CN103400090A - Method and device detecting use times of laryngoscope lens - Google Patents

Abstract

The invention discloses a method and a device detecting use times of a laryngoscope lens, which can rapidly detect use times of the laryngoscope lens and prevent cross infection caused by repeated use of the laryngoscope lens so as to ensure life safety of patients. The method of the invention comprises that when the lens with a built-in radio frequency identification (RFID) responder is inserted into a laryngoscope, a built-in RFID reader in the laryngoscope reads the value of insert times of the lens stored in the RFID responder; and if the value is not in a preset range, the RFID reader emits alarming information, and otherwise, the RFID reader changes the value of the insert times of the lens in a preset rule and writs the changed value of the insert times of the lens in the RFID responder.

Description

A kind of laryngeal mirror lens access times detection method and device

Technical field

The embodiment of the present invention relates to technical field of medical instruments, is specifically related to a kind of laryngeal mirror lens access times detection method and device.

Background technology

Laryngoscope is a kind of for general anesthesia induction, appears the instrument of glottis while carrying out trachea cannula in on-the-spot cardiac resuccitation process.When laryngoscope was worked, laryngoscope was pushed down the human oral cavity epiglottis, in order to carry out trachea cannula.

Existing laryngoscope generally is comprised of laryngoscope end and eyeglass, and during use, the hand-held laryngoscope end of user, push down the oral cavity epiglottis with eyeglass by patient's oral cavity, so that carry out trachea cannula.Existing eyeglass is divided into disposable eyeglass and reuses eyeglass, and disposable eyeglass can prevent the cross-infection between the patient well, but can cause user's cost to raise; Reusing eyeglass is to process rear eyeglass by sterilization or other, can be repeatedly used.

Because can causing user's use cost, disposable eyeglass raises, so user's face less of disposable eyeglass even occurs disposable eyeglass when the situation of reusing the eyeglass use; And reuse eyeglass, and, because the structure of eyeglass is uneven, so reuse eyeglass, being difficult to process to utterly destroy germ by sterilization or other, this may cause between the patient occurring cross-infection, thereby malpractice occurs.

Summary of the invention

The embodiment of the present invention provides a kind of laryngeal mirror lens access times detection method and device, can detect rapidly the number of times that laryngeal mirror lens uses, can prevent because laryngeal mirror lens is reused the cross-infection that causes, thus guarantee patient's life security.

The laryngeal mirror lens access times detection method of the embodiment of the present invention comprises:

When the eyeglass that is built-in with radio-frequency (RF) identification (RFID, Radio Frequency Identification) transponder inserted laryngoscope, the built-in RFID reader of laryngoscope read the eyeglass that stores in described RFID transponder and inserts time numerical value;

If described eyeglass inserts time numerical value not in default scope, described RFID reader sends alarm information, and eyeglass inserts time numerical value and eyeglass from change to described RFID transponder that write after inserts time numerical value otherwise described RFID reader changes by default rule.

Alternatively,

The eyeglass that stores in the built-in RFID reader of the described laryngoscope of step reads described RFID transponder also comprises before inserting time numerical value:

Read the eyeglass that stores in the described RFID transponder information of dispatching from the factory;

Search the described eyeglass information of dispatching from the factory in the built-in eyeglass information database of described laryngoscope, if search failure, send alarm information and withdraw from testing process.

Alternatively,

After sending alarm information, the described RFID reader of step also comprises:

Control center receives the alarm information that described RFID reader sends;

Described control center sends warning information according to alarm information.

Alternatively,

After sending warning information according to alarm information, the described control center of step also comprises:

Described control center closes laryngoscope after the default time.

Alternatively,

Described default scope is 0 to 2 time.

Alternatively,

Described warning information comprises picture and text prompting and/or auditory tone cues.

Alternatively,

Described default rule comprises the ascending order rule.

Alternatively,

Described default rule comprises the descending rule.

