CN102054334A - Wireless urine wet state detection system and method - Google Patents

Abstract

The invention provides a wireless urine wet state detection system and a method, and the system comprises a state indicator and at least one urine wet sensor, when the urine wet sensor and the state indicator are in contact state, the urine wet sensor is triggered to transmit an ID (identity) identification code, the state indicator is used for receiving and storing the ID identification code and further realizing ID pairing; or the state indicator is triggered to transmit the ID identification code, and the urine wet sensor is used for receiving and storing the ID identification code and further realizing the ID pairing. The urine wet sensor and the stator indicator can automatically realize the ID pairing, and one state indicator can be matched with a plurality of the urine wet sensors, ensure that the state indicator can accurately identify the urine wet sensors after ID pairing, receive the urine wet states of electronic induction diapers monitored by the urine wet sensors, and effectively remind nursing staff of performing nursing work; simultaneously, the system is convenient to use, and the using cost is also lower.

Description

Wireless wetting state detection system and method

Technical field

The present invention relates to a kind of communication technical field, relate in particular to a kind of wireless wetting state monitoring system and method.

Background technology

Disposable paper diaper all are suitable for adult and baby, and particularly old man or the patient to gatism is indispensable especially, and therefore disposable paper diaper are used in a large number in mechanisms such as hospital, sanatorium, nursing homes, monitoring centers.Along with development of technology, can on disposable paper diaper, settle urine wet sensor, this urine wet sensor can be monitored the wetting state of disposable paper diaper, thereby realizes reporting to the police; But in the prior art, typically use that the wet acoustic-optic alarm of electronics urine reports to the police, because in most cases paper diaper all can be through nexine, sound and light alarm often is left in the basket among a more noisy and busy environment easily, if simultaneously too loudly, disturb other patient's rest again easily, for this reason, prior art also provides a kind of positioning indicator to replace the wet acoustic-optic alarm of above-mentioned electronics urine, this positioning indicator can separate with the electronic induction paper diaper, and be placed on the place of easy observation, the wetting state of electronic induction paper diaper is sent on this positioning indicator by urine wet sensor and shows, thereby realize remote monitoring to electronic induction paper diaper wetting state, but the positioning indicator of prior art can only receive and show the urine-wetting signal that a urine wet sensor monitors, when how use a positioning indicator that the wetting state of a plurality of electronic induction paper diaper is shown efficiently and report to the police, and positioning indicator can show accurately that the wetting state of each electronic induction paper diaper is the technical matterss that need to be resolved hurrily.

Summary of the invention

The present invention is directed to above-mentioned technical matters, a kind of wireless wetting state monitoring system and method are provided, the wetting state that can effectively monitor the electronic induction paper diaper also shows accurately.

The invention provides a kind of wireless wetting state monitoring system, comprise positioning indicator and at least one urine wet sensor, when described urine wet sensor and described positioning indicator are in contact condition, trigger described urine wet sensor and launch the ID identification code that is used for described positioning indicator pairing, described positioning indicator receives and also stores described ID identification code realization ID pairing; Perhaps trigger described positioning indicator and launch the ID identification code that is used for described urine wet sensor pairing, described urine wet sensor receives and also stores described ID identification code realization ID pairing.

The present invention also provides a kind of wireless wetting state monitoring method of using in wireless wetting state monitoring system provided by the invention, comprising:

Described urine wet sensor and described positioning indicator are in contact condition, trigger described urine wet sensor and launch the ID identification code that is used for described positioning indicator pairing;

Described positioning indicator receives and stores described ID identification code and realizes the ID pairing.

The present invention also provides the another kind of wireless wetting state monitoring method of using in wireless wetting state monitoring system provided by the invention, comprising:

Described urine wet sensor and described positioning indicator are in contact condition, trigger described positioning indicator and launch the ID identification code that is used for described urine wet sensor pairing;

Described urine wet sensor receives and stores described ID identification code and realizes the ID pairing.

Implement the present invention, urine wet sensor and positioning indicator can be realized the ID pairing automatically, therefore a positioning indicator can be used with a plurality of urine wet sensors, and the urine wet sensor after the accurate identification id pairing of energy Guarantee Status indicator energy, receive the wetting state of the electronic induction paper diaper that urine wet sensor monitored, thereby remind the paramedic to carry out necessary nursery work effectively, and the work and rest of stopping that does not influence other people, the present invention simultaneously is easy to use, simultaneously lower use cost can be arranged.

