art, in order to eliminate the various problems of the traditional belt-like fabric structure, in addition to making wearing more comfortable, and greatly improving the measurement quality. [0005] The technical means used in this creation is that the structure of the heart rate sensor belt includes a soft rubber sensor belt, which is provided with a first through hole and a second through hole spaced apart from each other. The two free ends of the soft rubber sensor belt respectively form an integrally formed buckle, and the soft rubber sensor belt is one of materials selected from the group consisting of thermoplastic polyurethane rubber material, thermoplastic elastic rubber material, silicon rubber, and rubber. Two free ends of an elastic belt are respectively provided with buckles which are respectively buckled on the buckles of the soft rubber sensing belt, and the elastic belt is made of a fabric material with stretch elasticity. [0006] In terms of effects, this creation has the following advantages: (1) Adopt the whole piece type main body and the multi-layer type bonding structure, have the soft characteristic of the belt. (2) After being worn, it is easy to clean and can be reused without discarding. (3) The structure is simple, and the manufacturing and assembly costs are low. (4) Durability to ensure quality. (5) This creation is not limited by the shape of the ribbon-shaped fabric, but can also enhance the sense of fashion and meet the needs of the wearer. (6) This creation can be designed with perspiration function, which is more suitable for wearers to exercise for a long time. (7) This creation is designed with a belt-like structure instead of a fabric. When the wearer wears and exercises, sweat will not penetrate at all, but it can ensure lightness, softness and not easy to fall off, and also ensure the measurement of fixed parts and quality of the human body. . (8) Because this creation is made of a belt-shaped integrated soft rubber material, its surface structure design can be integrated with a concave-convex structure, and combined with the left and right physiological signal sensing units spaced apart, it is easier to fit the human body when worn Skin, to ensure the quality of measurement. (9) Because this creation is made of a band-shaped integrated soft rubber material, its surface structure design can be embossed and combined with button rivet components, which can prevent the signal processing and transmission unit from falling off due to wear by the user. (10) Because this creation is made of a band-shaped one-piece soft rubber material, when combining the left and right physiological signal sensing units, there is no need to design an insulating layer. [0007] The specific technology used in this creation will be further explained with the following embodiments and accompanying drawings.