The laryngeal mirror lens access times pick-up unit of the embodiment of the present invention comprises:

Reading unit, be used for when the eyeglass that is built-in with the RFID transponder inserts laryngoscope, reads the eyeglass that stores in described RFID transponder and insert time numerical value;

Judging unit, be used for judging that described eyeglass inserts time numerical value whether in default scope;

Issue unit, be used for sending alarm information when described eyeglass insertion time numerical value is not in default scope;

Change unit, be used for inserting time numerical value by default rule change eyeglass when described eyeglass insertion time numerical value is in default scope;

Writing unit, be used for inserting time numerical value to the eyeglass that described RFID transponder writes after change.

Alternatively,

Described device also comprises:

The second reading unit, be used for reading eyeglass that described RFID transponder the stores information of dispatching from the factory;

Search unit, be used for searching the described eyeglass information of dispatching from the factory at the built-in eyeglass information database of described laryngoscope;

The alert unit that cancels the order, be used for sending alarm information and withdraw from testing process when searching unsuccessfully.

Alternatively,

Described device also comprises:

Receiving element, be used for receiving the alarm information that described RFID reader sends;

Alarm Unit, be used for sending warning information according to alarm information.

Alternatively,

Described device also comprises:

Closing unit, be used for closing laryngoscope after the default time.

In the embodiment of the present invention, when the eyeglass that is built-in with radio-frequency identification transponder inserted laryngoscope, the built-in RFID reader of laryngoscope read the eyeglass that stores in described RFID transponder and inserts time numerical value; If described eyeglass inserts time numerical value not in default scope, described RFID reader sends alarm information, and eyeglass inserts time numerical value and eyeglass from change to described RFID transponder that write after inserts time numerical value otherwise described RFID reader changes by default rule.By the number of times that the fast detecting laryngeal mirror lens uses, the laryngeal mirror lens access times detection method of the embodiment of the present invention and device can prevent because laryngeal mirror lens is reused the cross-infection that causes, thus guarantee patient's life security.

Description of drawings

Fig. 1 is laryngeal mirror lens access times detection method the first embodiment process flow diagram in the embodiment of the present invention;

Fig. 2 is laryngeal mirror lens access times detection method the second embodiment process flow diagram in the embodiment of the present invention;

Fig. 3 is laryngeal mirror lens access times pick-up unit example structure figure in the embodiment of the present invention.

Embodiment

The embodiment of the present invention provides a kind of laryngeal mirror lens access times detection method and device, can detect rapidly the number of times that laryngeal mirror lens uses, can prevent because laryngeal mirror lens is reused the cross-infection that causes, thus guarantee patient's life security.

Radio-frequency (RF) identification (RFID, Radio Frequency Identification) technology, claim again electronic tag, radio frequency identification, it is a kind of communication technology, can identify specific objective and read and write related data by radio signals, and need not to set up machinery between recognition system and specific objective or optics contacts.

See also Fig. 1, in the embodiment of the present invention, the first embodiment of laryngeal mirror lens access times detection method comprises:

101, when the eyeglass that is built-in with the RFID transponder inserts laryngoscope, the built-in RFID reader of laryngoscope reads the eyeglass that stores in the RFID transponder and inserts time numerical value;

Store eyeglass in the RFID transponder and inserted time numerical value, when the eyeglass that is built-in with the RFID transponder inserts laryngoscope, the built-in RFID reader of laryngoscope can read the eyeglass that stores in the RFID transponder and insert time numerical value, and above-mentioned RFID reader and RFID transponder are used in conjunction with each other.

102, when eyeglass insertion time numerical value is not in default scope, execution step 103, otherwise perform step 104;

When eyeglass insertion time numerical value is not in default scope, illustrate that eyeglass was used, execution step 103, otherwise perform step 104.

103, the RFID reader sends alarm information;

When the eyeglass insertion time numerical value that reads is not in default scope, illustrate that the access times of eyeglass have exceeded default scope, this moment, the RFID reader can send alarm information.

104, the RFID reader changes eyeglass insertion time numerical value by default rule;

When the eyeglass insertion time numerical value that reads was in default scope, the RFID reader inserted time numerical value by default rule change eyeglass, and above-mentioned default rule can be to increase progressively rule, can be also the rule of successively decreasing, and does not do herein restriction.

105, the RFID reader inserts time numerical value to the eyeglass that the RFID transponder writes after change.

