CN210542083U - Intelligent paper diaper accommodated by air bag - Google Patents

Abstract

The utility model discloses an utilize intelligent panty-shape diapers that gasbag was accomodate among the articles for daily use technical field, wherein the panty-shape diapers body includes the dustcoat membrane, the electrode combination area, the gasbag subassembly is collected to the shit, a plurality of cotton core that absorbs water and the non-woven fabrics surface course that permeates water, the protruding dustcoat membrane that exposes in front of electrode combination area and the cover are worn in intelligent waistband, its rear end is collected the gasbag subassembly with the shit and is connected fixedly, during the uninflated state, the gasbag that the gasbag subassembly was collected to electrode combination area and shit is fold condition, in the cotton core that absorbs water, preceding water absorption core is located the upside in electrode combination area, back water absorption core, left side water absorption core and right water absorption core are located the rear side of gasbag lower extreme respectively, left side and right side. The utility model discloses a separation monitoring of shit and urine, the accuracy is high, and through accomodating the excrement of defecating and guaranteeing levelness in the panty-shape diapers, avoid human uncomfortable sense, its stool and urine monitoring that is applicable to child, adult pet even and accomodate, application scope is wider.

Description

Intelligent paper diaper accommodated by air bag

Technical Field

The utility model relates to the technical field of articles for daily use, specific theory relates to an utilize intelligent panty-shape diapers that gasbag was accomodate.

Background

The paper diaper is commonly called as physiological pants, diaper pants, urine isolation pants, diaper and pull-up pants, is a common daily article, is very popular in families, hospitals, nursing homes and the like, and is mainly used for children, women in the physiological period, the old and other people without self-care ability or pets and the like. Since the people in this category cannot treat the excrement and urine by themselves, other people are required to assist in the treatment. However, the guardian and the nursing staff cannot check the defecation condition of the wearing user in real time, and both of them roughly judge the excretion condition of the wearing user by touching the diaper according to personal experience and then replace the diaper. When guardians, nursing staff and the like are busy, the change of the paper diaper is easy to be ignored, and the skin of a user wearing the diaper is corroded by excrement and urine.

With the development of science and technology, some paper diapers capable of detecting excretion of a wearing user exist, detection information is reminded through mobile phone apps and the like, but the paper diapers of the types have many defects. For example: the paper diaper can only detect the urine condition of a wearing user, cannot separately detect the excrement and the urine of the wearing user, and cannot immediately alarm and remind when the excrement of the wearing user is; in addition, when the paper diaper is replaced, the scattered excrement distribution can cause discomfort such as nausea of nursing staff, so that the enthusiasm of the nursing staff for replacing the paper diaper cannot be improved, and the excrement collection effect of a wearer cannot be achieved through the conventional paper diaper.

The above-mentioned drawbacks are worth solving.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model provides an intelligent paper diaper which is stored by an air bag.

The utility model discloses technical scheme as follows:

an intelligent paper diaper stored by using an airbag is characterized by comprising a paper diaper body, an intelligent terminal, an intelligent waistband A and an intelligent waistband B, wherein the intelligent waistband A and the intelligent waistband B can be used interchangeably;

the panty-shape diapers body includes that dustcoat membrane, electrode combination area, shit collect gasbag subassembly, a plurality of cotton core of absorbing water and the non-woven fabrics surface course that permeates water:

the electrode combination belt is positioned between the outer cover film and the water-permeable non-woven fabric surface layer and comprises two excrement electrode wires, a urine electrode wire and a main air channel, the front end of the electrode combination belt is convexly exposed out of the outer cover film and is sleeved in the intelligent waistband A or the intelligent waistband B, the rear end of the electrode combination belt is fixedly connected with the excrement collecting air bag component, the front end of the main air channel is communicated with an air pump in the detection device, the rear end of the main air channel is communicated with an air bag in the excrement collecting air bag component, and when the electrode combination belt and the air bag are in a folded state when the electrode combination belt and the air bag are not inflated;

the cotton core that absorbs water includes preceding absorbent core, back absorbent core, left absorbent core and right absorbent core, preceding absorbent core is located the upside in electrode combination area, back absorbent core left absorbent core and right absorbent core is located respectively the rear side, the left side and the right side of gasbag lower extreme.

The utility model discloses according to the above-mentioned scheme, its characterized in that, the shit collects gasbag subassembly upper and lower surfaces and is equipped with the explosion-proof weaving layer of covering, and the upper and lower weaving layer and the gasbag film of each gasbag are all around along the reason with high frequency complex, the shit collects gasbag subassembly and includes gasbag and shit pocket, the gasbag is located the permeable nonwoven surface course and the downside of the preceding water absorption core; the air bag comprises a afterbody lifting air bag, a side supporting air bag, a traction air bag and a stool bag covering air bag, and the stool bag covering air bag is positioned on the lower side of the stool water absorption core body.

The rear body lifting air bag is communicated with the main air channel in the electrode combination belt and is communicated with the side supporting air bag through a second channel, and a first air valve is arranged at the second channel;

the side supporting air bag is communicated with the traction air bag through a third channel, and a second air valve is arranged at the third channel;

the traction air bag is communicated with the excrement bag covering air bags through a fourth channel, and a third air valve is arranged at the fourth channel.

When the rear body lifting air bag is not inflated, the rear body lifting air bag is flatly laid on the lower sides of the front water absorbing core body and the excrement pocket, the rear body lifting air bag is U-shaped, and a hollow excrement containing position is arranged in the middle of the rear body lifting air bag; when the side water absorption core body is not inflated, the side support air bag is turned downwards, one end of the turned side support air bag is fixedly connected with the electrode combination belt and is arranged between the electrode combination belt and the front water absorption core body.

When the excrement bag is not inflated, the front end of the traction air bag is folded backwards, and the folded front end of the traction air bag is fixedly connected with the middle position of the electrode combination belt below the excrement bag; when the air bag is inflated, the air pressure causes the front end of the traction air bag which is turned backwards to pull and drive the electrode combination belt to move forwards, and the electrode combination belt pulls and drives the excrement pocket to pass through a passage which is formed between the side support air bag, the rear body lifting air bag and the outer cover film and is contained at the lower side of the front water absorption core body.

When the excrement bag is not inflated, the excrement pocket covering air bag is folded outwards, the excrement water absorption covering core body and the excrement non-woven fabric covering surface layer are sandwiched between the excrement water absorption covering core body and the excrement non-woven fabric covering surface layer, and the excrement pocket covering air bag is flatly laid on the surface of the rear body lifting air bag; when the excrement storage bag is inflated, air pressure causes the excrement bag covering air bags on the two sides to be expanded and folded inwards, the excrement bag covering air bags drive the excrement water absorption covering core body and the excrement non-woven fabric covering surface layer to be folded inwards, and the excrement bag covering air bags are tiled on the excrement storage position in the middle of the rear body lifting air bags.

The upper electrode moisture-permeable protective film and the moisture-permeable air bag of the electrode combination belt are made of impervious, micro-breathable and moisture-permeable films, an air pump of the intelligent starting waistband is intelligently started to inflate through a main air channel, and odor, temperature and humidity in the diaper are intelligently adjusted.

