CN101856217A - Anti-interference wearable physiological signal measuring device - Google Patents
Anti-interference wearable physiological signal measuring device Download PDFInfo
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- CN101856217A CN101856217A CN200910132034A CN200910132034A CN101856217A CN 101856217 A CN101856217 A CN 101856217A CN 200910132034 A CN200910132034 A CN 200910132034A CN 200910132034 A CN200910132034 A CN 200910132034A CN 101856217 A CN101856217 A CN 101856217A
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- physiological signal
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- signal measuring
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Abstract
The invention relates to an anti-interference wearable physiological signal measuring device, comprising an electric conductor layer and an insulation coating layer, wherein the electric conductor layer is used for measuring a physiological signal of a testee, and the insulation coating layer which is arranged on one side of the electric conductor layer is used for insulating the electric conductor layer from external static interference.
Description
Technical field
The invention provides a kind of wearable physiological signal measuring device, particularly a kind of wearable physiological signal measuring device that prevents interfering signal.
Background technology
In recent years because people look after pay attention to day by day to health medical treatment, various physiological signal measuring apparatus also become the emphasis of medical device industry development, the physiological signal measuring apparatus that for example can monitor breathing, heart beating, body action is developed gradually, yet conventional fixed formula physiological signal measuring apparatus must be monitored the situation of testee in the fixed location, therefore relatively lacks mobility.In order to improve this shortcoming, the wearable physiological signal measuring device that may be worn on the testee health arises at the historic moment, and reaches the effect of the physiological signal of monitoring testee whenever and wherever possible.See also Fig. 1, Fig. 1 is the structural representation of a wearable physiological signal measuring device 10 of prior art, wearable physiological signal measuring device 10 includes an electric conductor layer 12, it is provided with at least one textile electrode 14, it is used for contacting the skin 16 of testee, so as to measuring the physiological signal of testee; Wearable physiological signal measuring device 10 also includes an elastic fabric layer 18, and it is incorporated into electric conductor layer 12 and may contacts with a medicated clothing 20.And at present wearable physiological signal measuring device 10 is used in long-time daily life when using, because medicated clothing 20 can contact with elastic fabric layer 18, and aprowl medicated clothing 20 can with elastic fabric layer 18 mutual friction and produce static mutually, and then produce interfering signal and make the physiological signal data that electric conductor layer 12 adopts (as electrocardiosignal etc.) to be interfered, cause the signal quality variation and reduce the reliability and the accuracy of monitoring.
Summary of the invention
The invention provides a kind of wearable physiological signal measuring device that prevents interfering signal, to solve the above problems.
The present invention discloses a kind of anti-interference wearable physiological signal measuring device, it includes an electric conductor layer, it is used for measuring a physiology signal of testee, and one the insulation coating layer, it is arranged on a side of this electric conductor layer, and this insulation coating layer is used for completely cutting off extraneous static interference and imports this electric conductor layer into.
The present invention also discloses this electric conductor layer and is provided with at least one textile electrode, and it is used for contacting the skin of testee, so as to measuring this physiological signal of testee.
The present invention also discloses this wearable physiological signal measuring device and also comprises an elastic fabric layer, and it is arranged on the outside of this insulation coating layer.
It is to be arranged between this electric conductor layer and this elastic fabric layer with stitching, hot pressing or adherent mode that the present invention also discloses this insulation coating layer.
The present invention also discloses the inboard that this insulation coating layer is coated on this elastic fabric layer.
The present invention also discloses this elastic fabric layer and is made up of the staple fibre material.
The present invention also discloses an electrocardiosignal, a breath signal, the health impedance that this electric conductor layer is used for measuring testee, or a body temperature changes.
The present invention also discloses this side that this insulation coating layer is coated on this electric conductor layer.
The present invention also discloses this insulation coating layer by plastic material, insulating cement, rubber material, electric with nonwoven polyester fabric material, glass fibre material, asbestos material, Pilus Caprae seu Ovis material, Teflon material, mica sheet material, or the silica gel material is formed.
The present invention also discloses this insulation coating layer and is made up of cloth matter insulant, as cotton material, cloth matter bakelite material etc.
Description of drawings
Fig. 1 is the structural representation of prior art wearable physiological signal measuring device.
The schematic appearance of Fig. 2 wearable physiological signal measuring device of the present invention.
The structural representation of Fig. 3 wearable physiological signal measuring device of the present invention.
The structural representation of Fig. 4 another embodiment of the present invention wearable physiological signal measuring device.