After the RFID reader changes eyeglass insertion time numerical value by default rule, the RFID reader can insert time numerical value to the eyeglass that the RFID transponder writes after change, and the eyeglass that store in the RFID transponder this moment inserts the eyeglass that time numerical value is after change and inserts time numerical value.

In the embodiment of the present invention, when the eyeglass that is built-in with the RFID transponder inserted laryngoscope, at first the built-in RFID reader of laryngoscope read the eyeglass that stores in the RFID transponder and inserts time numerical value; When eyeglass insertion time numerical value was not in default scope, the RFID reader sent alarm information; When eyeglass insertion time numerical value was in default scope, the RFID reader inserted time numerical value by default rule change eyeglass; Then the RFID reader inserts time numerical value to the eyeglass that the RFID transponder writes after change.By the number of times that the fast detecting laryngeal mirror lens uses, the laryngeal mirror lens access times detection method of the embodiment of the present invention and device can prevent because laryngeal mirror lens is reused the cross-infection that causes, thus guarantee patient's life security.

The above has simply introduced the first embodiment of laryngeal mirror lens access times detection method of the present invention, below the second embodiment of laryngeal mirror lens access times detection method of the present invention is described in detail, see also Fig. 2, in the embodiment of the present invention, laryngeal mirror lens access times detection method the second embodiment comprises:

201, when the eyeglass that is built-in with the RFID transponder inserts laryngoscope, read the eyeglass that stores in the RFID transponder information of dispatching from the factory;

The RFID transponder can store the information of dispatching from the factory of eyeglass, when the eyeglass that is built-in with the RFID transponder inserts laryngoscope, the built-in RFID reader of laryngoscope can read the eyeglass that stores in the RFID transponder information of dispatching from the factory, the above-mentioned information of dispatching from the factory can comprise the content of the aspects such as factory number, the time of making the product or company's numbering of eyeglass, in eyeglass production, the above-mentioned information of dispatching from the factory is burnt to the RFID transponder.

202, search the eyeglass information of dispatching from the factory in the built-in eyeglass information database of laryngoscope, perform step 205 if search failure, otherwise perform step 203;

Read the eyeglass that stores in the RFID transponder and dispatch from the factory after information, can search the eyeglass information of dispatching from the factory in the built-in eyeglass information database of laryngoscope, perform step 205 if search failure, otherwise perform step 203.Can store one of aspects such as comprising factory number, the time of making the product or company's numbering or multinomial in above-mentioned eyeglass information database, in order to identify the identity of above-mentioned eyeglass; For example can, down to the factory number that stores eyeglass, when laryngoscope finds the factory number identical with eyeglass in the eyeglass information database, can determine that eyeglass is the product that positive factory produces in the eyeglass information database.

Need to prove, above-mentioned eyeglass information database can be set up when laryngoscope dispatches from the factory, can upgrade by the mode of network, bluetooth or USB, does not do herein restriction.

203, the built-in RFID reader of laryngoscope reads the eyeglass that stores in the RFID transponder and inserts time numerical value;

After determining that above-mentioned eyeglass is the product of positive factory production, the built-in RFID reader of laryngoscope can read the eyeglass that stores in the RFID transponder and insert time numerical value, and above-mentioned RFID reader and RFID transponder are used in conjunction with each other.

204, when eyeglass insertion time numerical value is not in default scope, execution step 205, otherwise perform step 209;

When eyeglass insertion time numerical value is not in default scope, illustrate that eyeglass was used, execution step 205, otherwise perform step 209.

205, the RFID reader sends alarm information;

Insert time numerical value not in default scope the time when the status incongruence of eyeglass closes the eyeglass that requires or read, the RFID reader can send alarm information.Above-mentioned default scope can be 0 to 2 time.

206, control center receives the alarm information that the RFID reader sends;

After the RFID reader sent alarm information, control center can receive the alarm information that the RFID reader sends.

207, control center sends warning information according to alarm information;

After control center receives the alarm information of RFID reader transmission, can send warning information according to alarm information, above-mentioned warning information can comprise picture and text prompting and/or auditory tone cues, for example can remind for the word of " eyeglass has exceeded access times ", can be also the sound prompting of predeterminated frequency.