The utility model discloses according to the scheme above, its characterized in that, the non-woven fabrics surface course that permeates water lays in the internal surface of panty-shape diapers body and directly contacts human skin department, the middle part in back of the non-woven fabrics surface course that permeates water is equipped with the shit pocket, the shit pocket with permeate water the non-woven fabrics surface course back middle part around through easily tearing the seam and connecting; when the air bag is inflated, the air pressure causes the air bag to swell, and the periphery of the excrement pocket is torn and separated from the rear middle part of the non-woven fabric surface layer by the easy-tearing seam.

According to above-mentioned scheme the utility model discloses, a serial communication port, electrode combination area still includes lower floor's electrode protection film and the moisture permeable protection film of upper electrode, urine electrode line shit electrode line and main air passage all is located lower floor's electrode protection film with the moisture permeable protection film of upper electrode between the protection film.

Furthermore, the upper electrode moisture-permeable protective film is provided with a stool sensing hole, and the lower electrode protective film and the upper electrode moisture-permeable protective film are provided with liquid drainage through holes which penetrate through the upper electrode protective film and the lower electrode protective film up and down.

According to above-mentioned scheme the utility model discloses, a serial communication port, the upside afterbody of shit electrode line is equipped with a plurality of dissoluble layers, and the front portion of its upside is equipped with shit upper insulation layer.

Through urine electrode line and excrement electrode line intercommunication urine liquid realization resistance change detect constitute first resistance detection return circuit, through left excrement electrode line, right excrement electrode line intercommunication excrement liquid realization resistance change detect constitute second resistance detection return circuit, through to above-mentioned first, resistance change condition (size and precedence) between the second resistance detection return circuit carry out the analysis, detection device in the intelligence waistband is through the data change that the analysis detected and realize that intelligence reminds the change function.

According to the above scheme the utility model discloses, its characterized in that, electrode combination area front end exposes the outside of panty-shape diapers body, passes in the detection device to the rolling cover is in on the rotation axis in the detection device.

Further, intelligence waistband A or intelligence waistband B includes left annular telescopic band and right annular telescopic band, left side annular telescopic band with cloth is equallyd divide to the inboard in right side annular telescopic band has a plurality of looks spaced magic subsides, the inside in left side annular telescopic band is equipped with left revolving spring, left telescopic line and left line and moves the sensor, the inside in right side annular telescopic band is equipped with right revolving spring, right telescopic line and right line and moves the sensor, and the sensor is moved to left line and right line and moves the sensor through the tensile length who detects the telescopic line, gathers the waist size data of wearing the user.

According to above-mentioned scheme the utility model discloses, a serial communication port, intelligence waistband A or detection device in the intelligence waistband B is including lifting lid, face lid and drain pan, the face lid with be equipped with the circuit board in the space that the drain pan encloses, the air pump is fixed on the drain pan, still be fixed with the motor on the drain pan, the output shaft and the motor gear connection of motor, the motor gear is connected with the rolling gear meshing, the rolling gear is connected with the rotation axis, the lower extreme of rotation axis with remove rotation axis cooperation and fixed, the rotation axis with remove synthetic a circle axle of rotation axis, the front end in electrode combination area is passed the rotation axis with remove between the rotation axis, just urine electrode line with shit electrode line pass through circular contact with the circuit board is connected.

Furthermore, the rotating shaft and the movable rotating shaft are fixed on a rolling support, the upper end of the rolling support is connected with an arched elastic piece, the middle part of the arched elastic piece is sleeved on a sliding groove piece, the sliding groove piece is connected with the lifting cover, and the upper end of the lifting cover is connected with the surface cover through a lifting cover shaft.

Furthermore, a battery and a battery cover are arranged on the circuit board.

According to the above scheme the utility model discloses, its characterized in that when dressing panty-shape diapers, intelligence waistband A or intelligence waistband B and closely intelligent waistband B or intelligence waistband A and mobile terminal wireless bluetooth are connected simultaneously, also can be earlier intelligent waistband A or intelligence waistband B and closely intelligent waistband B or intelligent waistband A wireless bluetooth connection, intelligence waistband B or intelligent waistband A and remote mobile terminal wireless WIFI signal connection after further receiving the signal.

According to the above scheme the utility model discloses, its beneficial effect lies in:

1. the utility model monitors the urine and the excrement of the wearing user respectively through the urine electrode wire and the excrement electrode wire, realizes the real-time monitoring of the urine and the excrement of the wearing user, and ensures the stability of signal transmission by the parallel distribution of the urine electrode wire and the excrement electrode wire; the utility model discloses can remind and change again after the urine many times, avoid panty-shape diapers's waste, through the separation monitoring to shit and urine, in time change panty-shape diapers when dressing the user and defecating simultaneously, avoid the corruption of corrosive substance to wearing user's skin in the shit.

2. The utility model can enable the accompanying person to more accurately monitor the urine humidity and the excrement in real time for the real-time service of the crowd wearing the intelligent paper diaper, avoid the situations that the urine humidity is not sensed and the excrement is not easy to be found, avoid the skin of a wearing user from being damaged, and enable the newborn baby and the adult incontinent person to express the corresponding intention as the common crowd; through the communication of the signal detection device, the intelligent robot and the intelligent terminal, the guardian can conveniently monitor the excrement and urine conditions of children, old people, pets and the like in real time, alarm reminding can be carried out through the intelligent robot, and people around the intelligent robot can conveniently and timely replace the paper diapers.

3. The utility model inflates the air bag through the detection device, thereby driving the excrement pocket to store, storing excrement of a wearing user, avoiding nursing staff from directly seeing the excrement of the wearing user, ensuring the privacy of the nursed staff, giving the nursing staff good perception, increasing the nursing enthusiasm, and ensuring that the whole storage process is smoother and faster; when the excrement pocket is stored, the detection device rotates the electrode combined belt to be stored, so that the flatness in the paper diaper is guaranteed, and the discomfort of a human body is avoided.

4. The utility model has the characteristics of accomodate convenient, compact structure and firm, and information warning is more timely, accurate, and its stool and urine monitoring that is applicable to child, adult and pet even and accomodate, application scope is wider.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of another view angle of the present invention.

Fig. 3 is a schematic structural view of the middle elastic extensible belt of the present invention.

Fig. 4 is an exploded view of the middle elastic extensible belt of the present invention.

Fig. 5 is an exploded view of the present invention.

Fig. 6 is an exploded view of the electrode assembly of the present invention.

Fig. 7 is an enlarged view of portion I of fig. 6.

Fig. 8 is an exploded view of the stool collection bag assembly of the present invention.

Fig. 9 is a schematic structural view of the middle airbag before inflation.

Fig. 10 is a schematic structural view of the airbag according to the present invention after being inflated.

Fig. 11 is a cross-sectional view of the airbag according to the present invention after inflation.

Fig. 12 is a schematic view of the middle air bag of the utility model connecting with the stool bag after being inflated.

Fig. 13 is a schematic view of the air bag of the present invention connecting with another view angle of the stool bag after being inflated.

Fig. 14 is a schematic structural diagram of the detecting device of the present invention.

Fig. 15 is a schematic view of another view angle of the detecting device of the present invention.

Fig. 16 is a schematic view of the detecting device of the present invention after removing the cover and the cover.

Fig. 17 is an exploded view of the detecting device of the present invention.