The main element symbol description
10 wearable physiological signals are measured 12 electric conductor layers
Device
14 textile electrodes, 16 skins
18 elastic fabric layers, 20 medicated clothings
50, wearable physiological signal is measured 52 electric conductor layers
100 devices
54 textile electrodes, 56 skins
58 elastic fabric layers, 60 medicated clothings
62 insulation coating layers
The specific embodiment
See also Fig. 2 and Fig. 3, Fig. 2 is the schematic appearance of the present invention's one wearable physiological signal measuring device 50, Fig. 3 is the structural representation of wearable physiological signal measuring device 50 of the present invention, wearable physiological signal measuring device 50 can be a rhythm of the heart band, be used for measuring electrocardiosignal (after one's own heart hop rate rate), a breath signal, a health impedance of testee, or a body temperature variation etc.; And wearable physiological signal measuring device 50 is looked after the long-time electrocardiogram sampling purposes of usefulness etc. applicable to the measurement of the motion rhythm of the heart, heart failure sufferer far-end.Wearable physiological signal measuring device 50 includes an electric conductor layer 52, it is provided with at least one textile electrode 54, it is used for contacting the skin 56 of testee, so as to measuring the physiological signal of testee, as electrocardiosignal etc., textile electrode 54 can be an elastic conductive cloth that possesses Telescopic, textile electrode 54 can the metallic conduction fibers form directly braiding be combined in the unclassified stores of electric conductor layer 52, or additionally make on electric conductor layer 52; Wearable physiological signal measuring device 50 also includes an elastic fabric layer 58, it may contact with a medicated clothing 60, elastic fabric layer 58 can be an elastical cloth, and elastic fabric layer 58 can be made up of the staple fibre material, or formed by staple fibre and cotton mixture, as nylon (Nylon), elastomeric yarn (Lycra), with materials such as cottons.
Characteristic of the present invention is that wearable physiological signal measuring device 50 also includes an insulation coating layer 62; it is arranged between electric conductor layer 52 and the elastic fabric layer 58; because insulation coating layer 62 is made up of the insulation material; so static that it is produced when can be used to isolated elastic fabric layer 58 with medicated clothing 60 frictions; the structure that the coating layer 62 that wherein insulate is arranged on 58 of electric conductor layer 52 and elastic fabric layers can comprise that insulation coating layer 62 sews up; hot pressing; or be bonded between electric conductor layer 52 and the elastic fabric layer 58; insulation coating layer 62 is coated on the inboard of electric conductor layer 52; or insulation coating layer 62 is coated on the inboard of elastic fabric layer 58 etc.; and the areal extent of insulation coating layer 62 should be greater than the conduction scope of electric conductor layer 52; so long as insulation coating layer 62 is arranged on electric conductor layer 52 and 58 of elastic fabric layers and can completely cuts off the electrostatic structural design that is produced when elastic fabric layer 58 rubs with medicated clothing 60, the category that all belongs to the present invention and protected.And elastic fabric layer 58 of the present invention can be optionally setting, the meaning outside that coating layer 62 is arranged on electric conductor layer 52 of promptly insulating is imported electric conductor layer 52 into isolated extraneous static interference, and elastic fabric layer 58 need not be set, for example be the wearable physiological signal measuring device of motion purposes.
In addition, insulation coating layer 62 can change into plate, wheat by plastic material, insulating cement, rubber material, silica gel material, glass fibre material, asbestos material, Pilus Caprae seu Ovis material, Teflon (teflon) material, mica sheet material, diesel oil paper, daylight and draw (Mylar) material, mylar, electricly forms with institutes such as nonwoven polyester fabric materials, insulation coating layer 62 or can be made up of cloth matter insulant is as cotton material, cloth matter bakelite material etc.
See also Fig. 4, the structural representation of Fig. 4 another embodiment of the present invention wearable physiological signal measuring device 100, and the previous embodiment difference can partly be arranged between electric conductor layer 52 and the elastic fabric layer 58 for insulation coating layer 62, get final product so long as can reach the electrostatic purpose that is produced when isolated elastic fabric layer 58 rubs with medicated clothing 60, meaning promptly insulate textile electrode 54 and elastic fabric layer 58 on the isolated electric conductor layer 52 of 62 need of coating layer, and the static that is produced when avoiding elastic fabric layer 58 with medicated clothing 60 frictions conducts to the textile electrode 54 on the electric conductor layer 52, just can save the materials of insulation coating layer 62 thus.
In sum, utilization of the present invention is arranged on electric conductor layer 52 outsides by the insulation coating layer 62 formed of insulation material or is arranged on electric conductor layer 52 and the structural design of 58 of elastic fabric layers, reach the purpose that the static that is produced when isolated extraneous static interference is imported electric conductor layer 52 or elastic fabric layer 58 and medicated clothing 60 frictions into conducts to electric conductor layer 52, just the interfering signal that can avoid the static friction to be caused thus effectively, and promote the quality and the accuracy of the physiological signal data adopted (as electrocardiosignal etc.), for example can increase rhythm of the heart computational stability, or promote the accuracy that the rear end is analyzed the software interpretation automatically, and then the diagnostic value of the enhancement electrocardio wave mode that captures etc.; Moreover the present invention to set up insulation coating layer 62 required additional costs high and do not need particular process sequence, so the tool commercial competitiveness.