208, control center closes laryngoscope after the default time;

After control center sends warning information according to alarm information, control center can close laryngoscope after the default time, for example can be set in warning information and send after 5 seconds and close laryngoscope, be not limited to herein 5 seconds of the embodiment of the present invention, but can set according to specific product.

209, the RFID reader changes eyeglass insertion time numerical value by default rule;

When the eyeglass insertion time numerical value that reads was in default scope, the RFID reader inserted time numerical value by default rule change eyeglass, and above-mentioned default rule can be the ascending order rule, can be also the descending rule, does not do herein restriction.

Below take an object lesson, above-mentioned process is described: suppose default scope as 0 to 2 time, the current insertion time numerical value that reads eyeglass is 1 time, this moment, eyeglass inserted time numerical value in default scope, when if default rule is the ascending order rule, eyeglass insertion time numerical value initial value is 0, eyeglass inserts time numerical value increases by 1, becomes 2; When if default rule is the descending rule, eyeglass insertion time numerical value initial value is 2, and eyeglass inserts time numerical value and reduces 1, becomes 0.

210, the RFID reader inserts time numerical value to the eyeglass that the RFID transponder writes after change.

After the RFID reader changes eyeglass insertion time numerical value by default rule, the RFID reader can insert time numerical value to the eyeglass that the RFID transponder writes after change, and the eyeglass that store in the RFID transponder this moment inserts the eyeglass that time numerical value is after change and inserts time numerical value.

In the embodiment of the present invention, when the eyeglass that is built-in with radio-frequency identification transponder inserted laryngoscope, the built-in RFID reader of laryngoscope read the eyeglass that stores in the RFID transponder and inserts time numerical value; If eyeglass inserts time numerical value not in default scope, the RFID reader sends alarm information, and eyeglass inserts time numerical value and eyeglass from change to the RFID transponder that write after inserts time numerical value otherwise the RFID reader changes by default rule.Number of times by the use of fast detecting laryngeal mirror lens, the laryngeal mirror lens access times detection method of the embodiment of the present invention and device can prevent because laryngeal mirror lens is reused the cross-infection that causes, thereby ensure patient's life security, step 201, step 202 and step 204 can further prevent reusing of eyeglass to adding of step 206 simultaneously, reduce the possibility that malpractice occurs.

The above is described in detail the second embodiment of laryngeal mirror lens access times detection method of the present invention, particularly the FID reader changes the process of eyeglass insertion time numerical value by default rule, below introduce laryngeal mirror lens access times checking device embodiment of the present invention, see also Fig. 3, in the embodiment of the present invention, laryngeal mirror lens access times pick-up unit embodiment comprises:

Reading unit 301, be used for when the eyeglass that is built-in with the RFID transponder inserts laryngoscope, reads the eyeglass that stores in the RFID transponder and insert time numerical value;

Judging unit 302, be used for judge that eyeglass inserts time numerical value whether in the scope of presetting;

Issue unit 303, be used for sending alarm information when eyeglass insertion time numerical value is not in default scope;

Change unit 304, be used for inserting time numerical value by default rule change eyeglass when eyeglass insertion time numerical value is in default scope;

Writing unit 305, be used for inserting time numerical value to the eyeglass that the RFID transponder writes after change.

Alternatively,

Device further can also comprise:

The second reading unit 306, be used for reading eyeglass that the RFID transponder the stores information of dispatching from the factory;

Search unit 307, be used for searching the eyeglass information of dispatching from the factory at the built-in eyeglass information database of laryngoscope;

The alert unit 308 that cancels the order, be used for sending alarm information and withdraw from testing process when searching unsuccessfully;

Receiving element 309, be used for receiving the alarm information that the RFID reader sends;

Alarm Unit 310, be used for sending warning information according to alarm information;

Closing unit 311, be used for closing laryngoscope after the default time.

The RFID transponder can store the information of dispatching from the factory of eyeglass, when the eyeglass that is built-in with the RFID transponder inserts laryngoscope, the second reading unit 306 can read the eyeglass that stores in the RFID transponder information of dispatching from the factory, the above-mentioned information of dispatching from the factory can comprise the content of the aspects such as factory number, the time of making the product or company's numbering of eyeglass, in eyeglass production, the above-mentioned information of dispatching from the factory is burnt to the RFID transponder.