In the figure, 100, a diaper body; 111. a water-permeable non-woven fabric facing; 1111. a stool receiving port; 112. an outer cover film; 113a, a left guard band; 113b, a right guard band; 120. an electrode assembly tape; 121. a lower electrode protective film; 122. a main gas passage; 123. a urinary electrode line; 124. a lower fecal insulation layer; 124a, left lower stool insulation; 124b, right lower stool insulation; 125. an excrement electrode wire; 125a, left stool electrode wire; 125b, right stool electrode wire; 126. an insulating layer is arranged on the excrement; 126a, left stool upper insulating layer; 126b, a right stool upper insulating layer; 127. a dissolvable layer; 128. the upper electrode moisture permeable protective film; 1281. a stool sensing hole; 1282. a liquid discharge through hole; 130. a stool collection bladder assembly; 131. an air bag; 1310. a stool storage position; 1311. a posterior lift balloon; 1312. a side support airbag; 1313. a traction airbag; 1314. the first excrement pocket covers the air bag; 1315. the second excrement pocket covers the air bag; 1316. the third stool pocket covers the air bag; 1317. a second channel; 1318. a third channel; 1319. a fourth channel; 132a, a left excrement water absorption covering core body; 132b, a right stool water absorption covering core body; 133a, covering the surface layer with a left excrement non-woven fabric; 133b, covering a surface layer with right stool non-woven fabric; 141. a water-permeable excrement non-woven fabric surface layer; 142. easy tearing; 151. a front absorbent core; 152. a stool water-absorbing core body; 153. a rear water absorbent core; 154. a left absorbent core; 155. a right water absorbent core; 160. fitting parts;

200. a detection device; 201. lifting the cover; 202. a face cover; 203. a bottom case; 210. a circuit board; 211. a battery and a battery cover; 212. an air pump; 213. a circular contact; 220. a cover lifting shaft; 231. a chute member; 232. an arcuate resilient member; 241. a rolling support; 242. a rotating shaft; 243. moving the rotating shaft; 251. a rolling gear; 252. a motor gear; 253. a motor;

300. an elastic stretchable band; 301. magic tape; 302. a left annular expansion band; 303. a right annular expansion band; 304. a left extension cord; 305. a right extension cord; 306. a right-turn spring.

Detailed Description

The invention is further described with reference to the following figures and embodiments:

as shown in fig. 1 and 2, an intelligent paper diaper accommodated by an airbag comprises a paper diaper body 100, an intelligent telescopic waistband A, an intelligent telescopic waistband B and an intelligent terminal (including a smart phone, an intelligent bracelet, an intelligent monitor and the like), wherein the intelligent waistband A and the intelligent waistband B are in wireless connection with the intelligent terminal, the intelligent waistband A and the intelligent waistband B are fixed by the auxiliary paper diaper body 100 of an elastic telescopic belt 300, the stable wearing of the intelligent paper diaper is ensured, and the intelligent paper diaper is prevented from falling off.

The diaper body 100 is formed by combining an outer cover film 112, a water-permeable non-woven fabric surface layer 111, a plurality of absorbent cotton core bodies, absorbent beads and the like, and has good foldability and adhesiveness.

The outer cover film 112 is a soft and comfortable waterproof film for preventing urine leakage in the absorbent layer, and generally adopts a soft and nontoxic polyethylene plastic film (PE) as the waterproof film, some of which can also be breathable (referred to as breathable films), and such a film that is both waterproof and breathable is generally used for baby diapers. The outer cover film 112 is added with a layer of woven cloth to become the recyclable physiological pants, diaper pants and diaper-isolating pants.

The water-permeable non-woven fabric surface layer 111 is made of non-woven fabric, hydrophobic fibers and other hydrophobic materials, and the surface of the water-permeable non-woven fabric surface layer is smooth and flat, so that stimulation to the skin of a user is reduced.

The absorbent cotton core bodies are made of any one or any combination of absorbent substances such as hydrophilic wood pulp, paper, cotton pulp, fluffy cloth hydrophilic fiber, polymer absorbent polymer (SAP) and the like, and are fine water storage spaces formed by specific flexible materials and mainly used for absorbing urine (urine) and excrement (excrement) excreted by human bodies.

As shown in fig. 3 and 4, elastic stretchable belts 300 are respectively arranged in the intelligent waistband a and the intelligent waistband B, each elastic stretchable belt 300 comprises a left annular stretchable belt 302 and a right annular stretchable belt 303 which are bilaterally symmetrical, a plurality of magic tapes 301 which are spaced from each other are uniformly distributed on the inner sides of the left annular stretchable belt 302 and the right annular stretchable belt 303, a left rotary spring, a left telescopic wire 304 and a left wire movement sensor (not shown) are arranged inside the left annular stretchable belt 302, a right rotary spring 306, a right telescopic wire 305 and a right wire movement sensor (not shown) are arranged inside the right annular stretchable belt 303, one end of the right telescopic wire 305 is connected with the right rotary spring 306, and the other end of the right telescopic wire 305 is fixed on the outer side of the right annular stretchable belt 303.

The both ends of left annular telescopic band 302 and right annular telescopic band 303 are worn at dress user's waist through magic subsides 301 respectively, and left line moves the sensor and passes through the tensile length that detects left revolving spring and left telescopic line 304, and right line moves the sensor and passes through the tensile length that detects right revolving spring 306 and right telescopic line 305, and the line moves sensor detection device about this moment and obtains dress user's waist size data through the data change that the analysis detected, reminds the intelligent panty-shape diapers of selecting suitable size.

As shown in fig. 5 to 13, the diaper body 100 includes an outer cover film 112, an electrode assembly tape 120, a stool-collecting air bag module 130, a plurality of absorbent cotton cores, and a water-permeable nonwoven fabric cover 111.

As shown in fig. 5, the electrode assembly belt 120 and the stool collection air bag module 130 are located between the outer cover film 112 and the water permeable non-woven fabric surface layer 111, the stool collection air bag module 130 includes an air bag 131, a stool water absorbent core 152, a stool water permeable non-woven fabric surface layer 141, a stool water absorbent covering core, and a stool non-woven fabric covering surface layer, and upper and lower surfaces of the stool collection air bag module 130 are covered with upper and lower woven protective layers.

In the uninflated state, the airbag 131 is in a folded state. The rear end of the airbag 131 is communicated with the rear end of the main air channel 122, the front end of the main air channel 122 is communicated with an air pump 212 in the detection device 200 of the retractable intelligent waistband A or the intelligent waistband B, and the air pump 212 inflates the airbag 131 through the main air channel 122, so that the airbag is changed from a flat state to a support state. The excrement water absorption core body 152 is positioned at the upper side of the air bag 131, the excrement water-permeable non-woven fabric surface layer 141 is paved at the upper side of the excrement water absorption core body 152, the excrement water absorption core body 152 and the excrement water-permeable non-woven fabric surface layer 141 are combined to form a storage excrement pocket, and the excrement pocket is fixedly connected with the electrode combined belt 120.

The absorbent cotton core body comprises a front absorbent core body 151, a rear absorbent core body 153, a left absorbent core body 154 and a right absorbent core body 155, wherein: the front absorbent core 151 is positioned on the upper side of the electrode assembly belt 120, and the rear absorbent core 153, the left absorbent core 154 and the right absorbent core 155 are positioned on the rear side, the left side and the right side of the lower end of the air bag 131, respectively. A water-permeable non-woven fabric surface layer 111 is laid on the upper side of the front water-absorbing core 151, and a hollow excrement storage opening 1111 is arranged in the middle of the rear part of the water-permeable non-woven fabric surface layer 111. When the air bag 131 is not inflated, the excrement receiving port 1111 is connected with the periphery of the excrement non-woven fabric surface layer 141 through the easy-to-tear seams 142; when the air bag is inflated, the air bag 131 is inflated by air pressure, and the excrement water-permeable non-woven fabric surface layer 141 and the easy tearing seams 142 around the excrement storage opening 1111 are torn and separated.

