CN115778316A - Erection detection method and underpants - Google Patents
Erection detection method and underpants Download PDFInfo
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- CN115778316A CN115778316A CN202211380527.2A CN202211380527A CN115778316A CN 115778316 A CN115778316 A CN 115778316A CN 202211380527 A CN202211380527 A CN 202211380527A CN 115778316 A CN115778316 A CN 115778316A
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- 238000001514 detection method Methods 0.000 title claims abstract description 108
- 239000004744 fabric Substances 0.000 claims description 9
- OKTJSMMVPCPJKN-UHFFFAOYSA-N Carbon Chemical compound [C] OKTJSMMVPCPJKN-UHFFFAOYSA-N 0.000 claims description 5
- 238000011156 evaluation Methods 0.000 claims description 5
- 229910021389 graphene Inorganic materials 0.000 claims description 5
- 238000000034 method Methods 0.000 claims description 4
- 230000001960 triggered effect Effects 0.000 claims description 2
- 238000012360 testing method Methods 0.000 claims 7
- 230000003862 health status Effects 0.000 abstract 1
- 230000008859 change Effects 0.000 description 4
- 206010021118 Hypotonia Diseases 0.000 description 3
- 238000010586 diagram Methods 0.000 description 3
- 208000017561 flaccidity Diseases 0.000 description 3
- 230000036541 health Effects 0.000 description 3
- 210000003899 penis Anatomy 0.000 description 3
- 208000010228 Erectile Dysfunction Diseases 0.000 description 2
- 201000001881 impotence Diseases 0.000 description 2
- 230000035790 physiological processes and functions Effects 0.000 description 2
- 230000035945 sensitivity Effects 0.000 description 2
- 229920000742 Cotton Polymers 0.000 description 1
- QVGXLLKOCUKJST-UHFFFAOYSA-N atomic oxygen Chemical compound [O] QVGXLLKOCUKJST-UHFFFAOYSA-N 0.000 description 1
- 230000017531 blood circulation Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000001856 erectile effect Effects 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 230000007246 mechanism Effects 0.000 description 1
- 230000002503 metabolic effect Effects 0.000 description 1
- 229910052760 oxygen Inorganic materials 0.000 description 1
- 239000001301 oxygen Substances 0.000 description 1
- 230000008569 process Effects 0.000 description 1
- 230000004461 rapid eye movement Effects 0.000 description 1
- 239000004065 semiconductor Substances 0.000 description 1
- 230000004599 slow eye movement Effects 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
- 239000000758 substrate Substances 0.000 description 1
- 230000002618 waking effect Effects 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
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- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
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Abstract
The invention discloses an erection detection method and underpants, comprising the following steps: step S1: detecting an erection; step S2: outputting the signal; and step S3: outputting erection data; and step S4: evaluating the result; the invention outputs erection signals to a signal collecting device through a step S2, obtains speed time T1 from non-erection to complete erection, time T2 for keeping the complete erection and erection times N, transmits data on the signal collecting device to mobile equipment through a step S3, and compares detection data with normal erection data through a step S4 to judge the erection health status of the male; the invention also discloses underpants, which comprise an underpants body, a detection device and a signal collection device, wherein the detection device comprises an interdigital electrode layer and a conductive layer; when the male erects at night, the conductive layer is pressed against the interdigital electrode layer, so that two opposite electrodes on the interdigital electrode layer are conducted, and the data of male erection at night is obtained.
Description
[ technical field ] A method for producing a semiconductor device
The invention relates to the technical field of underpants, in particular to an erection detection method and underpants.
[ background of the invention ]
The human sleep is always in the alternation of the sleep period of the rapid eye movement and the sleep period of the slow eye movement, and correspondingly experiences the physiological processes of erection, flaccidity, re-erection and re-flaccidity, which is medically called as penis night erection, and is the normal physiological process of healthy men. Night time erection is sometimes called the "charging mechanism" of the penis, since the alternation of erection and flaccidity promotes blood circulation, brings in oxygen and the like and carries away metabolic waste. Generally, the male can erect 4-6 times and 10-40 minutes each time every night, and the total erection can reach two and a half hours.