[0009]  請同時參閱圖1-2所示，圖1顯示本創作第一實施例心率感測帶100的立體圖，圖2顯示本創作的前視平面面。如圖所示，本創作的心律感測帶結構100包括一彈性帶1和一軟膠感測帶2。其中，彈性帶1兩自由端可分別設有習用日型環或其它扣具11、12。 [0010]  軟膠感測帶2具有一第一表面21和一第二表面22。軟膠感測帶2的第一表面21可結合一訊號處理暨傳輸單元3，並在兩自由端可分別形成一體成型的扣環23、24，可供彈性帶1的扣具11、12扣持而形成環狀心率感測帶100。 [0011]  本創作中，彈性帶1可採用具有拉伸彈性的織物材料製成，而軟膠感測帶2是採用軟膠材料以注塑成型的製造工序所製成。軟膠感測帶2可以是例如熱塑性聚氨酯膠材(Thermoplastic Polyurethane，TPU)、熱塑性彈性膠材(Thermoplastic Elastomer，TPE)、矽膠、橡膠等軟膠材料。 [0012]  圖3顯示本創作第一實施例相關組件分離時的立體分解圖，而圖4顯示本創作相關組件分離時的側視平面圖。軟膠感測帶2的第一表面21在約中段位置處，沿著該軟膠感測帶2的延伸方向設有兩個貫通該第一表面21和該第二表面22且彼此間隔的第一通孔25和第二通孔26。 [0013]  軟膠感測帶2的第二表面22則配置一第一生理訊號感測單元4和一第二生理訊號感測單元5。第一生理訊號感測單元4包括一相對應於軟膠感測帶2的第一通孔25的第一導電孔41和一電導通於該第一導電孔41的第一人體皮膚接觸區42。相同地，第二生理訊號感測單元5包括一相對應於軟膠感測帶2的第二通孔26的第二導電孔51和一電導通於該第一導電孔51的第二人體皮膚接觸區52。 [0014]  一第一鉚釘組件6、61鉚合在軟膠感測帶2的第一通孔25且電導通於第一生理訊號感測單元4的第一導電孔41。同時參閱圖5所示，第一鉚釘組件6、61具有一扣孔可供訊號處理暨傳輸單元3的對應公扣31扣合。相同地，一第二鉚釘組件7、71鉚合在軟膠感測帶2的第二通孔26且電導通於第二生理訊號感測單元5的第二導電孔51。第二鉚釘組件7、71具有一扣孔可供訊號處理暨傳輸單元3的對應公扣32扣合。如此，即可將訊號處理暨傳輸單元3扣合在軟膠感測帶2的第一表面21，且使訊號處理暨傳輸單元3的公扣31、32分別電連通於第一生理訊號感測單元4的第一人體皮膚接觸區42和第二生理訊號感測單元5的第二人體皮膚接觸區52。 [0015]  軟膠感測帶2的第一通孔25的周邊可以在軟膠感測帶2的注塑成型工序中形成至少一第一鉚釘定位部251，可使第一鉚釘組件6穩定鉚合在軟膠感測帶2的第一通孔25。相同地，第二通孔26的周邊亦可以在軟膠感測帶2的注塑成型工序中形成至少一第一鉚釘定位部261，可使第二鉚釘組件7穩定鉚合在軟膠感測帶2的第二通孔26。 [0016]  參閱圖6所示，其顯示第一實施例軟膠感測帶2的第二表面22和第一生理訊號感測單元4、第二生理訊號感測單元5、絶緣片8之間的對應結構。軟膠感測帶2的第二表面22可以在注塑成型工序中形成至少一生理訊號感測單元定位部27，例如凹入於第二表面22的凹部區域。生理訊號感測單元定位部27的輪廓形狀係對應於第一生理訊號感測單元4、第二生理訊號感測單元5，可使軟膠感測帶2的第二表面22和第一生理訊號感測單元4和第二生理訊號感測單元5形成一平整面。 [0017]  軟膠感測帶2在注塑成型工序中亦可形成複數個貫通第一表面21和第二表面22的排汗鏤空區28，使穿戴者在使用時具排汗功能，更適合穿戴者長時間運動。 [0018]  第一生理訊號感測單元4的第一人體皮膚接觸區42和第二生理訊號感測單元5的第二人體皮膚接觸區52之間，可以一絶緣片8覆蓋該第一導電孔41和該第二導電孔51，而僅曝露出該第一人體皮膚接觸區42和第二人體皮膚接觸區52。 [0019]  當使用者將彈性帶1和本創作的軟膠感測帶2兩端對應扣持形成環狀心率感測帶100，並載附於胸部時，訊號處理暨傳輸單元3即可接收第一生理訊號感測單元5和第二生理訊號感測單元6所感測的人體生理訊號後，經訊號處理器處理後可由無線傳輸裝置予以傳送出。無線傳輸裝置可以採用例如藍芽、ANT+、Wi-Fi等數位訊號或低頻線性訊號(例如5KHz左右範圍的低頻線性訊號)。 [0020]  圖7顯示本創作第二實施例心率感測帶的立體圖。本實施例的組成構件與前述第一實施例大致相同，故相同元件乃標示相同的元件編號，以資對應，其差異在於本實施例的第一生理訊號感測單元4和第二生理訊號感測單元5係和軟膠感測帶2一體成型而製成，亦即在注塑成型工序中係同一材料直接在軟膠感測帶2的第二表面22形成第一生理訊號感測單元4和第二生理訊號感測單元5，如此可以簡化製程及組成件。 [0021]  圖8顯示本創作第三實施例心率感測帶的立體圖。本實施例的組成構件與前述第一實施例大致相同，故相同元件乃標示相同的元件編號，以資對應，其差異在於本實施例的軟膠感測帶2a並未包括如第一實施例中的排汗鏤空區28。 [0022]  以上所舉實施例僅係用以說明本創作，並非用以限制本創作之範圍，凡其他未脫離本創作所揭示之精神下而完成的等效修飾或置換，均應包含於後述申請專利範圍內。[0009] Please refer to FIGS. 1-2 at the same time. FIG. 1 shows a three-dimensional view of the heartrate sensing belt 100 according to the first embodiment of the invention, and FIG. 2 shows the front plane of the invention. As shown in the figure, the heart rhythmsensor belt structure 100 of the present invention includes anelastic belt 1 and a softrubber sensor belt 2. Among them, the two free ends of theelastic belt 1 can be provided with conventional day-shaped rings orother buckles 11 and 12 respectively. [0010] The softrubber sensor tape 2 has afirst surface 21 and asecond surface 22. Thefirst surface 21 of the softrubber sensor belt 2 can be combined with a signal processing andtransmission unit 3, and the two free ends can respectively form integrally formedbuckles 23 and 24, which can be used for thebuckles 11 and 12 of theelastic belt 1 Hold to form a ring-shaped heartrate sensing belt 100. [0011] In this creation, theelastic band 1 can be made of a fabric material with stretch elasticity, and the softrubber sensing band 2 is made of a soft rubber material in a manufacturing process of injection molding. The softrubber sensing tape 2 may be, for example, a soft rubber material such as Thermoplastic Polyurethane (TPU), Thermoplastic Elastomer (TPE), silicone rubber, and