In this embodiment, a joint member 160 is provided on the upper side of the feces water permeable nonwoven fabric surface layer 141, and the joint member 160 fixes the feces water absorbent core 152 and the feces water permeable nonwoven fabric surface layer 141 to the electrode assembly belt 120. The fitting member 160 is more firmly fixed to the stool pocket and the electrode assembly band 120 during the manufacturing process and when worn by a wearer. Preferably, the lower side of the fitting member 160 is fixedly (preferably, ironedly) connected to the electrode assembly band 120 through a stool pocket through hole formed in the stool pocket, and the fitting member 160 makes the middle position of the stool pocket more firmly connected to the rear end electrode assembly band 120.

Preferably, the left and right sides of the surface of the water-permeable non-woven fabric layer are respectively fixed with a left protective belt 113a and a right protective belt 113b, and the left protective belt 113a and the right protective belt 113b are provided with elastic threads, so that the side leakage of excrement of a wearing user is avoided.

As shown in fig. 5 and 6, a water blocking tape is disposed on the inner side of the front end of the outer cover film 112, the front end of the electrode assembly tape 120 penetrates through the space between the outer cover film 112 and the water blocking tape and is sleeved in the detection device 200, and the detection device 200 monitors the defecation condition in the diaper body 100 in real time through the electrode assembly tape 120. The water-blocking tape is provided with a rubber blade, and the rubber blade of the water-blocking tape wipes the moisture on the electrode combined tape 120, so that the moisture on the electrode combined tape 120 is prevented from flowing out, the corrosion of the moisture on a circuit in the detection device 200 can be avoided, and the discomfort brought to nursing staff by the exposed moisture can be avoided.

The electrode assembly belt 120 includes an upper electrode moisture-permeable protective film 128, a lower electrode protective film 121, two stool electrode wires 125 (including a left stool electrode wire 125a and a right stool electrode wire 125 b), a urine electrode wire 123, and a main air channel 122, and the urine electrode wire 123 and the main air channel 122 are located between the two stool electrode wires. The urine electrode wire 123 and the feces electrode wire 125 are printed or attached on the lower electrode protection film 121.

Urine electrode line 123 and excrement electrode line are flexible conducting material, and the conductive ink response line that the conductive ink printing that flexible electrode line adopted high resistance value to form or wire, foil pass through (including the silver thick liquid of printing, the film strip conducting material of other flexible metals of copper and aluminium matter or conducting material such as flexible synthetic conductive film area, also can be conducting material such as conductive cotton line area), and production technology is simple, and has saved corresponding wiring cost.

As shown in fig. 7, an excrement sensing hole 1281 is formed in the upper electrode moisture-permeable protective film 128, and the position of the excrement sensing hole 1281 corresponds to the position of the excrement electrode wire; and liquid discharge through holes 1282 which penetrate through the lower electrode protection film 121 and the upper electrode moisture permeable protection film 128 from top to bottom are formed in the lower electrode protection film and the upper electrode moisture permeable protection film, and the liquid discharge through holes 1282 are spaced from and correspond to the excrement electrode wire and the excrement sensing holes 1281.

The upper electrode moisture permeable protective film 128 is made of a water-proof, moisture permeable, and air permeable flexible film material, in this embodiment, a waterproof, air impermeable, and moisture permeable flexible PUC or TPU film material. The TPU is a thermoplastic polyurethane elastomer which is called as a short name of thermoplastic urethane elastomer and is a high polymer material formed by the joint reaction and polymerization of diphenylmethane diisocyanate (MDI), Toluene Diisocyanate (TDI), macromolecular polyol and a chain extender. The molecular structure of the moisture permeable membrane is formed by alternately forming a rigid block obtained by reacting diphenylmethane diisocyanate (MDI), toluene diisocyanate (TDI and a chain extender) and a flexible chain segment obtained by reacting diphenylmethane diisocyanate (MDI), Toluene Diisocyanate (TDI) and macromolecular polyol.

The lower electrode protection film 121 is made of a flexible waterproof, airtight, and moisture-proof film, and may be made of a flexible waterproof, airtight, and moisture-proof film.

The principle of realizing the urine volume reminding function by detecting the non-polarity variable electrolytic capacitor is as follows: urine monitoring is realized by communicating the urine electrode line 123 with the left excrement electrode line 125a and/or the right excrement electrode line 125b on both sides, and the space is saved and mutual interference of signals is not caused by the side-by-side distribution. The liquid water in the urine electrode wire 123, the left excrement electrode wire 125a and/or the right excrement electrode wire 125b, the cover film 112 and the absorbent cotton core form a non-polarity variable electrolytic capacitor. Wherein, the urine electrode line 123 and the left excrement electrode line 125a and/or the right excrement electrode line 125b are used as two electrodes of the variable electrolytic capacitor; an upper electrode moisture-permeable protective film 128 as a dielectric of the variable electrolytic capacitor; the water in the front water absorbing core 151 and the rear water absorbing core 153 is used as the liquid electrolyte of the variable electrolytic capacitor; the capacitance values of water in the front water absorbing core 151 and the rear water absorbing core 153 are obtained by conducting the urine electrode wire 123 and the left excrement electrode wire 125a and/or the right excrement electrode wire 125B with a detection module of the intelligent waistband A or the intelligent waistband B, a first resistance detection loop for capacitance detection of the function of quantifying the urine wetness detection is formed, the larger the wet area of the water absorbing core is, the larger the capacitance value is, thereby realizing the wetness detection of the absorbing layer, and further the electronic sensing moisture detects the wetness condition of the front water absorbing core 151 and the rear water absorbing core 153, the periodic charging and discharging operation is carried out on the urine electrode wire 123 arranged on the paper diaper by the charging and discharging unit, the voltage peak value data (or capacitance value data) related to the variable capacitance value of the paper diaper is detected, the detected resistance change is conducted with the detection module of the detection device 200 and a curve reflecting the wetness state of the paper diaper is formed, the curve contains various information for discrimination, such as whether urine wet occurs, how long urine is discharged, how many times urine is wet, how much the maximum urine wet degree is, whether dryness is recovered, and the like. The water locking beads in the front water absorbing core body 151 and the rear water absorbing core body 153 absorb a large amount of urine, such as preset setting time of a control system, preset urine discharge time, preset urine wetting for several times, maximum urine wetting degree, preset dryness recovery degree and the like, and once one exceeds a preset value, the paper diaper is immediately reminded to be replaced, so that the skin of a user wearing the diaper is prevented from being corroded by substances in urine moisture. At the moment, the detection module of the detection device in the intelligent waistband A or the intelligent waistband B realizes the replacement reminding function by analyzing the detected resistance change data change.