Whether the male is erect at night is of great significance for judging the nature of erectile dysfunction in a waking state, and if the male is erect normally during sleeping, the male is not erectile dysfunction in an organic way, but has other causes.
[ summary of the invention ]
In order to solve the problem of detecting the male erection state at night, the invention provides an erection detection method and underpants, which can monitor the data of the male erection state at night.
The invention is realized by the following technical scheme:
an erection detection method and underpants comprise the following steps:
step S1: detecting erection, and triggering the detection device to start to acquire signals when the conduction numbers of two opposite electrodes of the detection device are increased in sequence;
step S2: the signal output device outputs the signal to the signal collection device;
and step S3: outputting erection data, and transmitting the data to the mobile equipment by the signal collecting device through the Bluetooth module;
and step S4: evaluation results showed that the erection times were normal when 3-n-woven bags were 7, erection speed was normal when T1<10s, and erection was normal when 10min-T2-woven bags were 40min;
wherein, in step S2, the following steps are further included:
step S201: obtaining time T1, wherein the time T1 is the time from the time when the electrode of the detection device starts to be conducted and output a signal to the time when the detection device keeps outputting a stable signal in the step S1;
step S202: obtaining time T2, wherein the time T2 is the duration of the output stable signal of the detection device, namely the time for keeping the erection state;
step S203: within a preset time, when two opposite electrodes of the detection device are sequentially conducted from bottom to top, returning to the step 1, recording the number of times of 1-time erection, and carrying out the next step after the preset time is over;
step S204: the number of puffs N is obtained, where N is the number of puffs accumulated in step S203.
The erection detection method as described above, the step S1 further comprises:
step S101: the detection device is provided with electrodes which are sequentially connected in parallel from bottom to top and are kept normally open, when the electrodes which are connected in parallel and are kept normally open are sequentially conducted from bottom to top, the male starts to erect, the electrodes which are connected in parallel are increased, the total resistance is reduced, when the resistance on the detection device is sequentially reduced in a linear mode, the male normally erect, the next step is carried out, when the resistance on the detection device is not changed in a sequentially reduced linear mode, the detection device misdetects signals, and the detection device stops detection.
In the above erection detection method, in step S101, according to the parallel resistance value calculation formula:
1/R Total =1/R1+1/R2+1/R3+. +1/Rn,
the detection device is provided with a plurality of conducted parallel electrodes, so that the output resistance signal is kept small, the erection length is large, the detection device is provided with a plurality of conducted parallel electrodes, the output resistance signal is kept large, and the erection length is small.
The erection detection method as described above, the step S201 includes:
step S2011: when the upper electrode of the detection device starts to be conducted and outputs a signal to the signal collection device, the timing module on the signal collection device is triggered to start timing, and when the detection device keeps outputting a stable signal, the timing module finishes timing to obtain time T1.
The erection detection method as described above, the step S202 includes:
step S2021: when the detection device starts to keep outputting the stable signal to the signal collection device, the timing module starts timing, and when the stable signal kept outputting changes, the timing module finishes timing to obtain time T2.
The underpants comprise the erection detection method, and further comprise an underpants body, a detection device which is arranged at the crotch of the underpants body and used for detecting the erection state of a male, and a signal collection device which is electrically connected with the detection device and used for receiving a detection signal of the detection device, wherein the detection device comprises an interdigital electrode layer and a conductive layer, when the conductive layer is attached to and pressed against the interdigital electrode layer, the conductive layer is attached to the interdigital electrode layer, and two opposite electrodes are conducted.
As for the underpants, the conductive layer is made of graphene pressure-sensitive fabric.
As for the underpants, the interdigital electrode layer is provided with a long-strip-shaped interdigital electrode and a connection output end for connecting the interdigital electrode with the signal collection device.
As for the underpants, the width range of the interdigital electrode is 1mm-3mm, and the width range of the connection output end is 10mm-20mm.
As mentioned above, the interdigital electrode layer includes the working electrode, and the counter electrode disposed opposite to the working electrode, and the working electrode and the counter electrode are disposed with a space therebetween.