rubber. [0012] FIG. 3 shows a three-dimensional exploded view of the first embodiment of the creation when the related components are separated, and FIG. 4 shows a side plan view of the separation of the related components of the creation. Thefirst surface 21 of the softrubber sensing tape 2 is located at about the middle position, and along the extension direction of the softrubber sensing tape 2, twofirst surfaces 21 and thesecond surface 22 are penetrated and spaced apart from each other. A throughhole 25 and a second throughhole 26. [0013] Thesecond surface 22 of the softrubber sensing tape 2 is configured with a first physiologicalsignal sensing unit 4 and a second physiologicalsignal sensing unit 5. The first physiologicalsignal sensing unit 4 includes a firstconductive hole 41 corresponding to the first throughhole 25 of the softrubber sensor tape 2 and a first humanskin contact area 42 electrically connected to the firstconductive hole 41 . Similarly, the second physiologicalsignal sensing unit 5 includes a secondconductive hole 51 corresponding to the second throughhole 26 of the softrubber sensor tape 2 and a second human skin electrically connected to the firstconductive hole 51Contact area 52. [0014] Afirst rivet assembly 6, 61 is riveted in the first throughhole 25 of the softrubber sensing tape 2 and electrically connected to the firstconductive hole 41 of the first physiologicalsignal sensing unit 4. At the same time, referring to FIG. 5, thefirst rivet assembly 6, 61 has a buckle hole for the correspondingmale buckle 31 of the signal processing andtransmission unit 3 to buckle. Similarly, asecond rivet assembly 7, 71 is riveted to the second throughhole 26 of the softrubber sensing tape 2 and electrically connected to the secondconductive hole 51 of the second physiologicalsignal sensing unit 5. Thesecond rivet components 7 and 71 have a buckle hole for buckling the correspondingmale buckle 32 of the signal processing andtransmission unit 3. In this way, the signal processing andtransmission unit 3 can be buckled on thefirst surface 21 of the softrubber sensor tape 2, and themale buckles 31 and 32 of the signal processing andtransmission unit 3 are respectively electrically connected to the first physiological signal sensing The first humanskin contact area 42 of theunit 4 and the second humanskin contact area 52 of the second physiologicalsignal sensing unit 5. [0015] The periphery of the first throughhole 25 of the softrubber sensor tape 2 may form at least one first rivet positioning portion 251 during the injection molding process of the softrubber sensor tape 2, so that thefirst rivet assembly 6 can be riveted stably In the first throughhole 25 of the softrubber sensing tape 2. Similarly, at least one first rivet positioning portion 261 can be formed on the periphery of the second throughhole 26 during the injection molding process of the softrubber sensor tape 2, so that thesecond rivet assembly 7 can be stably riveted on the soft rubber sensor tape. 2的second throughhole 26. [0016] Refer to FIG. 6, which shows the distance between thesecond surface 22 of the softrubber sensing tape 2 of the first embodiment and the first physiologicalsignal sensing unit 4, the second physiologicalsignal sensing unit 5, and the insulating sheet 8. The corresponding structure. Thesecond surface 22 of the softrubber sensor tape 2 may be formed with at least one physiological signal sensingunit positioning portion 27 during the