Description of drawings

In order to be illustrated more clearly in the embodiment of the invention or technical scheme of the prior art, to do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below, apparently, accompanying drawing in describing below only is some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the structural representation of wireless wetting state monitoring system embodiment one provided by the invention;

Fig. 2 is a positioning indicator schematic rear view among the present invention;

Fig. 3 is the synoptic diagram that urine wet sensor inserts positioning indicator among the present invention;

Fig. 4 is the concrete application synoptic diagram of the wireless wetting state monitoring system of the present invention;

Fig. 5 is the structural representation of wireless wetting state monitoring system embodiment two provided by the invention;

Fig. 6 is the structural representation of wireless wetting state monitoring system embodiment three provided by the invention;

Fig. 7 is the synoptic diagram of urine wet sensor monitoring wetting state in the wireless wetting state monitoring system provided by the invention;

Fig. 8 is the schematic flow sheet of wireless wetting state monitoring method embodiment one provided by the invention;

Fig. 9 is the schematic flow sheet of wireless wetting state monitoring method embodiment two provided by the invention.

Embodiment

Technical matters to be solved by this invention is to use a positioning indicator that the wetting state of a plurality of electronic induction paper diaper is shown and reports to the police, and positioning indicator can show the wetting state of each electronic induction paper diaper accurately, at this technical matters, the invention provides a kind of wireless wetting state monitoring method and system, below will introduce the specific implementation process of wireless wetting state monitoring method provided by the invention and system in detail.

Referring to Fig. 1, be the structural representation of wireless wetting state monitoring system embodiment one provided by the invention.

As shown in Figure 1, the synoptic diagram of the wireless wetting state monitoring system that provides for present embodiment, in this synoptic diagram, comprise a plurality of urine wet sensors (urine wet sensor 10 as shown in the figure and urine wet sensor 11) and a positioning indicator 20, the shape of described urine wet sensor 10 and urine wet sensor 11 is all identical with structure.When urine wet sensor 10 and positioning indicator 20 are in contact condition, can realize the ID configuration, in the present embodiment, provide at least two kinds of technical schemes that realize that urine wet sensors 10 contact with positioning indicator 20.First kind is that a microswitch is set on urine wet sensor 10, and a microswitch is set on positioning indicator 20; Preferred embodiment, the microswitch that is arranged on the urine wet sensor 10 is a touch-switch, see the touch-switch 100 shown in Fig. 1, and the microswitch that is arranged on the positioning indicator 20 is a microswitch, sees the microswitch 200 in the schematic rear view of positioning indicator shown in Figure 2 20 for details; Can certainly be provided with conversely, when as long as this touch-switch and microswitch are in contact condition, can make urine wet sensor 10 and positioning indicator 20 be in contact condition, thereby trigger the ID pairing flow process between urine wet sensor 10 and the positioning indicator 20, then think to belong to protection scope of the present invention; Second kind is to interact then by short distance induction technologies such as infrared or bluetooths between urine wet sensor 10 and the positioning indicator 20, can be considered described urine wet sensor 10 and positioning indicator 20 and be in contact condition, thus the pairing of the ID between triggering urine wet sensor 10 and the positioning indicator 20 flow process.

Below will be on urine wet sensor 10, touch-switch to be set, it is example that microswitch is set on positioning indicator 20, describes implementation procedure of the present invention in detail.

With urine wet sensor 10 is example, when the microswitch 200 of the touch-switch 100 of urine wet sensor 10 and described positioning indicator 20 is in contact condition (as shown in Figure 3, wherein, tiltedly underlining partly is a urine wet sensor 10, the microswitch 200 of positioning indicator 20 is actually sightless, but for the touch-switch 100 of clear expression urine wet sensor 10 is in contact with it state, at this it is identified in Fig. 3, can find among the figure that microswitch 200 is actually a micro limit switch device that has the device that protrudes pulley (abbreviation cam).When urine wet sensor 10 is in the draw-in groove that inserts positioning indicator 20 back sides as shown in the figure, the touch-switch 100 of urine wet sensor 10 and the microswitch 200 of positioning indicator 20 are in contact condition (being in contact with one another by the cam on 200), trigger described urine wet sensor 10 and launch the ID identification code that is used for described positioning indicator 20 pairings, described positioning indicator 20 receives and also stores described ID identification code realization ID pairing; Perhaps trigger described positioning indicator 20 and launch the ID identification code that is used for described urine wet sensor 10 pairings, described urine wet sensor 10 receives and also stores described ID identification code realization ID pairing.In the time of specific implementation, the microswitch 200 of positioning indicator 20 is one to have the micro limit switch device of pulley, when urine wet sensor 10 behind the draw-in groove at insertion positioning indicator 20 back sides (or in process of inserting), urine wet sensor 10 can trigger the microswitch 200 of positioning indicator 20, also can trigger the touch-switch 100 of urine wet sensor 10 with the microswitch 200 of tense indicator 20.In actual applications, the precedence that can be triggered regardless of two switches and the mode of triggering as long as can realize both mutual triggerings (or in crossing in stroke of inserting) after the insertion, can think that just both are in contact condition.

