CN104217236A - Sensor, field instrument and methods and equipment for managing sensor - Google Patents

Abstract

The invention relates to a sensor, a field instrument and methods and equipment for managing the sensor. Multidimensional codes are printed on the sensor, and the parameters of the sensor are coded into the multidimensional codes. The field instrument comprises a transmitter and the sensor. One method for managing the sensor comprises the following steps: coding the parameters of the sensor into the multidimensional codes; and printing the multidimensional codes on the surface of the sensor. The other method for managing the sensor comprises the following steps: reading the multidimensional codes to acquire the parameters of the sensor; and executing operation relevant to the sensor by using the parameters. The equipment for managing the sensor comprises a parameter reading component for reading the multidimensional codes to acquire the parameters of the sensor, and an operation executing component for executing operation relevant to the sensor by using the parameters.

Description

The method and apparatus of sensor, field instrument and management of sensor

Technical field

The present invention relates to instrument field, be specifically related to sensor, with the equipment of the field instrument of this sensor, the method for management of sensor and management of sensor.

Background technology

Each sensor has parameter separately, as the sequence number that dispatches from the factory, model specification, calibration parameter etc., and these parameters, except being stored in the product database of producer, also need to be indicated on the nameplate of sensor, to facilitate user to read.In addition,, when the old sensor of the replacing sensor with new, operator need to read the parameter on new sensor nameplate, then this parameter is input in corresponding component, realizes the setting of parameter.Such method of operating is more loaded down with trivial details, and easily produces mistake.In addition, be arranged on the sensor in field, because natural conditions are severe, sensor nameplate surface is easily stained, makes to print superincumbent word fuzzy or damaged, thereby impact is read.Once cannot read, user need to contact producer, and producer inquires these parameters according to the sequence number of sensor in product database, then by the parameter feedback inquiring to user, this is very consuming time.

Therefore, need a kind of technology that at least can partly address the above problem.

Summary of the invention

Provide hereinafter about brief overview of the present invention, to the basic comprehension about some aspect of the present invention is provided.Should be appreciated that this general introduction is not about exhaustive general introduction of the present invention.It is not that intention is determined key of the present invention or pith, and nor is it intended to limit the scope of the present invention.Its object is only that the form of simplifying provides some concept, usings this as the preorder in greater detail of discussing after a while.

A fundamental purpose of the present invention is, provides a kind of sensor, with the equipment of the field instrument of this sensor, the method for management of sensor and management of sensor.

According to an aspect of the present invention, provide a kind of sensor, wherein, comprised the multidimensional code being printed on this sensor, the parameter of sensor is encoded in multidimensional code.

According to another aspect of the present invention, provide a kind of field instrument, this field instrument comprises: transmitter; And above-mentioned sensor.

According to a further aspect of the invention, provide a kind of method of management of sensor, having comprised: by the parameter coding of sensor in multidimensional code; And multidimensional code is printed on the surface of sensor.

According to a further aspect of the invention, provide a kind of method of management of sensor, wherein, be printed with multidimensional code on sensor, the parameter of sensor is encoded in multidimensional code, and the method comprises: read multidimensional code to obtain the parameter of sensor; And utilize parameter to carry out the operation relevant with sensor.

According to a further aspect of the invention, provide a kind of equipment of management of sensor, wherein, on sensor, be printed with multidimensional code, the parameter of sensor is encoded in multidimensional code, and the equipment of management of sensor comprises: parameter fetch unit, for reading multidimensional code to obtain the parameter of sensor; And operation execution unit, for utilizing parameter to carry out the operation relevant with sensor.

By the detailed description to most preferred embodiment of the present invention below in conjunction with accompanying drawing, these and other advantage of the present invention will be more obvious.

Accompanying drawing explanation

Below with reference to the accompanying drawings illustrate embodiments of the invention, can understand more easily above and other objects, features and advantages of the present invention.Parts in accompanying drawing are just in order to illustrate principle of the present invention.In the accompanying drawings, same or similar technical characterictic or parts will adopt same or similar Reference numeral to represent.