The principle of realizing the excrement reminding function by detecting the non-polarity variable electrolytic capacitor is as follows: excrement monitoring is realized through the left excrement electrode wire 125a and the right excrement electrode wire 125b respectively, and the space is saved and mutual interference of signals cannot be caused due to the side-by-side distribution. The left excrement electrode wire 125a, the right excrement electrode wire 125b, excrement of the wearing user and water in the excrement water absorption core body 152 form a non-polarity variable electrolytic capacitor. Wherein, the left stool electrode wire 125a and the right stool electrode wire 125b are used as two electrodes of the variable electrolytic capacitor; the rear end of the upper electrode moisture-permeable protective film 128 serves as a dielectric of the variable electrolytic capacitor; the excrement of the wearer and the water in the excrement absorbent core 152 are used as the liquid electrolyte of the variable electrolytic capacitor; the capacitance value of the excrement of a wearing user and the water in the excrement water absorption core body 152 is obtained through the resistance change of the conduction of the front ends of the left excrement electrode wire 125a and the right excrement electrode wire 125B and the detection module of the detection device 200 in the intelligent waistband A or the intelligent waistband B, a second resistance detection loop of capacitance detection of the excrement quantification detection function is formed, then the excrement of the wearing user and the moisture condition of the excrement water absorption core body 152 are detected through electronic moisture sensing, the times of the liquid quantity of the excrement remained in the excrement pocket are monitored, the excrement arranged on the paper diaper is subjected to periodic charging and discharging operation through a charging and discharging unit, voltage peak value data (or capacitance value data) related to the variable capacitance value of the paper diaper are detected, the detected resistance change is conducted with the detection module of the detection device 200, and a curve reflecting the moisture state of the excrement pocket of the paper diaper is formed, the curve contains various information for discrimination, and the paper diaper needs to be replaced immediately once the excrement is discriminated to be reminded of exceeding a preset value for a time, exceeding the preset value for a plurality of times, exceeding a preset value degree and the like, so that the skin of a user wearing the diaper is prevented from being corroded by substances in water. At this time, the detection device 200 in the intelligent waistband a or the intelligent waistband B realizes the replacement reminding function by analyzing the detected data change.

Urine detection is realized through urine electrode line 123 and the left excrement electrode line 125a or the right excrement electrode line 125b intercommunication of both sides and constitutes first resistance detection return circuit, because the effect urine of receiving gravity is gathered downwards, and the resistance value that the liquid in preceding absorbent core 151, the back absorbent core 153 made first resistance detection return circuit reduces.

The second resistance detection circuit is realized through the left excrement electrode wire 125a and the right excrement electrode wire 125b, and the surface humidity detection of the excrement water absorption core body 152 can be realized. The water content in the feces absorbent core 152 and the liquid content in the semi-solid moist feces are greater (urination + defecation) so that the resistance value of the second resistance detection circuit is reduced.

The resistance of the first resistance detection loop is firstly reduced, then the resistance of the second resistance detection loop is reduced, a rule of change in sequence is provided, and the occurrence of excrement and urine in the diaper can be effectively analyzed and judged by analyzing the resistance change time sequence and the moisture position condition (size and sequence) between the first resistance detection loop and the second resistance detection loop. At this time, the detection device 200 in the intelligent waistband a or the intelligent waistband B analyzes the detected data change and realizes the intelligent reminding replacement function.

An upper excrement insulating layer 126 (comprising a left upper excrement insulating layer 126a and a right upper excrement insulating layer 126 b) is arranged at the front part of the upper side of the excrement electrode wire, the upper excrement insulating layer 126 is made of waterproof, airtight, moisture-proof and non-conductive printing paint, and a lower excrement insulating layer 124 (comprising a left lower excrement insulating layer 124a and a right lower excrement insulating layer 124 b) is arranged at the lower side of the excrement electrode wire. The lower electrode protection film 121 is a soft PVC or TPU film which is impermeable to water and moisture and airtight, and the printed lower stool insulation layer 124 is not needed; when the lower electrode protection film 121 is made of a flexible film material which is impermeable to water and air but is permeable to moisture, a printed lower stool insulation layer 124 is used.

Preferably, the upper front portions of the left excrement electrode wire 125a and the right excrement electrode wire 125b are printed and coated by using an excrement upper insulating layer 126 (comprising the left excrement upper insulating layer 126a and the right excrement upper insulating layer 126 b), the excrement electrode wires below the excrement pocket and the rest rear portions are not printed and coated, and the left excrement electrode wire 125a and the right excrement electrode wire 125b below the excrement pocket and at the moment, the upper rear portions have a monitoring function; the influence of the large-area urine and excrement permeation in the front water absorbent core 151 and the rear water absorbent core 153 on the detection accuracy of the excrement electrode wire below the rear end of the upper electrode moisture-permeable protective film 128 is avoided. The upside of the excrement electrode line below the excrement pocket of wearing user excrement excretory opening position is equipped with a plurality of dissolvable layers 127, and dissolvable layer 127 corresponds with excrement response hole 1281's position, and excrement response hole 1281 can have about a plurality of side by side, and dissolvable layer 127 has about side by side multistage, sets up respectively in the top that two excrement electrode lines correspond.

The dissolvable layer 127 is a mixture of various collagen and cellulose polymers or synthetic acrylic polymers, the collagen is mainly composed of polypeptide molecules with the same amino acid composition and wide molecular weight distribution, is essentially insoluble in cold water and is limitedly dissolvable in hot water (the dissolvable layer 127 must be heated to more than 60 ℃ to be dissolved in hot water to be in the form of an aqueous solution), and the polymers contain ionizable carboxyl groups and can be disintegrated or rapidly dissolved in an alkaline environment in excrement. Specifically, when the solid excrement part is stuck to the excrement sensing hole 1281 on the left and right sides, the dissolvable layer 127 below the corresponding excrement sensing hole 1281 reacts quickly with excrement and dissolves the excrement, the semi-solid excrement part directly contacts the corresponding left excrement electrode wire 125a below the excrement sensing hole 1281, and the semi-solid excrement part directly contacts the corresponding right excrement electrode wire 125b below the excrement sensing hole 1281, so that the left excrement electrode wire 125a and the right excrement electrode wire 125b are exposed, and meanwhile, the solid excrement part serves as a conductive body. At this time, the detection device 200 in the intelligent waistband a or the intelligent waistband B analyzes the data change detected between the left stool electrode wire 125a and the right stool electrode wire 125B and realizes the intelligent reminding replacement function.

When excrement containing electrolyte liquid is injected from the middle position of the upper surface of the excrement permeable non-woven fabric surface layer 141, corrosive substances in human excrement are quickly dissolved, the more the left and right side-by-side dissolvable layers 127 which are correspondingly arranged below the excrement sensing holes 1281 which are arranged side by side are preset, the more the left excrement electrode wire 125a and the right excrement electrode wire 125b are exposed side by side, the stronger the resistance conduction short circuit sensing between the left excrement electrode wire 125a and the right excrement electrode wire 125b is, the more the solid excrement part of excrement can be detected, the more times of excrement of a wearer are realized, the accumulated excrement quantity reaches a preset value, and then the change is reminded, so that the real-time monitoring and reminding of the excrement quantity, the excrement frequency and the excrement state of the wearer are realized. Finally, the detection device 200 in the intelligent waistband A or the intelligent waistband B realizes the reminding function by analyzing the detected data change, and intelligently reminds that the diaper pants need to be replaced immediately when excrement exists through the wireless connection intelligent terminal by means of language and information.