Referring to Fig. 4, be the concrete application synoptic diagram of the wireless wetting state monitoring system of the present invention.

General nursing system comprises a minimum monitoring administration center and a plurality of ward (room) composition, and one or more nursing berth (sick bed) is arranged in a room usually, N room arranged in the present embodiment, and there are three berths in each room.In the present embodiment for each berth has disposed a wireless senser 10, and be positioning indicator 20 of each room configuration, and be remote data terminal 40 of monitoring center configuration.Adopt wireless radiofrequency to be connected between wireless senser 10 and the positioning indicator 20, and both can adopt wireless radiofrequency to be connected (band antenna) between positioning indicator 20 and the remote data terminal 40, also can adopt wired connection or employing power carrier to connect.Remote data terminal 40 can be made the usefulness of data reception and demonstration separately, also can further be connected with computer 50, shows and record to realize networking and computerized real time data.

In the present invention, ID pairing between urine wet sensor and the positioning indicator is a gordian technique, particularly, the ID identification code that the foregoing description is said is the unique identification of positioning indicator identification urine wet sensor, representing the address or the identity code of urine wet sensor, also is that the ID identification code of each urine wet sensor is all different; In this application, this ID identification code can at first be stored in each urine wet sensor, is transmitted to positioning indicator to realize the ID pairing by urine wet sensor; Also can be in positioning indicator, to have stored a plurality of ID identification codes, repeatedly not launch the ID identification code to each urine wet sensor, to realize the ID pairing by positioning indicator; This dual mode can be realized the ID pairing between urine wet sensor and the positioning indicator, can effectively discern relevant wireless senser to guarantee positioning indicator.

Following examples describe in detail with regard to above two kinds of situations respectively.

Referring to Fig. 5, be the structural representation of wireless wetting state monitoring system embodiment two provided by the invention.

The wireless wetting state monitoring system that present embodiment provides comprises a plurality of urine wet sensors and a positioning indicator equally, at this, being paired into example to positioning indicator 20 emission ID identification codes with realization ID with urine wet sensor 10 is described, this urine wet sensor 10 comprises touch-switch 100, comprises in addition:

First memory 101, the ID identification code that is used to store the unique identification urine wet sensor; Need to prove that first memory 101 is a nonvolatile memory;

First processor 102, whether the microswitch 200 that is used to monitor described touch-switch 100 and positioning indicator 20 is in contact condition, when the microswitch 200 of touch-switch 100 and positioning indicator 20 is in contact condition, touch-switch 100 can be triggered, but the triggering state of first processor 102 perception touch-switchs 100;

First wireless launcher 103 is used for when the microswitch 200 that first processor 102 monitors touch-switch 100 and positioning indicator 20 is in contact condition, and emission comprises the wireless signal of the ID identification code of storage in the described first memory 101;

The sensor contact electrode 104 that comprises at least two conductive rubber contacts, be used for when wireless wetting state monitoring system and electronic induction paper diaper to be monitored are in assembled state, the urine wet line of induction built-in with the electronic induction paper diaper is electrically connected to monitor the wetting state of described electronic induction paper diaper;

Described first wireless launcher 103 monitors the electronic induction paper diaper when being in wetting state at sensor contact electrode 104, sends urine-wetting signal to first wireless receiver of positioning indicator 20.

And positioning indicator 20 comprises microswitch 200, comprises in addition:

First wireless receiver 201 is used to receive the wireless signal that comes from 103 emissions of described first wireless launcher;

Second processor 202, the wireless signal that is used for receiving from described first wireless receiver 201 extracts the ID identification code and the urine-wetting signal of described urine wet sensor;

Second memory 203 is used to store the ID identification code that described second processor 202 extracts.