The second reading unit 306 reads the eyeglass that stores in the RFID transponder and dispatches from the factory after information, search unit 307 and can search the eyeglass information of dispatching from the factory in the built-in eyeglass information database of laryngoscope, if search failure the alert unit 308 that cancels the order send alarm information and withdraw from testing process.Can store one of aspects such as comprising factory number, the time of making the product or construction number or multinomial in above-mentioned eyeglass information database, in order to identify the identity of above-mentioned eyeglass; For example can, down to the factory number that stores eyeglass, when laryngoscope finds the factory number identical with eyeglass in the eyeglass information database, can determine that eyeglass is the product that positive factory produces in the eyeglass information database.Above-mentioned alarm information can be: non-positive factory eyeglass, may cause ill effect, and please change the new eyeglass of positive factory.

Need to prove, above-mentioned eyeglass information database can be set up when laryngoscope dispatches from the factory, can upgrade by the mode of network, bluetooth or USB, does not do herein restriction.

After determining that above-mentioned eyeglass is the product of positive factory production, reading unit 301 can read the eyeglass that stores in the RFID transponder and insert time numerical value, then judging unit 302 judges that eyeglass inserts time numerical value whether in default scope, when the eyeglass insertion time numerical value that reads is not in default scope, the access times that eyeglass is described have exceeded default scope, and this moment, issue unit 303 can send alarm information.Above-mentioned default scope can be 0 to 2 time.

After issue unit 303 sent alarm information, receiving element 306 can receive the alarm information that the RFID reader sends.After receiving element 309 receives the alarm information of RFID reader transmission, Alarm Unit 310 can send warning information according to alarm information, above-mentioned warning information can comprise picture and text prompting and/or auditory tone cues, for example can remind for the word of " eyeglass has exceeded access times ", can be also the sound prompting of predeterminated frequency.After control center sends warning information according to alarm information, closing unit 311 can be closed laryngoscope after the default time, for example can be set in warning information and send after 5 seconds and close laryngoscope, be not limited to herein 5 seconds of the embodiment of the present invention, but can set according to specific product.

When the eyeglass insertion time numerical value that reads was in default scope, change unit 304 changed eyeglass by the rule of presetting and inserts inferior numerical value, and above-mentioned default rule can be the ascending order rule, can be also that descending is regular, does not do herein restriction.

Below take an object lesson, above-mentioned process is described: suppose default scope as 0 to 2 time, the current insertion time numerical value that reads eyeglass is 1 time, this moment, eyeglass inserted time numerical value in default scope, when if default rule is the ascending order rule, eyeglass insertion time numerical value initial value is 0, eyeglass inserts time numerical value increases by 1, becomes 2; When if default rule is the descending rule, eyeglass insertion time numerical value initial value is 2, and eyeglass inserts time numerical value and reduces 1, becomes 0.

Change unit 304 by after default rule change eyeglass insertion time numerical value, writing unit 305 can insert time numerical value to the eyeglass that the RFID transponder writes after change, and the eyeglass that store in the RFID transponder this moment inserts the eyeglass that time numerical value is after change and inserts time numerical value.

In the embodiment of the present invention, when the eyeglass that is built-in with the RFID transponder inserted laryngoscope, at first reading unit 301 read the eyeglass that stores in the RFID transponder and inserts time numerical value; Then judging unit 302 judges that eyeglass inserts time numerical value whether in default scope, when eyeglass insertion time numerical value is not in default scope, after issue unit 303 sends alarm information, receiving element 309 can receive the alarm information that the RFID reader sends, Alarm Unit 310 sends warning information according to alarm information, and then closing unit 311 can be closed laryngoscope after the default time; When eyeglass insertion time numerical value was in default scope, change unit 304 changed eyeglass by the rule of presetting and inserts inferior numerical value; Then writing unit 305 inserts time numerical value to the eyeglass that the RFID transponder writes after change.The number of times that uses by detecting laryngeal mirror lens, the laryngeal mirror lens access times detection method of the embodiment of the present invention and device can prevent because laryngeal mirror lens is reused the cross-infection that causes, thereby ensure patient's life security, simultaneously receiving element 309, Alarm Unit 310 and can further prevent reusing of eyeglass adding of closing unit 311, reduce the possibility that malpractice occurs.