Compared with the prior art, the invention has the following advantages:
1. the invention provides an erection detection method, which comprises the following steps:
step S1: detecting erection, and triggering the detection device to start to acquire signals when the conduction numbers of two opposite electrodes of the detection device are increased in sequence;
step S2: the signal output device outputs the signal to the signal collection device;
and step S3: outputting erection data, and transmitting the data to the mobile equipment by the signal collection device through the Bluetooth module;
and step S4: evaluation results showed that the erection times were normal when 3-n-woven bags were 7, erection speed was normal when T1<10s, and erection was normal when 10min-T2-woven bags were 40min;
wherein, in step S2, the following steps are further included:
step S201: obtaining time T1, wherein the time T1 is the time from the time when the electrode of the detection device starts to be conducted and outputs a signal to the time when the detection device keeps outputting a stable signal in the step S1;
step S202: obtaining time T2, wherein the time T2 is the duration of the output stable signal of the detection device, namely the time for keeping the erection state;
step S203: within a preset time, when two opposite electrodes of the detection device are sequentially conducted from bottom to top, returning to the step 1, recording the number of times of 1-time erection, and carrying out the next step after the preset time is over;
step S204: obtaining the number of puffs N, where N is the number of puffs accumulated in step S203;
the invention detects male erection at night through step S1, outputs an erection signal to a signal collecting device through step S2, obtains speed time T1 from non-erection to complete erection state, obtains time T2 for maintaining complete erection state and obtains erection times N, transmits data collected by the signal collecting device to a mobile device through step S3, and compares the detected data with normal erection data through step S4 to judge male erection health state.
2. The invention also discloses underpants, which comprise the erection detection method, and further comprise an underpants body, a detection device which is arranged at the crotch of the underpants body and is used for detecting the erection state of a male, and a signal collection device which is electrically connected with the detection device and is used for receiving a detection signal of the detection device, wherein the detection device comprises an interdigital electrode layer and a conductive layer, when the conductive layer is tightly attached and pressed against the interdigital electrode layer, the conductive layer is tightly attached on the interdigital electrode layer, and two opposite electrodes are conducted; when the male erects at night, the conducting layer is pressed to be attached to and pressed against the interdigital electrode layer, so that two opposite electrodes on the interdigital electrode layer are conducted, the signal collecting device collects signals of the conducted electrodes, data of the male erection at night are obtained, and the conductive type male erection device is simple in structure, easy to wear, low in cost and capable of meeting requirements of customers.
[ description of the drawings ]
In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below.
FIG. 1 is a block diagram showing the steps of an erection detection method of the present invention;
FIG. 2 is a block diagram of a process for erection detection according to the present invention;
FIG. 3 is an exploded view of the underpants of the invention;
FIG. 4 is a schematic structural diagram of an interdigital electrode layer of the underpants according to the present invention;
fig. 5 is a schematic view of an exploded structure of an interdigital electrode layer of the underpants.
[ detailed description ] embodiments
In order to make the technical problems, technical solutions and advantageous effects solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the invention.
In a specific embodiment, a method for detecting an erection as shown in fig. 1 to 5 comprises the following steps:
step S1: detecting erection, and triggering the detection device to start to acquire signals when the conduction numbers of two opposite electrodes of the detection device are increased in sequence;
step S2: the signal output device outputs the signal to the signal collection device;
and step S3: outputting erection data, and transmitting the data to the mobile equipment by the signal collection device through the Bluetooth module;
and step S4: evaluation results showed that the erection times were normal when 3-n-woven bags were 7, erection speed was normal when T1<10s, and erection was normal when 10min-T2-woven bags were 40min;
wherein, in step S2, the following steps are further included:
step S201: obtaining time T1, wherein the time T1 is the time from the time when the electrode of the detection device starts to be conducted and outputs a signal to the time when the detection device keeps outputting a stable signal in the step S1;
step S202: obtaining time T2, wherein the time T2 is the duration of the output stable signal of the detection device, namely the time for keeping the erection state;
step S203: within a preset time, when two opposite electrodes of the detection device are sequentially conducted from bottom to top, returning to the step 1, recording the number of times of 1-time erection, and carrying out the next step after the preset time is over;
step S204: obtaining the number of puffs N, where N is the number of puffs accumulated in step S203;
the invention detects male erection at night through step S1, outputs an erection signal to a signal collecting device through step S2, obtains speed time T1 from non-erection to complete erection state, obtains time T2 for maintaining complete erection state and obtains erection times N, transmits data collected by the signal collecting device to a mobile device through step S3, and compares the detected data with normal erection data through step S4 to judge male erection health state.