Sensor socket 204 is used to the touch-switch 100 placing described urine wet sensor 10 and make described urine wet sensor 10 and the microswitch 200 of positioning indicator 20 and is in contact condition;

LCD 205 is used for indicating this urine-wetting signal when first wireless receiver 201 receives urine-wetting signal;

In addition, also be provided with the input button on the positioning indicator 20,, positioning indicator 20 operated for user input instruction.This is a prior art, does not repeat them here.

In the specific implementation, when urine wet sensor 10 is inserted in the sensor socket 204 of positioning indicator 20 (16 represent insertion process), can trigger the microswitch 200 that is installed on the sensor socket 204 by mechanicals efforts, the microswitch 200 that is triggered is given second processor 202 of positioning indicator 20 except this being triggered state transfer, also can remove to trigger touch-switch 100 on the urine wet sensor 10 by mechanical reactance 12, and this trigger state information is passed to the first processor 102 of urine wet sensor 10, make the processor of urine wet sensor 10 and positioning indicator 20 can both real-time monitor this operation information that urine wet sensor 10 inserts positioning indicator 20, promptly the microswitch 200 of touch-switch 100 and positioning indicator 20 is in the information of contact condition.

In embodiments of the present invention, the process of urine wet sensor 10 insertion positioning indicators 20 is used in the ID pairing of urine wet sensor 10 and positioning indicator 20.In urine wet sensor 10, include a first memory 101(nonvolatile memory), depositing the ID identification code of urine wet sensor 10, this urine wet sensor ID identification code is an identity code of sensor.In embodiments of the present invention, the ID identification code of each urine wet sensor all is different, unique in other words conj.or perhaps, the wireless signal of each urine wet sensor emission all includes its unique ID identification code, positioning indicator could judge relevant wireless signal is from which sensor according to the ID that receives like this, so that the status information to relevant urine wet sensor shows that if both are uncorrelated, then its state can not show on indicator.

For clear and definite relation between the two, operation is absolutely necessary ID between the wireless launcher of urine wet sensor and the wireless receiver of positioning indicator to sign indicating number (or ID pairing), and ID in fact is that the ID identification code of urine wet sensor is deposited an into process of the nonvolatile memory of the wireless receiver of positioning indicator to the sign indicating number process.What link to each other with its first processor 102 in urine wet sensor 10 has a nonvolatile memory 101, includes a transmitter ID identification code in this storer 101.When urine wet sensor 10 is inserted into sensor socket 204 in the positioning indicator 20, the first processor 102 of urine wet sensor 10 can obtain the sensor ID identification code from the nonvolatile memory 101 that links to each other, and this ID identification code launched (15 represent wireless signal among the figure) together with other data-signal by first wireless launcher 103 that links to each other with first processor 102, this wireless signal 15 is received by first wireless receiver 201 of positioning indicator 20, and relevant signal is sent to second processor 202 of positioning indicator 20, this processor separates the ID identification code and leave in the nonvolatile memory 203 that links to each other with second processor 202 from wireless signal, thereby the ID that has finished urine wet sensor 10 and positioning indicator 20 is to the code operations process.

Referring to Fig. 6, be the structural representation of wireless wetting state monitoring system embodiment three provided by the invention.

The wireless wetting state monitoring system that present embodiment provides comprises a plurality of urine wet sensors and a positioning indicator equally, at this, carrying out ID with positioning indicator 20 to urine wet sensor 10 emission ID identification codes is paired into example and is described, this positioning indicator 20 comprises microswitch 200, comprises in addition:

Second memory 203 is used to store at least one and is used for ID identification code with urine wet sensor 10 pairings;

Need to prove that second memory 203 is a nonvolatile memory;

Second processor 202 is used to monitor the touch-switch 100 of urine wet sensor 10 and whether the microswitch 200 of positioning indicator 20 is in contact condition; Monitoring described touch-switch 100 when being in contact condition, from described second memory 203, selecting the ID identification code of this urine wet sensor of unique identification in the ID identification code of storage with described microswitch 200;

Second wireless launcher 206 is launched the wireless signal that comprises described ID identification code to the urine wet sensor 10 that contacts with the microswitch 200 of positioning indicator 20;

Sensor socket 204, the microswitch 200 that is used to the touch-switch placing described urine wet sensor 10 and make described urine wet sensor 10 100 and positioning indicator 20 is in contact condition;

LCD 205 is used for indicating this urine-wetting signal when first wireless receiver 201 receives urine-wetting signal;

In addition, also be provided with button on the positioning indicator 20, positioning indicator 20 operated for the user.