injection molding process, for example, recessed in the recessed area of thesecond surface 22. The contour shape of the physiological signal sensingunit positioning portion 27 corresponds to the first physiologicalsignal sensing unit 4 and the second physiologicalsignal sensing unit 5, so that thesecond surface 22 of the softrubber sensor tape 2 and the first physiological signal Thesensing unit 4 and the second physiologicalsignal sensing unit 5 form a flat surface. [0017] In the injection molding process, the softrubber sensor tape 2 can also form a plurality of perspirationhollow areas 28 penetrating thefirst surface 21 and thesecond surface 22, so that the wearer has a perspiration function during use and is more suitable for wearing The person exercises for a long time. [0018] Between the first humanskin contact area 42 of the first physiologicalsignal sensing unit 4 and the second humanskin contact area 52 of the second physiologicalsignal sensing unit 5, an insulating sheet 8 may cover the firstconductive hole 41 and the secondconductive hole 51, but only the first humanskin contact area 42 and the second humanskin contact area 52 are exposed. [0019] When the user buckles both ends of theelastic band 1 and the softrubber sensor band 2 of the invention to form a ring-shaped heartrate sensor belt 100, and attaches it to the chest, the signal processing andtransmission unit 3 can receive The human physiological signals sensed by the first physiologicalsignal sensing unit 5 and the second physiologicalsignal sensing unit 6 can be transmitted by the wireless transmission device after being processed by the signal processor. The wireless transmission device can use digital signals such as Bluetooth, ANT+, Wi-Fi, or low-frequency linear signals (such as low-frequency linear signals in the range of about 5KHz). [0020] FIG. 7 shows a three-dimensional view of the heart rate sensing belt of the second embodiment of the present creation. The components of this embodiment are roughly the same as those of the aforementioned first embodiment, so the same components are labeled with the same component numbers for correspondence purposes. The difference lies in the first physiologicalsignal sensing unit 4 and the second physiologicalsignal sensing unit 4 of this embodiment. Thesensing unit 5 and the softrubber sensor tape 2 are integrally formed, that is, the same material is directly formed on thesecond surface 22 of the softrubber sensor tape 2 in the injection molding process to form the first physiologicalsignal sensing unit 4 and The second physiologicalsignal sensing unit 5 can simplify the manufacturing process and components. [0021] FIG. 8 shows a three-dimensional view of the heart rate sensing belt of the third embodiment of the present creation. The components of this embodiment are roughly the same as those of the aforementioned first embodiment, so the same components are labeled with the same component numbers for correspondence purposes. The difference is that the softrubber sensor tape 2a of this embodiment does not include the same as the first embodiment. In the perspirationhollow area 28. [0022] The above-mentioned embodiments are only used to illustrate the creation, not to limit the scope of the creation. All other equivalent modifications or replacements completed without departing from the spirit disclosed in the creation should be included in the following description Within the scope of the patent application.