Further, the step S1 further includes:
step S101: the detection device is provided with electrodes which are sequentially connected in parallel from bottom to top and are kept normally open, when the electrodes which are connected in parallel and are kept normally open are sequentially conducted from bottom to top, the male starts to erect, the electrodes which are connected in parallel are increased, the total resistance is reduced, when the resistance on the detection device is sequentially reduced in a linear mode, the male erects normally, the next step is carried out, when the resistance on the detection device is not changed in a sequentially reduced linear mode, the detection device misdetects signals, and the detection device stops detection; thereby judging whether the state is a normal erection state or a false touch-on state.
Further, in step S101, according to the parallel resistance value calculation formula:
1/R Total =1/R1+1/R2+1/R3+. +1/Rn,
the detection device is provided with a plurality of conducted parallel electrodes, so that the output resistance signal is kept small, the erection length is large, the detection device is provided with a small number of conducted parallel electrodes, the output resistance signal is kept large, and the erection length is small.
Specifically, the step S201 includes:
step S2011: when the electrode on the detection device starts to be conducted and outputs a signal to the signal collection device, triggering a timing module on the signal collection device to start timing, and when the detection device keeps outputting a stable signal, finishing timing by the timing module to obtain time T1; when the electrodes which are connected in parallel and are kept normally disconnected are sequentially conducted from bottom to top, the male starts to erect, the electrodes connected in parallel are increased, the total resistance is reduced, when the total resistance is kept stable and unchanged, the electrodes connected in parallel are not increased any more, the fully erected state is achieved, the timing module finishes timing, and the speed time T1 from the non-erected state to the fully erected state is obtained.
More specifically, the step S202 includes:
step S2021: when the detection device starts to keep outputting stable signals to the signal collection device, the timing module starts timing, and when the stable signals kept to be output change, the timing module finishes timing to obtain time T2; when the total resistance is kept stable and unchanged, the parallel electrodes are not increased any more, the completely erect state is reached, the time T1 is timed out, the timing module starts timing again, when the output stable and unchanged signal is changed, namely the parallel electrodes start to be reduced, the total resistance starts to be increased, the male penis starts to be fatigued down, the timing module is timed out, and the total time T2 for keeping the completely erect state is obtained.
The invention also discloses underpants, which comprise the erection detection method, and further comprise an underpants body 1, a detection device 2 which is arranged at the crotch of the underpants body 1 and is used for detecting the erection state of a male, and a signal collection device 3 which is electrically connected with the detection device 2 and is used for receiving a detection signal of the detection device 2, wherein the detection device 2 comprises an interdigital electrode layer 4 and a conducting layer 5, when the conducting layer 5 is tightly attached and is pressed against the interdigital electrode layer 4, the interdigital electrode layer 4 is tightly attached to the conducting layer 5, and two opposite electrodes are conducted; when a male erects at night, the conducting layer 5 is pressed, the conducting layer 5 is tightly attached to and pressed against the interdigital electrode layer 4, so that two opposite electrodes on the interdigital electrode layer 4 are conducted, the signal collecting device 3 collects signals of the conducted electrodes, data of the male erection at night are obtained, the structure is simple, the wearing is easy, the cost is low, and the requirements of customers can be met, the conducting layer 5 is a pressure-sensitive fabric, and the resistance can change along with the pressure change.