And urine wet sensor 10 comprises touch-switch 100, comprises in addition:

Second wireless receiver 105 is used to receive the wireless signal that comes from 206 emissions of described second wireless launcher;

First processor 102, the wireless signal that is used for receiving from described second wireless receiver 105 extracts the ID identification code of described urine wet sensor;

First memory 101 is used to store the ID identification code that described first processor 102 extracts.

The sensor contact electrode 104 that comprises at least two conductive rubber contacts, be used for when wireless wetting state monitoring system and electronic induction paper diaper to be monitored are in assembled state, the urine wet line of induction built-in with the electronic induction paper diaper is electrically connected to monitor the wetting state of described electronic induction paper diaper;

Described first wireless launcher 103 monitors the electronic induction paper diaper when being in wetting state at sensor contact electrode 104, sends urine-wetting signals to first wireless receiver 201 of positioning indicator 20.

In the specific implementation, identical with a last embodiment is, realize the ID pairing in the sensor socket of urine wet sensor 10 insertion positioning indicators 20, different is, in the present embodiment, distribute the ID identification code by positioning indicator 20 to urine wet sensor 10, its process is opposite with a last embodiment, but roughly the same, do not repeat them here.

Referring to Fig. 7, be the synoptic diagram of urine wet sensor monitoring wetting state in the wireless wetting state monitoring system provided by the invention.

10 is urine wet sensor among the figure, includes a processor in urine wet sensor 10, and what be connected with processor has 4 conductive rubber electrodes.30 is the electronic induction paper diaper among the figure, two wet lines of induction of urine that printed by electrically conductive ink about including on the paper diaper 30.In the time will implementing to urinate wet monitoring/induction, at first urine wet sensor 10 be opened and is clipped on the paper diaper, and four conductive rubber electrodes that make urine wet sensor 10 with urinate the line of induction that wets and contact.In Fig. 7, the wet line of induction one (31) of urine contacts with electrode A and electrode B, and the urine line of induction two (32) that wets contacts with electrode C and electrode D, and conductive rubber electrode A, B, C, D all are connected on the processor of urine wet sensor 10.The processor of the embodiment of the invention has the resistance detection ability, but the resistance value between the detecting electrode, for example can detecting electrode A, B between, and the resistance value between electrode C, the D.Because the wet line of induction of urine is formed by the electrically conductive ink printing, has conductive capability (resistance on the line of induction between the arbitrfary point is between 0 ~ 300 kilo-ohm), when urine wet sensor 10 is clipped on the line of induction of electronic induction paper diaper 30, present low-resistance value (less than 300 kilo-ohms) between electrode A, B and electrode C, the D, and, present high resistance (greater than 1 megaohm) between electrode A, B and electrode C, the D when urine wet sensor 10 when not touching the wet line of induction of urine (or) when electronic induction paper diaper 30 are lifted down.By to interelectrode resistance detection, the processor of urine wet sensor 10 knows just whether urine wet sensor 10 has been clipped on the electronic induction paper diaper 30, and whether excellent contact is arranged with the line of induction in the paper diaper, the loose contact situation of the urine wet sensor and the paper diaper line of induction can effectively be found and prevent to this function, and the reliability that product is used is improved greatly.

As for the wet monitoring of urine of 10 pairs of electronic induction paper diaper 30 of urine wet sensor, be by the electrical resistance monitoring of urinating between the wet line of induction two (32) of the wet line of induction one (31) and urine is realized.Specifically, the processor of urine wet sensor 10 can by the resistance between monitoring electrode A, C or electrode B, the D differentiate whether urinate wet.Under paper diaper 30 dry and comfortable situations, resistance between electrode A, C or electrode B, the D almost is infinitely great (greater than 1 megaohm), and when the wet generation of urine, urine wet electric resistance 33 in the electronic induction paper diaper 30 probably between 0 ~ 100 kilo-ohm, can realize urinating the function of wet monitoring so indirectly according to the detection of above-mentioned resistance value.

Implement the present invention, urine wet sensor and positioning indicator can be realized the ID pairing automatically, therefore a positioning indicator can be used with a plurality of urine wet sensors, and the urine wet sensor after the accurate identification id pairing of energy Guarantee Status indicator energy, and the wetting state of the reception electronic induction paper diaper that urine wet sensor monitored, thereby remind the paramedic to carry out necessary nursery work effectively, and the rest that does not influence other people, the present invention simultaneously is easy to use, and has lower use cost.

Referring to Fig. 8, be the schematic flow sheet of wireless wetting state monitoring method embodiment one provided by the invention.