[0023] 100:心律感測帶結構 1:彈性帶 11、12:扣具 2、2a:軟膠感測帶 21:第一表面 22:第二表面 23、24:扣環 25:第一通孔 26:第二通孔 27:生理訊號感測單元定位部 28:排汗鏤空區 3:訊號處理暨傳輸單元 31、32:公扣 4:第一生理訊號感測單元 41:第一導電孔 42:第一人體皮膚接觸區 5:第二生理訊號感測單元 51:第二導電孔 52:第二人體皮膚接觸區 6、61:第一鉚釘組件 7、71:第二鉚釘組件 8:絶緣片[0023] 100: Heart rhythm sensor belt structure 1:elastic band 11, 12:Buckle 2, 2a: Soft rubber sensor tape 21: The first surface 22:second surface 23, 24: buckle 25: first through hole 26: second through hole 27: Physiological signal sensor unit positioning part 28: Perspiration hollow area 3: Signal processing andtransmission unit 31, 32: male buckle 4: The first physiological signal sensing unit 41: The first conductive hole 42: The first human skin contact area 5: The second physiological signal sensing unit 51: second conductive hole 52: The second humanskin contact area 6, 61: thefirst rivet assembly 7, 71: second rivet assembly 8: Insulation sheet

[0008] 圖1顯示本創作第一實施例心率感測帶的立體圖。 圖2顯示本創作第一實施例的前視平面。 圖3顯示本創作第一實施例相關組件分離時的立體分解圖。 圖4顯示本創作第一實施例相關組件分離時的側視平面圖。 圖5顯示圖3中A-A斷面且顯示第一鉚釘組件和軟膠感測帶之間對應關係的剖視圖。 圖6顯示本創作第一實施例的軟膠感測帶的第二表面和第一生理訊號感測單元、第二生理訊號感測單元、絶緣片之間的對應結構。 圖7顯示本創作第二實施例心率感測帶的立體圖。 圖8顯示本創作第三實施例心率感測帶的立體圖。[0008] Figure 1 shows a three-dimensional view of the heart rate sensing belt of the first embodiment of the present creation. Figure 2 shows the front view plane of the first embodiment of this creation. Fig. 3 shows a three-dimensional exploded view of the first embodiment of the present creation when related components are separated. Figure 4 shows a side plan view of the first embodiment of the present creation when related components are separated. Fig. 5 shows a cross-section A-A in Fig. 3 and a cross-sectional view showing the corresponding relationship between the first rivet component and the soft rubber sensing tape. FIG. 6 shows the corresponding structure between the second surface of the soft rubber sensing tape and the first physiological signal sensing unit, the second physiological signal sensing unit, and the insulating sheet of the first embodiment of the invention. Fig. 7 shows a three-dimensional view of the heart rate sensing belt of the second embodiment of the present creation. Fig. 8 shows a three-dimensional view of the heart rate sensing belt of the third embodiment of the present creation.