One of ordinary skill in the art will appreciate that all or part of step that realizes in above-described embodiment method is to come the relevant hardware of instruction to complete by program, program wherein can be stored in a kind of computer-readable recording medium, the above-mentioned storage medium of mentioning can be ROM (read-only memory), disk or CD etc.

Above a kind of laryngeal mirror lens access times detection method provided by the present invention and device are described in detail, for one of ordinary skill in the art, thought according to the embodiment of the present invention, all will change in specific embodiments and applications, to sum up, this description should not be construed as limitation of the present invention.

Claims (12)

1. a laryngeal mirror lens access times detection method, is characterized in that, comprising:

When the eyeglass that is built-in with radio-frequency (RF) identification (RFID, Radio Frequency Identification) transponder inserted laryngoscope, the built-in RFID reader of laryngoscope read the eyeglass that stores in described RFID transponder and inserts time numerical value;

If described eyeglass inserts time numerical value not in default scope, described RFID reader sends alarm information, and eyeglass inserts time numerical value and eyeglass from change to described RFID transponder that write after inserts time numerical value otherwise described RFID reader changes by default rule.

2. laryngeal mirror lens access times detection method according to claim 1, is characterized in that, the eyeglass that stores in the built-in RFID reader of the described laryngoscope of step reads described RFID transponder also comprises before inserting time numerical value:

Read the eyeglass that stores in the described RFID transponder information of dispatching from the factory;

Search the described eyeglass information of dispatching from the factory in the built-in eyeglass information database of described laryngoscope, if search failure, send alarm information and withdraw from testing process.

3. laryngeal mirror lens access times detection method according to claim 1 and 2, is characterized in that, also comprises after the described RFID reader of step sends alarm information:

Control center receives the alarm information that described RFID reader sends;

Described control center sends warning information according to alarm information.

4. laryngeal mirror lens access times detection method according to claim 3, is characterized in that, also comprises after the described control center of step sends warning information according to alarm information:

Described control center closes laryngoscope after the default time.

5. laryngeal mirror lens access times detection method according to claim 4, is characterized in that, described default scope is 0 to 2 time.

6. according to claim 4 or 5 described laryngeal mirror lens access times detection methods, is characterized in that, described warning information comprises picture and text prompting and/or auditory tone cues.

7. laryngeal mirror lens access times detection method according to claim 6, is characterized in that, described default rule comprises the ascending order rule.

8. laryngeal mirror lens access times detection method according to claim 6, is characterized in that, described default rule comprises the descending rule.

9. a laryngeal mirror lens access times pick-up unit, is characterized in that, comprising:

Reading unit, be used for when the eyeglass that is built-in with the RFID transponder inserts laryngoscope, reads the eyeglass that stores in described RFID transponder and insert time numerical value;

Judging unit, be used for judging that described eyeglass inserts time numerical value whether in default scope;

Issue unit, be used for sending alarm information when described eyeglass insertion time numerical value is not in default scope;

Change unit, be used for inserting time numerical value by default rule change eyeglass when described eyeglass insertion time numerical value is in default scope;

Writing unit, be used for inserting time numerical value to the eyeglass that described RFID transponder writes after change.

10. laryngeal mirror lens access times pick-up unit according to claim 9, is characterized in that, described device also comprises:

The second reading unit, be used for reading eyeglass that described RFID transponder the stores information of dispatching from the factory;

Search unit, be used for searching the described eyeglass information of dispatching from the factory at the built-in eyeglass information database of described laryngoscope;

The alert unit that cancels the order, be used for sending alarm information and withdraw from testing process when searching unsuccessfully.

11. laryngeal mirror lens access times pick-up unit according to claim 9, is characterized in that, described device also comprises:

Receiving element, be used for receiving the alarm information that described RFID reader sends;

Alarm Unit, be used for sending warning information according to alarm information.

12. laryngeal mirror lens access times pick-up unit according to claim 9, is characterized in that, described device also comprises:

Closing unit, be used for closing laryngoscope after the default time.

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