The wireless wetting state monitoring method that present embodiment provides is applied to the wireless wetting state monitoring system that previous embodiment provides, and as shown in the figure, the method that present embodiment provides may further comprise the steps:

Step 100, the touch-switch of urine wet sensor and the microswitch of positioning indicator are in contact condition, trigger urine wet sensor and launch the ID identification code that is used for the positioning indicator pairing;

During specific implementation, can urine wet sensor as shown in Figure 1 be inserted on the support of positioning indicator in manual mode;

Behind the urine wet sensor insertion positioning indicator (or in insertion process), the touch-switch of urine wet sensor and the microswitch of positioning indicator will be in contact condition, and trigger positioning indicator this moment, and writ attitude indicator enters wireless ID accepting state; And trigger urine wet sensor and launch wireless ID identification code.

Step 101, positioning indicator receive and store described ID identification code and realize the ID pairing.

Concrete, positioning indicator receives the wireless ID identification code of urine wet sensor emission, and it is stored in the storer of self, thereby realizes the ID pairing between urine wet sensor and the positioning indicator.Need to prove that the storer of positioning indicator is a nonvolatile memory, can forever preserve the ID identification code of this wireless senser, receive wireless signal after discerning with this from this urine wet sensor.

Step 102 when urine wet sensor monitors wetting state, is launched urine-wetting signal and ID identification code by the mode of radio communication to positioning indicator; Need to prove that in this step, the specific implementation process of the wetting state of urine wet sensor monitoring electronic induction paper diaper does not repeat them here as shown in Figure 7

Step 103, positioning indicator receive described urine-wetting signal and ID identification code, by coupling ID identification code, show the urine-wetting signal of the urine wet sensor corresponding with described ID identification code.

Concrete, for example monitor the electronic induction paper diaper when being in wetting state when urine wet sensor, urine wet sensor sends urine-wetting signal and ID identification code by wireless mode, makes the red led of the positioning indicator that receives coherent signal flash; And after wet electronic induction paper diaper are replaced, diaper is dry and comfortable, urine wet sensor just sends the signal and the ID identification code of expression normal condition, and the red led that is flashing on the writ attitude indicator stops to flash, and lights green pilot lamp and reverted to normal condition to show system.

Implement the present invention, urine wet sensor and positioning indicator can be realized the ID pairing automatically, therefore a positioning indicator can be used with a plurality of urine wet sensors, and the urine wet sensor after the accurate identification id pairing of energy Guarantee Status indicator energy, receive the wetting state of the electronic induction paper diaper that urine wet sensor monitored, thereby remind the paramedic to carry out necessary nursery work effectively, and the rest that does not influence other people, the present invention simultaneously is easy to use, and has lower use cost.

Referring to Fig. 9, be the schematic flow sheet of wireless wetting state monitoring method embodiment two provided by the invention.

The wireless wetting state monitoring method that present embodiment provides is applied to the wireless wetting state monitoring system that previous embodiment provides, the method that provides with wireless wetting state monitoring method embodiment one is different, in the present embodiment, ID pairing process initiatively sends the ID identification code to urine wet sensor by positioning indicator and realizes, as shown in the figure, the method that present embodiment provides may further comprise the steps:

Step 200, the touch-switch of urine wet sensor and the microswitch of described positioning indicator are in contact condition, trigger positioning indicator and launch the ID identification code that is used for described urine wet sensor pairing;

During specific implementation, can urine wet sensor as shown in Figure 1 be inserted on the support of positioning indicator in manual mode;

Behind the urine wet sensor insertion positioning indicator (or in insertion process), the touch-switch of urine wet sensor and the microswitch of positioning indicator will be in contact condition, and trigger urine wet sensor and enter wireless ID accepting state this moment; And trigger positioning indicator and launch wireless ID identification code.At this moment, store a plurality of ID identification codes in the storer of positioning indicator.But it all is unique to the ID identification code that each urine wet sensor sends.

Step 201, urine wet sensor receive and store described ID identification code and realize the ID pairing.

Concrete, the wireless ID identification code of urine wet sensor accepting state indicator emission, and it is stored in the storer of self, thus realize ID pairing between urine wet sensor and the positioning indicator.Need to prove that the storer of positioning indicator and urine wet sensor is a nonvolatile memory, can forever preserve the ID identification code, receive wireless signal after positioning indicator is discerned with this from this urine wet sensor.