Further, the conductive layer 5 is a graphene pressure-sensitive fabric; the resistance of the graphene pressure-sensitive fabric is reduced along with the increase of the pressure on the graphene pressure-sensitive fabric, so that the accuracy of detecting the male erection pressure state is further improved.
Furthermore, the interdigital electrode layer 4 is provided with an interdigital electrode 6 in a strip shape, and a connection output end 7 for connecting the interdigital electrode 6 with the signal collection device 3; and a lead for connecting the signal collecting device 3 and the connecting output end 7 is also arranged between the signal collecting device 3 and the connecting output end 7, and the lead is welded on the connecting output end 7, so that the signal collecting device 3 is electrically connected with the connecting output end 7, and the signal collecting device 3 obtains the signals of the interdigital electrodes 6.
Specifically, the width range of the interdigital electrode 6 is 1mm-3mm, and the width range of the connection output end 7 is 10mm-20mm; the width of the interdigital electrode 6 is preferably 2mm, and the width of the connection output end 7 is preferably 15mm, so that the width of the interdigital electrode is suitable for the size of the underpants body 1, the density of the interdigital electrode 6 is increased, and the sensitivity of the interdigital electrode 6 is improved.
More specifically, the interdigital electrode layer 4 includes a working electrode 41, and a counter electrode 42 disposed opposite to the working electrode 41, and the working electrode 41 and the counter electrode 42 are disposed with a space therebetween; when the conductive layer 5 is kept close to and pressed against the interdigital electrode layer 4, the working electrode 41 and the counter electrode 42 are communicated.
In addition, the interdigital electrode 6 is arranged on the interdigital electrode layer 4, the interdigital electrode 6 includes a first interdigital electrode 61 which is arranged on the working electrode 41 and is arranged with a gap, and a second interdigital electrode 62 which is arranged on the counter electrode 42 and is arranged with a gap, and the first interdigital electrode 61 and the second interdigital electrode 62 are mutually crossed and are arranged with a gap; the first interdigital electrodes 61 are connected in parallel, the second interdigital electrodes 62 are connected in parallel, when the first interdigital electrodes 61 and the second interdigital electrodes 62 are kept on and are connected in parallel, the resistance on the interdigital electrode layer 4 is smaller, and then the signal collecting device 3 can more accurately obtain the male night erection state through the change of collected data.
A connection output end 7 is arranged on the interdigital electrode layer 4, the connection output end 7 comprises a first connection output end 71 arranged on the working electrode 41 and a second connection output end 72 arranged on the counter electrode 42, and the first connection output end 71 and the second connection output end 72 are arranged at intervals; the first connection output end 71 is connected to the first interdigital electrode 61, the second connection output end 72 is connected to the second interdigital electrode 62, when the first interdigital electrode 61 and the second interdigital electrode 62 are kept on, the first connection output end 71 and the second connection output end 72 are used for outputting signals to the signal collection device 3, and the distance between the first connection output end 71 and the second connection output end 72 is preferably 20mm.
Further, the width range of the interdigital electrode layer 4 is 70mm-90mm; the width of the interdigital electrode layer 4 is preferably 80mm, the length of the first interdigital electrode 61 and the second interdigital electrode 62 in the longitudinal direction, which are arranged to intersect with each other while maintaining a spacing, is preferably 90mm, and the longitudinal distance between the first interdigital electrode 61 and the second interdigital electrode 62 is preferably 2mm, so as to be suitable for the size of the underpants body 1, and the density of the first interdigital electrode 61 and the second interdigital electrode 62 is increased, so that the sensitivity of the interdigital electrode 6 is improved.
Furthermore, a base layer 8 and a binding layer 9 are further arranged on the crotch of the underwear body 1, and the interdigital electrode layer 4 and the conductive layer 5 are both located between the base layer 8 and the binding layer 9; the base layer 8 and the binding layer 9 are preferably made of elastic cloth, so that the interdigital electrode layer 4 and the conductive layer 5 are sewn between the base layer 8 and the binding layer 9, the interdigital electrode layer 4 is attached to the base layer 8 to be fixed, the interdigital electrode layer 4 and the conductive layer 5 are arranged at intervals, and the conductive layer 5 is attached to the binding layer 9 to be fixed.