Fig. 1 illustrates the block diagram of the configuration of sensor according to an embodiment of the invention;

Fig. 2 illustrates the block diagram of the configuration of field instrument according to an embodiment of the invention;

Fig. 3 is the process flow diagram that the method for management of sensor according to an embodiment of the invention is shown;

Fig. 4 is the process flow diagram that the method for management of sensor is according to another embodiment of the invention shown;

Fig. 5 is the process flow diagram that the method for management of sensor is according to still another embodiment of the invention shown;

Fig. 6 is the schematic diagram illustrating according to the method for the management of sensor of an example of the present invention;

Fig. 7 is the block diagram that the equipment of management of sensor according to an embodiment of the invention is shown;

Fig. 8 is the block diagram that the equipment of management of sensor is according to another embodiment of the invention shown; And

Fig. 9 is the block diagram that the equipment of management of sensor is according to still another embodiment of the invention shown.

Embodiment

Embodiments of the invention are described with reference to the accompanying drawings.The element of describing in an accompanying drawing of the present invention or a kind of embodiment and feature can combine with element and feature shown in one or more other accompanying drawings or embodiment.It should be noted that for purposes of clarity, in accompanying drawing and explanation, omitted expression and the description of unrelated to the invention, parts known to persons of ordinary skill in the art and processing.

Fig. 1 illustrates the block diagram of the configuration of sensor 100 according to an embodiment of the invention.

As shown in Figure 1, sensor 100 comprises printing multidimensional code 102 thereon.For example, can print multidimensional code 102 in the appropriate location of sensor 100 outsides.For example, multidimensional code 102 can be printed on the outside surface of sensor 100, to facilitate, reads.

Multidimensional code 102 can be Quick Response Code or three-dimensional code.

With respect to one dimension code (that is, bar code), the advantage of Quick Response Code is remarkable.For example, can be directly by information codings such as English, Chinese, numeral, symbol and figures in Quick Response Code, therefore, the memory space of Quick Response Code is large, can deposit 1K character.In addition, Quick Response Code also has the following advantages: confidentiality is high, and level of security is high, and cost of manufacture is low.In addition, Quick Response Code resistant is damaged, the information comprising in even still can reading Quick Response Code stained 50% in the situation that, and this is very favorable for the instrument of site work.

In addition, also can adopt three-dimensional code to replace Quick Response Code, or three-dimensional code is used together with Quick Response Code.Can be encoded onto the quantity of information containing much information in can be encoded onto Quick Response Code in three-dimensional code.Except the information that Quick Response Code can comprise, audio frequency, video, various countries' word etc. information also can be encoded in three-dimensional code.For example, in the situation that using three-dimensional code, the video relevant with sensor 100 (operation instructions video, maintenance explanation video) can be coded directly onto in three-dimensional code.

Preferably, the parameter of sensor 100 is encoded in this multidimensional code 102.The parameter of sensor 100 comprises following in multinomial at least one: sequence number, model, specification, calibration parameter and material explanation.But easily understand, the parameter of sensor 100 is not limited to this, and can be any parameter being associated with sensor that those skilled in the art can expect.

In addition, for being linked to the chained address of the database relevant with sensor 100, also can be encoded into multidimensional code 102.The database relevant with sensor 100 comprises following in multinomial at least one: instructions, installation manual, calibration parameter and maintenance history.But, easily understanding, the content of database is not limited to this, and can comprise any content that those skilled in the art can expect.

Fig. 2 illustrates the block diagram of the configuration of field instrument 200 according to an embodiment of the invention.

For not fuzzy the spirit and scope of the present invention, other possibility parts of field instrument 200 in Fig. 2, have been omitted.As shown in Figure 2, field instrument 200 can comprise transmitter (transmitter) 202 and sensor 204.Sensor 204 can be sensor 100 as shown in Figure 1.Transmitter 202 is for changing the output signal of sensor 204.Sensor 202 can reflect the signal of flow for sensing.For example, field instrument 200 can be flowmeter, tensimeter, densitometer etc.But, easily understanding, field instrument 200 is not limited to this, and can be any field instrument that building block comprises transmitter 202 and sensor 204.

When sensor 204 is arranged in field instrument 200, spendable concrete means or mode are well known to those skilled in the art, and do not repeat them here.

Fig. 3 is the process flow diagram that the method 300 of management of sensor according to an embodiment of the invention is shown.

As shown in Figure 3, in step S302, can be by the parameter coding of sensor in multidimensional code.