Step 202 when urine wet sensor monitors wetting state, is launched urine-wetting signal and ID identification code by the mode of radio communication to positioning indicator; Need to prove that in this step, the specific implementation process of the wetting state of urine wet sensor monitoring electronic induction paper diaper does not repeat them here as shown in Figure 7

Step 203, positioning indicator receive described urine-wetting signal and ID identification code, by coupling ID identification code, show the urine-wetting signal of the urine wet sensor corresponding with described ID identification code.

Concrete, for example monitor the electronic induction paper diaper when being in wetting state when urine wet sensor, urine wet sensor sends urine-wetting signal and ID identification code by wireless mode, makes the red led of the positioning indicator that receives coherent signal flash; And after wet electronic induction paper diaper are replaced, diaper is dry and comfortable, urine wet sensor just sends the signal and the ID identification code of expression normal condition, and the red led that is flashing on the writ attitude indicator stops to flash, and lights green pilot lamp and reverted to normal condition to show system.

Implement the present invention, urine wet sensor and positioning indicator can be realized the ID pairing automatically, therefore a positioning indicator can be used with a plurality of urine wet sensors, and the urine wet sensor after the accurate identification id pairing of energy Guarantee Status indicator energy, receive the wetting state of the electronic induction paper diaper that urine wet sensor monitored, thereby remind the paramedic to carry out necessary nursery work effectively, and the rest that does not influence other people, the present invention simultaneously is easy to use, and has lower use cost.

One of ordinary skill in the art will appreciate that all or part of flow process that realizes in the foregoing description method, be to instruct relevant hardware to finish by computer program, described program can be stored in the computer read/write memory medium, this program can comprise the flow process as the embodiment of above-mentioned each side method when carrying out.Wherein, described storage medium can be magnetic disc, CD, read-only storage memory body (Read-Only Memory, ROM), FLASH, EEPROM or store at random memory body (Random Access Memory, RAM) etc.

The above is a preferred implementation of the present invention; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the principle of the invention; can also make some improvements and modifications, these improvements and modifications also are considered as protection scope of the present invention.

Claims (18)

1. wireless wetting state monitoring system, comprise positioning indicator and at least one urine wet sensor, it is characterized in that, when described urine wet sensor and described positioning indicator are in contact condition, trigger described urine wet sensor and launch the ID identification code that is used for described positioning indicator pairing, described positioning indicator receives and also stores described ID identification code realization ID pairing; Perhaps trigger described positioning indicator and launch the ID identification code that is used for described urine wet sensor pairing, described urine wet sensor receives and also stores described ID identification code realization ID pairing.

2. wireless wetting state monitoring system as claimed in claim 1 is characterized in that described urine wet sensor also comprises:

First memory, the ID identification code that is used to store the unique identification urine wet sensor;

First processor is used to monitor this urine wet sensor and whether is in contact condition with described positioning indicator;

First wireless launcher is used for monitoring this urine wet sensor and described positioning indicator when being in contact condition at described first processor, and emission comprises the wireless signal of the ID identification code of storing in the described first memory.

3. wireless wetting state monitoring system as claimed in claim 2 is characterized in that described positioning indicator also comprises:

First wireless receiver is used to receive the wireless signal that comes from described first wireless launcher emission;

Second processor, the wireless signal that is used for receiving from described first wireless receiver extracts the ID identification code of described urine wet sensor;

Second memory is used to store the ID identification code that described second processor extracts.

4. wireless wetting state monitoring system as claimed in claim 1 is characterized in that described positioning indicator also comprises:

Second memory is used to store at least one and is used for ID identification code with the urine wet sensor pairing;

Whether second processor is used to monitor described positioning indicator and is in described urine wet sensor and contacts contact condition; If, the ID identification code of this urine wet sensor of unique identification of selection in the ID identification code of then from described second memory, storing;

Second wireless launcher is launched the wireless signal that comprises described ID identification code to the urine wet sensor that contacts with this positioning indicator.

5. wireless wetting state monitoring system as claimed in claim 4 is characterized in that described urine wet sensor also comprises:

Second wireless receiver is used to receive the wireless signal that comes from described second wireless launcher emission;

First processor, the wireless signal that is used for receiving from described second wireless receiver extracts the ID identification code of described urine wet sensor;

First memory is used to store the ID identification code that described first processor extracts.