Specifically, the binding layer 9, the conductive layer 5, the interdigital electrode layer 4, and the substrate layer 8 are sequentially stacked in a direction away from the pant body 1; and enabling the conductive layer 5 to be positioned between the interdigital electrode layer 4 and the underwear body 1, and further jacking the conductive layer 5 when a male is erectile at night, so that the conductive layer 5 is kept close to the interdigital electrode layer 4.
The underwear body 1 is made of elastic cloth capable of enabling the underwear body to be attached to the skin, the underwear body 1 is preferably made of high-elasticity cloth such as cotton and modal, and the underwear body can be attached to the skin and is comfortable to wear. The signal collection device 3 comprises a timing module and a Bluetooth module, the Bluetooth module is used for being in wireless connection with the mobile device and outputting data collected by the signal collection device 3, the chip type of the Bluetooth module is TI CC2540, and the timing module is used for recording the speed time from the non-erection state to the full-erection state and the time for keeping the full-erection state.
The working principle of the embodiment is as follows:
1. the invention relates to an erection detection method, which comprises the following steps:
step S1: detecting erection, and triggering a detection device to start to acquire signals when the conduction number of two opposite electrodes of the detection device is increased in sequence;
step S2: the signal output device outputs the signal to the signal collection device;
and step S3: outputting erection data, and transmitting the data to the mobile equipment by the signal collection device through the Bluetooth module;
and step S4: evaluation results showed that the erection times were normal when 3-n-woven bags were 7, erection speed was normal when T1<10s, and erection was normal when 10min-T2-woven bags were 40min;
wherein, in step S2, the following steps are further included:
step S201: obtaining time T1, wherein the time T1 is the time from the time when the electrode of the detection device starts to be conducted and output a signal to the time when the detection device keeps outputting a stable signal in the step S1;
step S202: obtaining time T2, wherein the time T2 is the duration of the output stable signal of the detection device, namely the time for keeping the erection state;
step S203: within a preset time, when two opposite electrodes of the detection device are sequentially conducted from bottom to top, returning to the step 1, recording the number of times of 1-time erection, and carrying out the next step after the preset time is over;
step S204: obtaining the number of puffs N, where N is the number of puffs accumulated in step S203;
the invention detects male erection at night through step S1, outputs an erection signal to a signal collecting device through step S2, obtains speed time T1 from non-erection to complete erection state, obtains time T2 for maintaining complete erection state and obtains erection times N, transmits data collected by the signal collecting device to a mobile device through step S3, and compares the detected data with normal erection data through step S4 to judge male erection health state.
2. The invention also discloses underpants, which comprise an underpants body 1, a detection device 2 which is arranged at the crotch of the underpants body 1 and is used for detecting the erection state of the male, and a signal collection device 3 which is electrically connected with the detection device 2 and is used for receiving the detection signal of the detection device 2, wherein the detection device 2 comprises an interdigital electrode layer 4 and a conducting layer 5, when the conducting layer 5 is tightly attached and is pressed against the interdigital electrode layer 4, the interdigital electrode layer 4 is tightly attached to the conducting layer 5, and two opposite electrodes are conducted; when the male erects at night, the conducting layer 5 is pressed, the conducting layer 5 is tightly attached to and presses the interdigital electrode layer 4, so that two opposite electrodes on the interdigital electrode layer 4 are conducted, the signal collecting device 3 collects signals of the conducted electrodes, data of the male erection at night are obtained, and the device is simple in structure, easy to wear, low in cost and capable of meeting requirements of customers.
The foregoing is an embodiment provided in connection with the detailed description and is not intended to limit the invention to the particular embodiments described herein, nor to limit the invention to the specific embodiments described herein, or to the specific embodiments described herein. Similar or identical methods and structures as those of the present invention or several technical deductions or substitutions on the premise of the idea of the present invention should be regarded as the protection scope of the present invention.