In step S304, multidimensional code can be printed on sensor, for example, multidimensional code is printed on the surface of sensor.

Multidimensional code can be Quick Response Code or three-dimensional code.Or, can on sensor 100, print Quick Response Code as required, or print three-dimensional code, or not only print Quick Response Code but also print three-dimensional code.

The parameter of sensor comprises following in multinomial at least one: sequence number, model, specification, calibration parameter and material explanation.

Fig. 4 is the process flow diagram that the method 300 ' of management of sensor is according to another embodiment of the invention shown.

Step S302 in Fig. 4 is identical with step S302 and S304 in Fig. 3 with S304.

In step S302, can be by the parameter coding of sensor in multidimensional code.

In step S303, can will be encoded to multidimensional code for being linked to the chained address of the database relevant with sensor.The database relevant with sensor comprises following in multinomial at least one: instructions, installation manual, calibration parameter and maintenance history.

In step S304, multidimensional code can be printed on sensor.

Fig. 5 is the process flow diagram that the method 500 of management of sensor according to an embodiment of the invention is shown.

As shown in Figure 5, in step S502, read multidimensional code to obtain the parameter of sensor, wherein, be printed with multidimensional code on sensor, the parameter of sensor is encoded in multidimensional code.Multidimensional code can be Quick Response Code or three-dimensional code.Can on sensor, print as required Quick Response Code, print three-dimensional code, or print Quick Response Code and print again three-dimensional code.The parameter of sensor comprises following in multinomial at least one: sequence number, model, specification, calibration parameter and material explanation.

In step S504, utilize the parameter getting to carry out the operation relevant with sensor.

For example, in some cases, user need to check the parameter of sensor.In these cases, can be by parameter display on suitable display, be for example presented on the mobile telephone display or graphoscope that user uses.

In addition, because the parameter of the sensor of two different models may be different, even the parameter of the sensor of two same model also may be different, therefore at sensor installation or more may need to utilize the parameter getting in step S502 to reconfigure sensor itself during emat sensor, or utilize the parameter pair parts that are associated with sensor that get to reconfigure.

Preferably, for being linked to the chained address of the database relevant with sensor, be also encoded into multidimensional code.The database relevant with sensor comprises following in multinomial at least one: instructions, installation manual, calibration parameter and maintenance history.

In these cases, can be linked to the database relevant with sensor by chained address, show the content of database.For example, the content of database can be presented on suitable display, for example, be presented on the mobile telephone display or graphoscope that user uses, thereby user can view the contents such as instructions, installation manual, calibration parameter and maintenance history.

In addition, because the parameter of the sensor of two different models may be different, even the parameter of the sensor of two same model also may be different, therefore at sensor installation or more may need to utilize the parameter in database to reconfigure sensor itself during emat sensor, or utilize the parameter pair parts that are associated with sensor in database to reconfigure.

In addition,, because database is renewable, specific sensor has changed attribute and corresponding parameter along with service time in the situation that, user is the parameter in new database more, to facilitate the parameter of checking afterwards after this renewal.

Fig. 6 is the schematic diagram illustrating according to the method for the management of sensor of an example of the present invention.

As shown in Figure 6, first, for example, can set up corresponding database for each sensor by manufacturer or other main bodys.This database can be arranged on server.This database can comprise the relevant information of this sensor, for example, and product description, user manual, mounting list, calibration parameter, maintenance record, relevant software installation procedure etc.After having set up database, the server at this database or this database place is associated with corresponding chained address.

The process that is created on the multidimensional code of printing on sensor is below described.This multidimensional code can comprise two category informations: the parameter of sensor, for example, and sequence number, product specification, calibration factor, material explanation, certification of explosion protection etc., these parameters are coded directly onto in multidimensional code; And the chained address of this product database.But, easily understand, as required, this multidimensional code can only comprise parameter or only comprise chained address.Then, can for example, by suitable means (, thering is the computing machine that multidimensional code generates software), to the parameter of sensor and chained address, encode to generate multidimensional code.Then, this multidimensional code is printed to (for example, laser printing) to sensor (for example,, on surface of sensor).

Then, for example, by thering is the equipment (, thering is the mobile phone of multidimensional code read functions, special multidimensional code reader etc.) of multidimensional code read functions, read multidimensional code to obtain information wherein.Thereby, can get parameter and the chained address of sensor.By this chained address, can be linked to corresponding database, thereby get the relevant information of this sensor, for example, product description, user manual, mounting list, calibration parameter, maintenance record, relevant software installation procedure etc.