As shown in fig. 5, 8 to 13, the material of the air bag 131 is preferably a waterproof, air-proof, moisture-proof, PVC or TPU soft elastic film material, and the upper and lower surfaces of the air bag 131 are covered with an upper woven protection layer (not shown) and a lower woven protection layer (not shown) of an explosion-proof woven material or a tear-resistant non-woven fabric.

The detailed structure of the airbag 131 is: the lowest layer is provided with a lower woven protective layer, the second layer is provided with a waterproof, moisture-proof and airtight film material, the third layer is provided with a waterproof, moisture-proof and airtight film material, the uppermost layer is provided with an upper woven protective layer, and the lower woven protective layer is formed by utilizing high frequency and proper temperature to be coated according to a set size. The protruding points of the lower woven protective layer of the air bag 131 are fixedly connected with the outer cover film 112. Or the waterproof and micro-breathable film material can be selected, and when the air pump of the intelligent waistband A or the intelligent waistband B is inflated through the main air channel 122, the air pump can ventilate upwards through the micro-breathable and moisture-permeable film material, so that the air in the diaper can circulate, and the temperature in the diaper can be intelligently adjusted.

The air bag 131 includes a rear body raising air bag 1311, a side support air bag 1312, a traction air bag 1313, and a plurality of stool pocket covering air bags (this embodiment includes a first stool pocket covering air bag 1314, a second stool pocket covering air bag 1315, and a third stool pocket covering air bag 1316). A left excrement water-absorbing covering core body 132a and a right excrement water-absorbing covering core body 132b are laid on the lower side of the excrement pocket covering air bag, a left excrement non-woven fabric covering surface layer 133a is laid on the lower side of the left excrement water-absorbing covering core body 132a, and a right excrement non-woven fabric covering surface layer 133b is laid on the lower side of the right excrement water-absorbing covering core body 132 b. After the excrement pocket covering air bag is supported, the left excrement water absorbing covering core body 132a, the right excrement water absorbing covering core body 132b, the left excrement non-woven fabric covering surface layer 133a and the right excrement non-woven fabric covering surface layer 133b are turned upwards and tiled at the original position of the excrement pocket, and the skin of a human body is isolated from being in direct contact with the electrode induction belt 120.

All the air bag units are sequentially connected in a sealing way: the rear body raising bladder 1311 communicates with the primary air path 122 in the electrode assembly strip 120 through a first path; side support airbag 1312 is located on the front side of the U-shape of rear body raising airbag 1311, and side support airbag 1312 communicates with rear body raising airbag 1311 through second passage 1317, and first air valve is provided at second passage 1317; the traction airbag 1313 is positioned on the inner side of the side support airbag 1312, the traction airbag 1313 is communicated with the side support airbag 1312 through a third channel 1318, and a second air valve is arranged at the third channel 1318; the stool pocket covering air bags are positioned at the lower side of the stool water absorption core body 152, and are communicated with the traction air bag 1313 through a fourth channel 1319, and a third air valve is arranged at the fourth channel 1319.

In this embodiment, the first air valve, the second air valve and the third air valve are all one-way valves. During inflation of air pump 212 through main air passage 122: the back body rising air bag 1311 is filled with air through the first channel, and after the back body rising air bag 1311 is supported, the one-way valve at the front end of the second channel 1317 is opened to inflate the side support air bag 1312; after the side supporting air bag 1312 is filled with air, the side supporting air bag 1312 is supported upwards, the one-way valve at the front end of the third channel 1318 is opened, and the traction air bag 1313 is inflated; after the traction air bag 1313 is filled with air, the traction air bag 1313 props up and the folded part extends forwards, and at the moment, the part of the excrement pocket is driven to move forwards and is collected between the front water absorption core body 151 and the excrement cover; and finally, the respective stool pocket covering air bags are inflated through the fourth passage 1319 in sequence.

The state changes before and after inflation of the respective airbag units are as follows:

(1) when the back body rising air bag is not inflated, the back body rising air bag 1311 is flatly laid at the lower sides of the front water absorbent core body 151 and the back water absorbent core body, the back body rising air bag 1311 is U-shaped, and a hollow excrement containing position 1310 is arranged in the middle of the back body rising air bag; when the air pump 212 is inflated through the main air passage 122, the air pressure causes the rear body rising air bag 1311 to swell, so as to raise the buttocks of the human body, and the human body excrement and the excrement pocket 1 fall into the excrement receiving position 1310 together;

(2) when the water-absorbing member is not inflated, the side supporting air bags 1312 are folded downward, and the folded inner ends of the left and right side supporting air bags 1312 are fixedly connected to the electrode assembly belt 120 and are disposed below the front water-absorbing core 151 and above the electrode assembly belt 120; when the air bag is inflated, the air pressure causes the side supporting air bag 1312 to swell and expand towards the left and right sides, and then the left and right sides of the side supporting air bag 1312 expand to form a passage for excrement pocket with the front water absorbent core 151 and the outer cover film 112;

(3) when the excrement bag is not inflated, the front ends of the left and right traction airbags 1313 are folded backwards, one end of the inner side of the folded traction airbag 1313 is fixedly connected with the middle part of the electrode combined belt 120 below the excrement bag and is arranged on the lower side of the front water absorbent core body 151, and the other end of the electrode combined belt 120 is fixed on the outer cover film 112; when the air pump is inflated, firstly, the air pressure causes the side supporting air bag 1312 and the traction air bag 1313 to swell, the water-permeable non-woven fabric surface layer 111 and the front water absorbent core 151 to rise upwards, the electrode combination belt 120 and the outer cover film 112 swell downwards, the electrode combination belt 120 drives the easy tearing seam 143 of the excrement pocket to tear and separate, secondly, the air pressure causes the traction air bag 1313 to swell and turn backwards, the front end of the traction air bag is turned to be not turned over and pulls the fixedly connected electrode combination belt 120 forwards to move forwards, the electrode combination belt 120 which moves forwards drives the fixedly connected excrement pocket, and the excrement pocket opens through the left side and the right side of the side supporting air bag 1312, forms a passage of the excrement pocket with the front water absorbent core 151 and the outer cover film 112 and is accommodated at the lower side of the front water absorbent core 151;

(4) when the air bag is not inflated, the excrement pocket covering air bag is folded outwards, the excrement water absorption covering core body and the excrement non-woven fabric covering surface layer are clamped in the excrement pocket covering air bag, and the excrement pocket covering air bag is flatly laid on the surface of the rear body lifting air bag 1311; when the air is inflated, the excrement covering air bags on the two sides are expanded and folded inwards by air pressure, and the excrement covering air bags drive the excrement water absorption covering core body and the excrement non-woven fabric covering surface layer to be folded inwards and spread on the excrement containing position 1310 in the middle of the rear body lifting air bag 1311;

(5) when the air bag is not inflated, the excrement storage port 1111 is connected with the periphery of the excrement non-woven fabric surface layer 141 through the easy-to-tear seams 142; when the air bag is inflated, the air bag is inflated by air pressure, and the excrement water-permeable non-woven fabric surface layer 141 and the easy tearing seams 142 around the excrement storage opening 1111 are torn and separated.