6. as claim 3 or 5 described wireless wetting state monitoring systems, it is characterized in that described urine wet sensor also comprises:

The sensor contact electrode that comprises at least two conductive rubber contacts, be used for when wireless wetting state monitoring system and electronic induction paper diaper to be monitored are in assembled state, the urine wet line of induction built-in with the electronic induction paper diaper is electrically connected to monitor the wetting state of described electronic induction paper diaper;

Described first wireless launcher monitors described electronic induction paper diaper when being in wetting state at the sensor contact electrode, sends urine-wetting signal to first wireless receiver of described positioning indicator.

7. as claim 3 or 5 described wireless wetting state monitoring systems, it is characterized in that described positioning indicator also comprises:

Sensor socket is used to place described urine wet sensor and makes described urine wet sensor and positioning indicator be in contact condition;

LCD is used for showing this urine-wetting signal when first wireless receiver receives urine-wetting signal.

8. wireless wetting state monitoring system as claimed in claim 1, it is characterized in that, described urine wet sensor also comprises first microswitch, described positioning indicator also comprises second microswitch, when described first microswitch contacted with described second microswitch, described urine wet sensor and described positioning indicator were in contact condition.

9. wireless wetting state monitoring system as claimed in claim 1, it is characterized in that, interact then by infrared or Bluetooth technology between described urine wet sensor and the described positioning indicator, described urine wet sensor and described positioning indicator are in contact condition.

10. wireless wetting state monitoring system as claimed in claim 8, it is characterized in that, first microswitch of described urine wet sensor is a touch-switch, and second microswitch of described positioning indicator is a microswitch, and described microswitch is the stroke switchgear that has the evagination pulley.

11. a wireless wetting state monitoring method of using in wireless wetting state monitoring system as claimed in claim 1 is characterized in that, comprising:

Described urine wet sensor and described positioning indicator are in contact condition, trigger described urine wet sensor and launch the ID identification code that is used for described positioning indicator pairing;

Described positioning indicator receives and stores described ID identification code and realizes the ID pairing.

12. wireless wetting state monitoring method as claimed in claim 11 is characterized in that, described urine wet sensor and described positioning indicator are in contact condition, comprising:

Described urine wet sensor also comprises first microswitch, described positioning indicator also comprises second microswitch, described urine wet sensor contacts with second microswitch of described status displays by its first microswitch, makes described urine wet sensor and described status displays be in contact condition.

13. wireless wetting state monitoring method as claimed in claim 11 is characterized in that, described urine wet sensor and described positioning indicator are in contact condition, comprising:

Interact then by infrared or Bluetooth technology between described urine wet sensor and the described positioning indicator, described urine wet sensor and described positioning indicator are in contact condition.

14., it is characterized in that described urine wet sensor and described positioning indicator are realized also comprising after the ID pairing as claim 12 or 13 described wireless wetting state monitoring methods:

When described urine wet sensor monitors wetting state, launch urine-wetting signal and ID identification code to described positioning indicator by the mode of radio communication;

Described positioning indicator receives described urine-wetting signal and ID identification code, by coupling ID identification code, shows the urine-wetting signal of the urine wet sensor corresponding with described ID identification code.

15. a wireless wetting state monitoring method of using in wireless wetting state monitoring system as claimed in claim 1 is characterized in that, comprising:

Described urine wet sensor and described positioning indicator are in contact condition, trigger described positioning indicator and launch the ID identification code that is used for described urine wet sensor pairing;

Described urine wet sensor receives and stores described ID identification code and realizes the ID pairing.

16. wireless wetting state monitoring method as claimed in claim 15 is characterized in that, described urine wet sensor and described positioning indicator are in contact condition, comprising:

Described urine wet sensor also comprises first microswitch, described positioning indicator also comprises second microswitch, described urine wet sensor contacts with second microswitch of described status displays by its first microswitch, makes described urine wet sensor and described status displays be in contact condition.

17. wireless wetting state monitoring method as claimed in claim 15 is characterized in that, described urine wet sensor and described positioning indicator are in contact condition, comprising:

Interact then by infrared or Bluetooth technology between described urine wet sensor and the described positioning indicator, described urine wet sensor and described positioning indicator are in contact condition.

18., it is characterized in that described urine wet sensor and described positioning indicator are realized also comprising after the ID pairing as claim 16 or 17 described wireless wetting state monitoring methods:

When described urine wet sensor monitors wetting state, launch urine-wetting signal and ID identification code to described positioning indicator by the mode of radio communication;

Described positioning indicator receives described urine-wetting signal and ID identification code, by coupling ID identification code, indicates the urine-wetting signal of the urine wet sensor corresponding with described ID identification code.

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