When user need to read parameter and chained address, user only need have the equipment with multidimensional code read functions, and enable the corresponding application programs on this equipment, scanning is printed on the multidimensional code on sensor, just can access correlation parameter and the chained address of sensor.If user need to download the data such as product description, just only need to click this chained address, can enter and download interface, and without entering again the webpage producing or sell the company of this sensor, select sensor type, searching again related description etc.

In addition, in the situation that this sensor is as parts of field instrument, when user calibrates field instrument, user can read this scanning barcode by having the equipment of multidimensional code read functions, obtain chained address wherein, enter corresponding database, and carry out the calibration record in new database more by the result of calibration.

In addition, when manufacturer or the arrangement stock of dealer, operator can be by thering is multidimensional code read functions equipment (for example, being connected with the computing machine of multidimensional code scanner) multidimensional code on read sensor obtains parameter and chained address wherein, and be linked to corresponding database by this chained address, complete stock and arrange.Thereby do not need manually to input again, greatly saved time and human cost.

Fig. 7 is the block diagram that the equipment 700 of management of sensor according to an embodiment of the invention is shown.

As shown in Figure 7, the equipment 700 of management of sensor can comprise parameter fetch unit 702 and operation execution unit 704.

On sensor, be printed with multidimensional code, the parameter of sensor is encoded in multidimensional code.Parameter fetch unit 702 can read the multidimensional code that is printed on sensor to obtain the parameter of sensor.For example, parameter reading part 702 can be multidimensional code scanner or with the mobile phone of camera, still, easily understands, parameter fetch unit 702 is not limited to this.In fact, any device that possesses image-acquisition functions and image analysis function is all likely configured to parameter fetch unit 702.

The parameter that operation execution unit 704 can utilize parameter fetch unit 702 to read is carried out the operation relevant with sensor.

Fig. 8 is the block diagram that the equipment 700 ' of management of sensor is according to another embodiment of the invention shown.

The equipment 700 ' of management of sensor can comprise parameter fetch unit 702 and operation enforcement division 704 '.

Operation execution unit 704 comprises display unit 704-2, the first arrangement components 704-4 and the second arrangement components 704-6.

The parameter that display unit 704-2 can display parameter fetch unit 702 reads.For example, display unit 704-2 can be liquid crystal display, cathode-ray tube display, plasma scope etc., still, easily understands, display unit 704-2 is not limited to this, and can be any device that can show information.

The parameter that the first arrangement components 704-4 can utilize parameter fetch unit 702 to read is carried out sensors configured.For example, the first arrangement components 704-4 can be the device with the function of the parameter of upgrading sensor.In one example, the first arrangement components 704-4 be can be mutual with sensor device, this device receives the parameter of autoregressive parameter fetch unit 702, and can utilize this parameter configuration sensor.

The parameter that the second arrangement components 704-6 can utilize parameter fetch unit 702 to read configures the parts that are associated with sensor.For example, the second arrangement components 704-6 can be the device with the function of the parameter of upgrading the parts that are associated with sensor.In one example, the second arrangement components 704-6 be can be mutual with following parts device, these parts are the parts that are associated with sensor.Then, the parts that the second arrangement components 704-6 can utilize this parameter configuration to be associated with sensor.

Easily understand, operation execution unit 704 not necessarily comprises display unit 704-2, the first arrangement components 704-4 and the second arrangement components 704-6 simultaneously, and can only include one of them parts or two parts.

Fig. 9 is the equipment 700 that management of sensor is according to still another embodiment of the invention shown " block diagram.

The equipment 700 of management of sensor " can comprise parameter fetch unit 702 and operation execution unit 704 ".

Be similar to the equipment 700 ' of the management of sensor shown in Fig. 8, operation execution unit 704 " can comprise display unit 704-2, the first arrangement components 704-4 and the second arrangement components 704-6.

In some cases, for being linked to the chained address of the database relevant with sensor, be also encoded into multidimensional code.Herein, multidimensional code can be Quick Response Code or three-dimensional code.Or, can on sensor, print as required Quick Response Code, print three-dimensional code, or print Quick Response Code and print again three-dimensional code.