As shown in fig. 14 to 17, the detection apparatus 200 for an intelligent waistband a or an intelligent waistband B includes a flip cover 201, a face cover 202, a combined tape reel mechanism and a bottom case 203, a circuit board 210 is disposed in a space enclosed by the face cover 202 and the bottom case 203, and an air pump 212 is fixed on the bottom case 203 and is in sealed communication with the main air passage 122 on the electrode combined tape 120. Circuit board 210 has intelligent data acquisition, response detection and signal transmission function: it sends to intelligent robot or intelligent terminal through detection device 200's signal transmission function to the nursing staff carries out the monitoring of stool and urine and the change of intelligent panty-shape diapers.

A rotating shaft 242 and a moving rotating shaft 243 are arranged at adjacent positions on one side of the circuit board 210, the rotating shaft 242 and the moving rotating shaft 243 are combined into a circular shaft and fixed on the rolling support 241, the upper end of the rolling support 241 is connected with the arched elastic piece 232, the middle part of the arched elastic piece 232 is sleeved on the sliding groove piece 231, the sliding groove piece 231 is connected with the flip cover 201, and the upper end of the flip cover 201 is connected with the face cover 202 through the flip cover shaft 220. In the process of opening the cover 201, the rolling support 241 is pulled by the bow-shaped elastic member 232, and the moving rotating shaft 243 is driven to move and is clamped with the rotating shaft 242, at this time, the electrode assembly belt 120 is fixed between the moving rotating shaft 243 and the rolling shaft, and the electrode assembly belt 120 is fixed. In the fixed electrode assembly belt 120, the urine electrode wire 123 and the feces electrode wire are connected to the circuit board 210 through the circular contact member 213.

Preferably, the circular contact member 213 is connected to the circuit board 210 through a contact shaft, and the cross section of the circular contact member 213 is circular, so that the electrode assembly belt 120 can be conveniently communicated with the circuit board 210 in real time during the rotating and accommodating process.

A motor 253 is further fixed on the bottom case 203 of the detection device 200, an output shaft of the motor 253 is connected with a motor gear 252, the motor gear 252 is meshed with a rolling gear 251, the rolling gear 251 is connected with a rotating shaft 242, and the lower end of the rotating shaft 242 is matched and fixed with a movable rotating shaft 243. The bottom chassis 203 is provided with a main body middle groove through which the front end of the electrode assembly belt 120 passes and is fixed between the rotation shaft 242 and the moving rotation shaft 243. After the motor 253 rotates, the rotating shaft 242 is driven to rotate through the motor gear 252 and the rolling gear 251 in sequence, and then the electrode combination belt 120 is wound on the rolling shaft and moves, so that the electrode combination belt 120 is stored.

Preferably, the circuit board 210 is further provided with a battery and a battery cover 211, and the battery cover 211 supply power to the circuit board 210 and the electrical equipment above the circuit board.

The detection device 200 is realized by the following principle: remind and the in-process of accomodating when detection device 200 detects the dress user stool and urine: the circular contact 213 in the detection device 200 is in contact with the fecal and urinary electrode wires 123; when the user wears the device to relieve the bowels, the circuit board 210 is in contact with the defecation electrode wire and the urination electrode wire 123 through the circular contact piece 213 to form a loop, and the detection circuit in the circuit board 210 detects the defecation information of the user.

When the moisture of the diaper body 100 exceeds a predetermined value and the excrement amount exceeds the predetermined value, the detection device 200 detects the information of the excrement of the wearing user, the control circuit on the circuit board 210 controls the motor 253 to rotate, and the electrode gear and the rolling gear 251 are sequentially driven to rotate, so that the electrode combination belt 120 is driven to be accommodated; the rear end of the electrode assembly belt 120 drives the feces pocket to be accommodated in the cavity between the front absorbent core 151 and the outer cover 112.

During wear of the detection device 200: the front end of the electrode combination belt 120 penetrates out of the space between the movable rotating shaft 243 and the rotating shaft 242, the cover 201 is pressed in to enable the electrode combination belt to rotate along the surface cover 202, the cover 201 drives the arch-shaped elastic part 232 to move downwards, and then drives the movable rotating shaft 243 to move, so that the movable rotating shaft 243 and the rotating shaft 242 simultaneously press the front end of the electrode combination belt 120, fine teeth are arranged on the surface of the circular contact part 213, and the electrode wires in the side-by-side fine tooth probing electrode combination belt 120 are contacted, so that the circuit conduction is realized.

During the disassembly of the detection device 200: the lifting cover 201 is buckled to rotate around the surface cover 202; then, the cover 201 drives the movable rotating shaft 243 to move through the arc-shaped elastic member 232, so that the movable rotating shaft 243 is separated from the rotating shaft 242, and further the electrode assembly belt 120 is separated from the space between the movable rotating shaft 243 and the rotating shaft 242, thereby realizing the disassembling process of the detection apparatus 200.

The intelligent waistband A and the intelligent waistband B are respectively provided with a detection device 200, an air pump 212, a temperature sensor, a signal transmitting function, a wireless Bluetooth output and receiving module, a wireless WIFI output and receiving module, a mobile monitoring module, a groveling and sleep apnea preventing reminding module, a falling bed preventing module, an alarm device and a sound reminding module; traffic lights and a display screen are arranged on the surface shell of the alarm device. The sound reminding device is provided with a loudspeaker.

As a further technical scheme, the mobile monitoring terminals in the intelligent belt A and the intelligent belt B further comprise a data processing module for converting analog signals output by the temperature sensors into digital signals, including data, control data and interactive data connected with a mobile phone APP. The portable temperature sensor is characterized by further comprising a first power module which is internally provided with a rechargeable power supply and used for supplying power to the temperature sensor, the wireless output module and the like, and the first power module is charged through the USB interface.

As a further technical scheme, when a user wears the diaper and a guardian are in close range, the intelligent waistband A (intelligent waistband B) which can be used interchangeably is connected with the diaper through a signal transmitting function; and the output of the wireless Bluetooth is simultaneously connected with a close-range intelligent belt B (intelligent belt A), a mobile terminal and the wireless Bluetooth of the intelligent robot.

As a further technical scheme, when wearing and using the diaper and the guardian are remote, when the intelligent waistband A (intelligent waistband B) that can use interchangeably connects the diaper, close remote big signal transmission function, utilize wireless bluetooth output and the intelligent waistband B (intelligent waistband A) that closely, intelligent robot and mobile terminal wireless bluetooth safety connection through opening the safe little signal transmission function that closely, and the intelligent waistband B (intelligent waistband A) behind the received signal closes the little signal transmission function that closely, further through opening remote big signal transmission function and remote mobile terminal, intelligent robot, cloud WIFI database wireless signal connection. The communication modules such as the short-distance small signal transmitting function or the long-distance large signal transmitting function and receiving function may include, but are not limited to, one or more of a bluetooth module, a WiFi module, a radio frequency module, or an infrared module.

The utility model discloses still be applicable to the pet and wear: the utility model discloses a tail perforation is seted up at the rear portion of panty-shape diapers of above function, the tail of pet exposes from the tail perforation, make maintenance pet personage to dressing the real-time service of using this intelligent pet panty-shape diapers's pet, more accurately to urine moist, the stool instant monitoring, avoid urine moist unconsciousness, the difficult condition of discovering of stool, the personage of the maintenance pet of being convenient for is in time changed its urine moist/panty-shape diapers, the personage's of the maintenance pet of being convenient for family is more sanitary, the excrement of the management pet of being convenient for is to the pollution of public environment such as road and park.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are considered to be within the scope of the invention as defined by the following claims.