1:彈性帶1: elastic band

11、12:扣具11, 12: Buckle

2:軟膠感測帶2: Soft rubber sensor tape

23、24:扣環23, 24: buckle

28:排汗鏤空區28: Perspiration hollow area

3:訊號處理暨傳輸單元3: Signal processing and transmission unit

Claims (10)

Translated fromChinese

一種心率感測帶結構，供戴附於一使用者胸部，用以測量該使用者的心律訊號，其特徵在於該心率感測帶結構包括： 一軟膠感測帶，具有一第一表面、一第二表面，開設有貫通該第一表面和該第二表面且彼此間隔的一第一通孔和一第二通孔，該第一表面供結合一訊號處理暨傳輸單元，該軟膠感測帶是選自於熱塑性聚氨酯膠材、熱塑性彈性膠材、矽膠、橡膠的材料之一； 一第一生理訊號感測單元，位在該軟膠感測帶的該第二表面，包括一相對應於該軟膠感測帶的該第一通孔的第一導電孔和一電導通於該第一導電孔的第一人體皮膚接觸區； 一第二生理訊號感測單元，位在該軟膠感測帶的該第二表面，包括一相對應於該軟膠感測帶的該第二通孔的第二導電孔和一電導通於該第二導電孔的第二人體皮膚接觸區； 一第一鉚釘組件，鉚合在該軟膠感測帶的該第一通孔且電導通於該第一生理訊號感測單元的該第一導電孔； 一第二鉚釘組件，鉚合在該軟膠感測帶的該第二通孔且電導通於該第二生理訊號感測單元的該第二導電孔。A heart rate sensing belt structure for wearing and attaching to a user's chest for measuring the user's heart rhythm signal, characterized in that the heart rate sensing belt structure includes: A soft rubber sensor tape having a first surface and a second surface, a first through hole and a second through hole penetrating the first surface and the second surface and spaced apart from each other are opened, the first surface For combining with a signal processing and transmission unit, the soft rubber sensing tape is one of materials selected from the group consisting of thermoplastic polyurethane rubber, thermoplastic elastic rubber, silicon rubber, and rubber; A first physiological signal sensing unit, located on the second surface of the soft rubber sensing tape, includes a first conductive hole corresponding to the first through hole of the soft rubber sensing tape and an electrically conductive hole The first human skin contact area of the first conductive hole; A second physiological signal sensing unit, located on the second surface of the soft rubber sensing tape, includes a second conductive hole corresponding to the second through hole of the soft rubber sensing tape and an electrically conductive hole The second human skin contact area of the second conductive hole; A first rivet component, riveted in the first through hole of the soft rubber sensing tape and electrically connected to the first conductive hole of the first physiological signal sensing unit; A second rivet component is riveted in the second through hole of the soft rubber sensing tape and electrically connected to the second conductive hole of the second physiological signal sensing unit.如請求項1所述之心律感測帶結構，其中該軟膠感測帶的該第二表面形成至少一生理訊號感測單元定位部，其輪廓形狀係對應於該第一生理訊號感測單元和該第二生理訊號感測單元，使該軟膠感測帶的該第二表面和該第一生理訊號感測單元、該第二生理訊號感測單元形成一平整面。The heart rhythm sensing belt structure according to claim 1, wherein the second surface of the soft rubber sensing belt forms at least one physiological signal sensing unit positioning portion, and its contour shape corresponds to the first physiological signal sensing unit And the second physiological signal sensing unit, so that the second surface of the soft rubber sensing tape, the first physiological signal sensing unit, and the second physiological signal sensing unit form a flat surface.如請求項1所述之心律感測帶結構，其中該軟膠感測帶的更形成複數個貫通該第一表面和該第二表面的排汗鏤空區。The heart rhythm sensing belt structure according to claim 1, wherein the soft rubber sensing belt further forms a plurality of perspiration hollow areas penetrating the first surface and the second surface.如請求項1所述之心律感測帶結構，其中該軟膠感測帶的兩自由端分別形成一體成型的扣環，供結合一彈性帶而形成一環狀心率感測帶。The heart rate sensing belt structure according to claim 1, wherein the two free ends of the soft rubber sensing belt are respectively formed as an integral buckle for combining with an elastic belt to form an annular heart rate sensing belt.如請求項1所述之心律感測帶結構，其中該第一生理訊號感測單元的該第一人體皮膚接觸區和該第二生理訊號感測單元的該第二人體皮膚接觸區之間，更包括一絶緣片覆蓋該第一導電孔和該第二導電孔，而僅曝露出該第一人體皮膚接觸區和該第二人體皮膚接觸區。The heart rhythm sensing belt structure of claim 1, wherein between the first human skin contact area of the first physiological signal sensing unit and the second human skin contact area of the second physiological signal sensing unit, It further includes an insulating sheet covering the first conductive hole and the second conductive hole, and only exposes the first human skin contact area and the second human skin contact area.如請求項1所述之心律感測帶結構，其中該第一生理訊號感測單元和該第二生理訊號感測單元係和該軟膠感測帶一體成型而製成。The heart rhythm sensing belt structure according to claim 1, wherein the first physiological signal sensing unit and the second physiological signal sensing unit are integrally formed with the soft rubber sensing belt.一種心率感測帶結構，供戴附於一使用者胸部，用以測量該使用者的心律訊號，其特徵在於該心率感測帶結構包括： 一軟膠感測帶，具有一第一表面、一第二表面，開設有貫通該第一表面和該第二表面且彼此間隔的一第一通孔和一第二通孔，該第一表面供結合一訊號處理暨傳輸單元，該軟膠感測帶的兩自由端分別形成一體成型的扣環，該軟膠感測帶是選自於熱塑性聚氨酯膠材、熱塑性彈性膠材、矽膠、橡膠的材料之一； 一彈性帶，該彈性帶的兩自由端分別設有扣具，分別扣持於該軟膠感測帶的該扣環，該彈性帶係以具有拉伸彈性的織物材料製成。A heart rate sensing belt structure for wearing and attaching to a user's chest for measuring the user's heart rhythm signal, characterized in that the heart rate sensing belt structure includes: A soft rubber sensor tape having a first surface and a second surface, a first through hole and a second through hole penetrating the first surface and the second surface and spaced apart from each other are opened, the first surface For combining with a signal processing and transmission unit, the two free ends of the soft rubber sensor belt form an integral buckle respectively, and the soft rubber sensor belt is selected from thermoplastic polyurethane rubber material, thermoplastic elastic rubber material, silicone rubber, and rubber One of the materials; An elastic belt, two free ends of the elastic belt are respectively provided with buckles which are respectively buckled on the buckle of the soft rubber sensing belt, and the elastic belt is made of a fabric material with stretch elasticity.如請求項7所述之心律感測帶結構，其中該軟膠感測帶的該第二表面形成至少一第一生理訊號感測單元定位部和一第二生理訊號感測單元定位部。The heart rhythm sensing belt structure according to claim 7, wherein the second surface of the soft rubber sensing belt forms at least a first physiological signal sensing unit positioning portion and a second physiological signal sensing unit positioning portion.如請求項7所述之心律感測帶結構，其中該軟膠感測帶的更形成複數個貫通該第一表面和該第二表面的排汗鏤空區。The heart rhythm sensing belt structure according to claim 7, wherein the soft rubber sensing belt further forms a plurality of perspiration hollow areas penetrating the first surface and the second surface.如請求項7所述之心律感測帶結構，其中該第一生理訊號感測單元和該第二生理訊號感測單元係和該軟膠感測帶一體成型而製成。The heart rhythm sensing belt structure according to claim 7, wherein the first physiological signal sensing unit and the second physiological signal sensing unit are integrally formed with the soft rubber sensing belt.

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