In this case, operation execution unit 704 " also comprise link member 704-8.

Parameter fetch unit 702 can read multidimensional code to obtain parameter and chained address wherein.Link member 704-8 can be linked to the database relevant with sensor by chained address.

The parameter that display unit 704-2 can display parameter fetch unit 702 reads the content that shows database.For example, display unit 704-2 can be liquid crystal display, cathode-ray tube display, plasma scope etc., still, easily understands, display unit 704-2 is not limited to this, and can be any device that can show information.

The parameter that the first arrangement components 704-4 can utilize parameter fetch unit 702 to read is carried out sensors configured and/or is utilized the content configuration sensor of database.For example, the first arrangement components 704-4 can be the device with the function of the parameter of upgrading sensor.

The parts that the parameter that the second arrangement components 704-6 can utilize parameter fetch unit 702 to read configures the parts that are associated with sensor and/or utilizes the content configuration of database to be associated with sensor.For example, the second arrangement components 704-6 can be the device with the function of the parameter of upgrading the parts that are associated with sensor.

Preferably, the parameter of sensor comprises following in multinomial at least one: sequence number, model, specification, calibration parameter and material explanation.Preferably, the database relevant with sensor comprises following in multinomial at least one: instructions, installation manual, calibration parameter and maintenance history.

Easily understand, operation execution unit 704 not necessarily comprises display unit 704-2, the first arrangement components 704-4, the second arrangement components 704-6 and link member 704-8 simultaneously, and can only include one of them parts or some parts.

The present invention has following advantage: read conveniently, avoid misreading, not easy to wear, even if part bar code is destroyed, does not also affect and read; Than the limited nameplate of information showing, adopt multidimensional code can comprise more quantity of information; Can cancel original nameplate and one-dimensional bar code, save cost.

Those of ordinary skill in the art should be understood that the embodiment exemplifying at this is exemplary, and the present invention is not limited thereto.

In this manual, the statements such as " first ", " second " and " N " are for described feature is distinguished on word, clearly to describe the present invention.Therefore, should not be regarded as and there is any determinate implication.

As an example, each step of said method and all modules of the said equipment and/or unit may be embodied as software, firmware, hardware or its combination, and as the part in relevant device.When all modules in said apparatus, the unit mode by software, firmware, hardware or its combination is configured, spendable concrete means or mode are well known to those skilled in the art, and do not repeat them here.

As an example, in the situation that realizing by software or firmware, can to the computing machine with specialized hardware structure, the program that forms this software be installed from storage medium or network, this computing machine, when various program is installed, can be carried out various functions etc.

In the above in the description of the specific embodiment of the invention, the feature of describing and/or illustrating for a kind of embodiment can be used in same or similar mode in one or more other embodiments, combined with the feature in other embodiments, or substitute the feature in other embodiments.

Should emphasize, term " comprises/comprises " existence that refers to feature, key element, step or assembly while using herein, but does not get rid of the existence of one or more other features, key element, step or assembly or add.

In addition, the time sequencing of describing during method of the present invention is not limited to is to specifications carried out, also can be according to other time sequencing ground, carry out concurrently or independently.The execution sequence of the method for therefore, describing in this instructions is not construed as limiting technical scope of the present invention.

Although described the present invention and advantage thereof in detail, be to be understood that in the situation that do not exceed the spirit and scope of the present invention that limited by appended claim and can carry out various changes, alternative and conversion.And scope of the present invention is not limited only to the specific embodiment of the described process of instructions, equipment, means, method and step.One of ordinary skilled in the art will readily appreciate that from disclosure of the present invention, can use the essentially identical function of corresponding embodiment or process, equipment, means, method or the step acquisition result essentially identical with it, that existing and will be developed future carried out with at this according to the present invention.Therefore, appended claim is intended to comprise such process, equipment, means, method or step in their scope.

Claims (21)

1. a sensor (100), comprises the multidimensional code (102) being printed on described sensor (100), and the parameter of described sensor (100) is encoded in described multidimensional code (102).

2. sensor according to claim 1 (100), wherein, is also encoded into described multidimensional code (102) for being linked to the chained address of the database relevant with described sensor (100).

3. sensor according to claim 1 (100), wherein, described multidimensional code (102) comprises following in multinomial at least one: Quick Response Code and three-dimensional code.