The above exemplary description of the present invention is made in conjunction with the accompanying drawings, and it is obvious that the present invention is not limited by the above manner, and various improvements made by the method concept and technical solution of the present invention or by directly applying the concept and technical solution of the present invention to other occasions without improvement are all within the protection scope of the present invention.

Claims (10)

1. An intelligent paper diaper stored by using an airbag is characterized by comprising a paper diaper body, an intelligent terminal, an intelligent waistband A and an intelligent waistband B, wherein the intelligent waistband A and the intelligent waistband B can be used interchangeably;

the panty-shape diapers body includes that dustcoat membrane, electrode combination area, shit collect gasbag subassembly, a plurality of cotton core of absorbing water and the non-woven fabrics surface course that permeates water:

the electrode combination belt is positioned between the outer cover film and the water-permeable non-woven fabric surface layer and comprises two excrement electrode wires, a urine electrode wire and a main air channel, the front end of the electrode combination belt is protruded out of the outer cover film and sleeved in the intelligent waistband A or the intelligent waistband B, the rear end of the electrode combination belt is fixedly connected with the excrement collecting air bag component, the front end of the main air channel is communicated with air pumps of the detection devices in the intelligent waistband A and the intelligent waistband B, the rear end of the main air channel is communicated with an air bag in the excrement collecting air bag component, and when the electrode combination belt and the air bag are not inflated, the electrode combination belt and the air bag are folded;

the cotton core that absorbs water includes preceding absorbent core, back absorbent core, left absorbent core and right absorbent core, preceding absorbent core is located the upside in electrode combination area, back absorbent core left absorbent core and right absorbent core is located respectively the rear side, the left side and the right side of gasbag lower extreme.

2. The intelligent paper diaper accommodated by the air bag according to claim 1, wherein the excrement collecting air bag assembly comprises an air bag, an excrement pocket, an excrement non-woven fabric covering surface layer and an excrement water-absorbing core body, and the air bag is positioned on the lower side of the water-permeable non-woven fabric surface layer and the front water-absorbing core body; the air bag comprises a rear body lifting air bag, a side supporting air bag, a traction air bag and a stool bag covering air bag, wherein the stool bag covering air bag is positioned at the lower side of the stool water absorption core body, the upper surface and the lower surface of the stool collection air bag component are provided with covered anti-explosion woven layers, and the upper anti-explosion woven layer and the lower anti-explosion woven layer of each air bag unit are compounded with the peripheral edges of films of the air bags by high frequency waves.

3. The intelligent paper diaper accommodated by the air bag according to claim 2, wherein the excrement bag covering air bag is folded outwards and sandwiches the excrement water absorption covering core body and the excrement non-woven fabric covering surface layer and is flatly laid on the surface of the rear body lifting air bag in an uninflated state; when the excrement storage bag is inflated, air pressure causes the excrement bag covering air bags on two sides to bulge and turn inwards, the excrement bag covering air bags drive excrement water absorption covering cores on the excrement bag covering air bags and the excrement non-woven fabric covering surface layers turn inwards, and the excrement bag covering air bags are tiled on the excrement storage position in the middle of the rear body lifting air bags.

4. The intelligent paper diaper accommodated by the air bag as claimed in claim 1, wherein a feces pocket is arranged in the middle rear part of the water-permeable non-woven fabric surface layer, and the feces pocket is connected with the periphery of the middle rear part of the water-permeable non-woven fabric surface layer through easy-to-tear seams; when the air bag is inflated, air pressure enables the air bag to bulge, the electrode combination belt drives the excrement pocket to be easily torn and separated, the front end of the excrement pocket with the backward turning area is changed into the electrode combination belt which is not turned and is pulled forward to be connected to move forward, and the electrode combination belt moving forward drives the excrement pocket which is fixedly connected to the excrement pocket so that the excrement pocket passes through the passage of the excrement pocket and is stored at the lower side of the front water absorption core body.

5. The intelligent diaper housed by an airbag according to claim 1, wherein the electrode assembly tape further comprises a lower electrode protection film and an upper electrode moisture-permeable protection film, and the urine electrode wire, the feces electrode wire and the main air channel are located between the lower electrode protection film and the upper electrode moisture-permeable protection film; the upper electrode moisture-permeable protective film is provided with stool sensing holes, and the lower electrode protective film and the upper electrode moisture-permeable protective film are provided with liquid discharge through holes which penetrate through up and down; the tail part of the upper side of the excrement electrode wire is provided with a plurality of dissoluble layers, and the front part of the upper side of the excrement electrode wire is provided with an excrement upper insulating layer.

6. The intelligent paper diaper accommodated by the air bag as claimed in claim 5, wherein when the upper electrode moisture-permeable protective film and the air bag are made of water-impermeable, micro-air-permeable and moisture-permeable films, the air pump inflates air through the main air channel to intelligently adjust odor, temperature and humidity in the diaper.

7. The intelligent diaper accommodated by the airbag as claimed in claim 1, wherein a first resistance detection circuit is formed by connecting urine electrode wires and feces electrode wires to urine liquid for resistance change detection, a second resistance detection circuit is formed by connecting two feces electrode wires to feces liquid for resistance change detection, and by analyzing the resistance change between the first resistance detection circuit and the second resistance detection circuit, the detection device in the intelligent waistband a or the intelligent waistband B can change data detected by analysis and realize an intelligent reminding function.

8. The intelligent paper diaper accommodated by the air bag according to claim 1, wherein the intelligent waistband A or the intelligent waistband B comprises a left annular expansion band and a right annular expansion band, a plurality of magic tapes are evenly distributed on the inner sides of the left annular expansion band and the right annular expansion band, a left rotary spring, a left expansion line and a left line shift sensor are arranged inside the left annular expansion band, a right rotary spring, a right expansion line and a right line shift sensor are arranged inside the right annular expansion band, and the left line shift sensor and the right line shift sensor respectively collect waist size data of a wearing user by detecting the stretching length of the corresponding expansion line.

9. The intelligent diaper accommodated by the air bag according to claim 1, wherein the detection device in the intelligent waistband a or the intelligent waistband B comprises a flip cover, a face cover and a bottom shell, a circuit board is arranged in a space enclosed by the face cover and the bottom shell, the air pump is fixed on the bottom shell, a motor is further fixed on the bottom shell, an output shaft of the motor is connected with a motor gear, the motor gear is meshed with a rolling gear, the rolling gear is connected with a rotating shaft, the lower end of the rotating shaft is matched and fixed with a movable rotating shaft, the rotating shaft and the movable rotating shaft form a circular shaft, the front end of the electrode combination belt penetrates through the space between the rotating shaft and the movable rotating shaft, and the urine electrode wire and the excrement electrode wire are connected with the circuit board through circular contact pieces.

10. The intelligent paper diaper accommodated by the airbag as claimed in claim 1, wherein when the paper diaper is worn, the intelligent waistband A or the intelligent waistband B is connected with the intelligent waistband B or the intelligent waistband A at a short distance and the mobile terminal Bluetooth wirelessly; or the intelligent belt A or the intelligent belt B is connected with the close-distance intelligent belt B or the intelligent belt A through wireless Bluetooth, and the intelligent belt B or the intelligent belt A after receiving the signal is connected with the remote mobile terminal through wireless WIFI signals.

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