Compared to prior art, utilization of the present invention is arranged on the structural design of the insulation coating layer of electric conductor layer one side, reach the purpose that the static that is produced when isolated extraneous static interference is imported electric conductor layer or elastic fabric layer and medicated clothing friction into conducts to electric conductor layer, just the interfering signal that can avoid the static friction to be caused thus effectively, and the quality and the accuracy of the physiological signal data that lifting is adopted.
The above only is the preferred embodiments of the present invention, and all equalizations of being done according to the present invention change and modify, and all should belong to scope of the present invention.
Claims (21)
1. anti-interference wearable physiological signal measuring device, it includes:
One electric conductor layer, it is used for measuring a physiology signal of testee; And
One insulation coating layer, it is arranged on a side of this electric conductor layer, and this insulation coating layer is used for completely cutting off extraneous static interference and imports this electric conductor layer into.
2. wearable physiological signal measuring device according to claim 1, wherein this electric conductor layer is provided with at least one textile electrode, and it is used for contacting the skin of testee, so as to measuring this physiological signal of testee.
3. wearable physiological signal measuring device according to claim 1, it also comprises an elastic fabric layer, it is arranged on the outside of this insulation coating layer.
4. wearable physiological signal measuring device according to claim 3, wherein this insulation coating layer is to be arranged between this electric conductor layer and this elastic fabric layer with stitching, hot pressing or adherent mode.
5. wearable physiological signal measuring device according to claim 3, wherein this insulation coating layer is coated on the inboard of this elastic fabric layer.
6. wearable physiological signal measuring device according to claim 3, wherein this elastic fabric layer is made up of the staple fibre material.
7. wearable physiological signal measuring device according to claim 1, wherein this electric conductor layer is used for measuring an electrocardiosignal, a breath signal, a health impedance of testee, or a body temperature changes.
8. wearable physiological signal measuring device according to claim 1, wherein this insulation coating layer is coated on this side of this electric conductor layer.
9. wearable physiological signal measuring device according to claim 1, wherein this insulation coating layer is made up of plastic material.
10. wearable physiological signal measuring device according to claim 1, wherein this insulation coating layer is made up of insulating cement.
11. wearable physiological signal measuring device according to claim 1, wherein this insulation coating layer is made up of the rubber material.
12. wearable physiological signal measuring device according to claim 1, wherein this insulation coating layer is made up of the silica gel material.
13. wearable physiological signal measuring device according to claim 1, wherein this insulation coating layer is made up of cloth matter insulant.
14. wearable physiological signal measuring device according to claim 13, wherein this insulation coating layer is made up of the cotton material.
15. wearable physiological signal measuring device according to claim 13, wherein this insulation coating layer is made up of cloth matter bakelite material.
16. wearable physiological signal measuring device according to claim 1, wherein this insulation coating layer is made up of with the nonwoven polyester fabric material electric.
17. wearable physiological signal measuring device according to claim 1, wherein this insulation coating layer is made up of the glass fibre material.
18. wearable physiological signal measuring device according to claim 1, wherein this insulation coating layer is made up of the asbestos material.
19. wearable physiological signal measuring device according to claim 1, wherein this insulation coating layer is made up of the Pilus Caprae seu Ovis material.
20. wearable physiological signal measuring device according to claim 1, wherein this insulation coating layer is made up of the Teflon material.
21. wearable physiological signal measuring device according to claim 1, wherein this insulation coating layer is made up of the mica sheet material.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN200910132034A CN101856217A (en) | 2009-04-13 | 2009-04-13 | Anti-interference wearable physiological signal measuring device |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN200910132034A CN101856217A (en) | 2009-04-13 | 2009-04-13 | Anti-interference wearable physiological signal measuring device |
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| CN101856217A true CN101856217A (en) | 2010-10-13 |
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| CN200910132034A Pending CN101856217A (en) | 2009-04-13 | 2009-04-13 | Anti-interference wearable physiological signal measuring device |
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104257381A (en) * | 2014-10-23 | 2015-01-07 | 太原特玛茹电子科技有限公司 | Voice frequency sleep assisting device based on brain wave signals |
| CN104622441A (en) * | 2013-11-06 | 2015-05-20 | 广达电脑股份有限公司 | Wearable device |
| CN110678120A (en) * | 2017-05-29 | 2020-01-10 | 东洋纺株式会社 | Clothing for measuring physiological information |
-
2009
- 2009-04-13 CN CN200910132034A patent/CN101856217A/en active Pending
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104622441A (en) * | 2013-11-06 | 2015-05-20 | 广达电脑股份有限公司 | Wearable device |
| CN104257381A (en) * | 2014-10-23 | 2015-01-07 | 太原特玛茹电子科技有限公司 | Voice frequency sleep assisting device based on brain wave signals |
| CN110678120A (en) * | 2017-05-29 | 2020-01-10 | 东洋纺株式会社 | Clothing for measuring physiological information |
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Open date: 20101013 |