Claims (10)
1. An erection detection method, which is characterized in that: the method comprises the following steps:
step S1: detecting erection, and triggering the detection device to start to acquire signals when the conduction numbers of two opposite electrodes of the detection device are increased in sequence;
step S2: the signal output device outputs the signal to the signal collection device;
and step S3: outputting erection data, and transmitting the data to the mobile equipment by the signal collection device through the Bluetooth module;
and step S4: as a result of evaluation, when 3-N-P7 were constructed, erection times were normal, erection rate was normal when T1<10s, and erection status was normal when 10min-T2-P40min;
wherein, in step S2, the following steps are further included:
step S201: obtaining time T1, wherein the time T1 is the time from the time when the electrode of the detection device starts to be conducted and outputs a signal to the time when the detection device keeps outputting a stable signal in the step S1;
step S202: obtaining time T2, wherein the time T2 is the duration of the output stable signal of the detection device, namely the time for keeping the erection state;
step S203: within a preset time, when two opposite electrodes of the detection device are sequentially conducted from bottom to top, returning to the step 1, recording the number of times of 1-time erection, and carrying out the next step after the preset time is over;
step S204: the number of puffs N is obtained, where N is the number of puffs accumulated in step S203.
2. The erection detection method according to claim 1, wherein said step S1 further comprises:
step S101: the detection device is provided with electrodes which are sequentially connected in parallel from bottom to top and are kept normally open, when the electrodes which are connected in parallel and are kept normally open are sequentially conducted from bottom to top, the male starts to erect, the electrodes which are connected in parallel are increased, the total resistance is reduced, when the resistance on the detection device is sequentially reduced in a linear mode, the male normally erect, the next step is carried out, when the resistance on the detection device is not changed in a sequentially reduced linear mode, the detection device misdetects signals, and the detection device stops detection.
3. An erection detection method according to claim 2, wherein in said step S101, according to the formula of the parallel resistance value calculation:
1/R Total =1/R1+1/R2+1/R3+. +1/Rn,
the detection device is provided with a plurality of conducted parallel electrodes, so that the output resistance signal is kept small, the erection length is large, the detection device is provided with a plurality of conducted parallel electrodes, the output resistance signal is kept large, and the erection length is small.
4. An erection detection method as claimed in claim 1, wherein said step S201 comprises:
step S2011: when the upper electrode of the detection device starts to be conducted and outputs a signal to the signal collection device, the timing module on the signal collection device is triggered to start timing, and when the detection device keeps outputting a stable signal, the timing module finishes timing to obtain time T1.
5. An erection detection method as claimed in claim 1, wherein said step S202 comprises:
step S2021: when the detection device starts to keep outputting the stable signal to the signal collection device, the timing module starts timing, and when the stable signal kept outputting changes, the timing module finishes timing to obtain time T2.
6. Underpants, characterized in that the underpants comprises an erection testing method according to any one of claims 1-5, further comprising an underpants body (1), a testing device (2) disposed at the crotch of the underpants body (1) for testing male erection status, and a signal collecting device (3) electrically connected to the testing device (2) for receiving the testing signal of the testing device (2), wherein the testing device (2) comprises an interdigital electrode layer (4), and a conductive layer (5), when the conductive layer (5) is tightly attached and pressed against the interdigital electrode layer (4), the interdigital electrode layer (4) is tightly attached to the conductive layer (5) and two opposite electrodes are conducted.
7. An underpants according to claim 6, characterized in that the conductive layer (5) is a graphene pressure-sensitive fabric.
8. A pair of underpants according to claim 6, wherein the interdigital electrode layer (4) is provided with an elongated interdigital electrode (6), and a connection output terminal (7) for connecting the interdigital electrode (6) and the signal collection device (3).
9. A pair of underpants according to claim 8, wherein the width of the interdigital electrodes (6) is in the range of 1mm to 3mm, and the width of the connection output terminals (7) is in the range of 10mm to 20mm.
10. A pair of underpants according to claim 6, wherein the interdigital electrode layer (4) comprises a working electrode (41), and a counter electrode (42) disposed opposite to the working electrode (41), the working electrode (41) and the counter electrode (42) being spaced apart from each other.
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