4. according to the sensor described in any one in claims 1 to 3 (100), wherein, the parameter of described sensor (100) comprises following in multinomial at least one: sequence number, model, specification, calibration parameter and material explanation.

5. according to the sensor described in any one in claims 1 to 3 (100), wherein, the database relevant with described sensor (100) comprises following in multinomial at least one: instructions, installation manual, calibration parameter and maintenance history.

6. a field instrument (200), comprising:

Transmitter (202); And

According to the sensor described in any one in claim 1 to 5 (204,100).

7. a method for management of sensor, comprising:

The parameter coding of described sensor is arrived in multidimensional code (S302); And

Described multidimensional code is printed on described sensor (S304).

8. method according to claim 7, also comprises:

To be encoded to described multidimensional code (S303) for being linked to the chained address of the database relevant with described sensor.

9. method according to claim 7, wherein, described multidimensional code comprises following in multinomial at least one: Quick Response Code and three-dimensional code.

10. according to the method described in any one in claim 7 to 9, wherein, the parameter of described sensor comprises following in multinomial at least one: sequence number, model, specification, calibration parameter and material explanation.

11. according to the method described in any one in claim 7 to 9, and wherein, the database relevant with described sensor comprises following in multinomial at least one: instructions, installation manual, calibration parameter and maintenance history.

The method of 12. 1 kinds of management of sensor wherein, is printed with multidimensional code on described sensor, and the parameter of described sensor is encoded in described multidimensional code, and described method comprises:

Read described multidimensional code to obtain the parameter (S502) of described sensor; And

Utilize described parameter to carry out the operation (S504) relevant with described sensor.

13. methods according to claim 12, wherein, at least one step during the described step of utilizing described parameter to carry out the operation relevant with described sensor comprises the following steps:

Show described parameter;

Utilize sensor described in described parameter configuration; And

The parts that utilize described parameter configuration to be associated with described sensor.

14. methods according to claim 12, wherein, are also encoded into described multidimensional code for being linked to the chained address of the database relevant with described sensor.

15. methods according to claim 14, wherein, the described step of utilizing described parameter to carry out the operation relevant with described sensor comprises the following steps:

By described chained address, be linked to the database relevant with described sensor; And

Show the content of described database, and/or utilize sensor described in the content configuration of described database, and/or the parts that utilize the content configuration of described database to be associated with described sensor.

16. methods according to claim 12, wherein, described multidimensional code comprises following in multinomial at least one: Quick Response Code and three-dimensional code.

17. according to claim 12 to the method described in any one in 16, and wherein, the parameter of described sensor comprises following in multinomial at least one: sequence number, model, specification, calibration parameter and material explanation.

18. according to claim 12 to the method described in any one in 16, and wherein, the database relevant with described sensor comprises following in multinomial at least one: instructions, installation manual, calibration parameter and maintenance history.

The equipment of 19. 1 kinds of management of sensor wherein, is printed with multidimensional code on described sensor, and the parameter of described sensor is encoded in described multidimensional code, and the equipment of described management of sensor comprises:

Parameter fetch unit (702), for reading described multidimensional code to obtain the parameter of described sensor; And

Operation execution unit (704,704 ', 704 "), for utilizing described parameter to carry out the operation relevant with described sensor.

The equipment of 20. management of sensor according to claim 19, wherein, described operation execution unit (704 ') comprises at least one parts in following a plurality of parts:

Display unit (704-2), for showing described parameter;

The first arrangement components (704-4), for utilizing sensor described in described parameter configuration; And

The second arrangement components (704-6), for the parts that utilize described parameter configuration to be associated with described sensor.

The equipment of 21. management of sensor according to claim 20, wherein, is also encoded into described multidimensional code for being linked to the chained address of the database relevant with described sensor,

Described parameter fetch unit (702) is also configured to read described multidimensional code to obtain described chained address,

Described operation execution unit (704 ") also comprise: link member (704-8), for be linked to the database relevant with described sensor by described chained address;

Wherein, described display unit (704-2) is also configured to show the content of described database, described the first arrangement components (704-4) is also configured to utilize sensor described in the content configuration of described database, the parts that described the second arrangement components (704-6) is also configured to utilize the content configuration of described database to be associated with described sensor.