CN109459124A - Weighing system and method and storage medium - Google Patents

Abstract

The invention discloses a kind of weighing system and method and storage medium, the weighing system includes being installed on the intracorporal weighing sensor of scale, the control instrument with each weighing sensor communication connection；Control instrument detects that there are when failure sensor in each weighing sensor, the weight output valve of the normal weighing sensor of state in the distribution of weight coefficient and each weighing sensor of parameter information and pre-set weighing sensor based on the failure sensor calculates and generates whole weighing magnitude.The present invention is realized in the case where being changed without failure weighing sensor by the self study of the weighing data of weighing system, is persistently weighed and keep higher weighing accuracy, to avoid the loss caused by replacing because of weighing sensor failure or not in time.

Description

Weighing system and method and storage medium

Technical field

The present invention relates to a kind of weighing system and method and storage medium, especially digital weighing system and method and Storage medium.

Background technique

Digital weighing system by digital weighing sensor, digital weighing display control instrument, weighing table and is led at present The combination of the weigh assemblies such as cable is interrogated to constitute.Wherein it is logical to constitute number for digital weighing sensor and digital weighing display control instrument Interrogate network.

After weighing system completes calibration and usage for a period of time, if the weighing performance failure of part number weighing sensor, For example communication failure occurs for weighing sensor, and the temperature value that the temperature detecting module inside weighing sensor detects is beyond sensing The absolute operating temperature range or actual field operating temperature of device, for weighing sensor due to overload, zero point is overproof etc., thus Show weight output valve inaccuracy it is unstable when, it is necessary to detection and replacement problem weighing sensor in time, otherwise can be due to Weighing sensor communication failure and stop weighing or scales metering performance is overproof and influence the scale of entire weighing system Accuracy of measurement in turn results in irremediable economy and reputation loss.

But at present in weighing system, replacement weighing sensor must stop the weighing operation of weighing system, so reducing The service efficiency of weighing system, while replacing weighing sensor and also needing to dismount the operation such as weighing platform, it is also needed again after replacement It is demarcated, this all considerably increases the maintenance time and cost of weighing system.

Said circumstances are directed to, patent CN201210513928.0 proposes a kind of small neck in the part according to each sensor Domain come estimate failure sensor weight output algorithm.But this algorithm realizes complicated, user's application inconvenience, and this The problem of precision is inadequate in algorithm application, can not efficiently solve said circumstances.

Summary of the invention

The technical problem to be solved by the present invention is in order to overcome weighing system in the prior art in the weighing biography of replacement failure When sensor, the defects of low efficiency, maintenance time is long and cost is high, a kind of weighing system and method is provided and storage is situated between Matter is realized by the self study of the weighing data of weighing system in the case where being changed without failure weighing sensor, lasting to claim Again and higher weighing accuracy is kept, to avoid the loss caused by replacing because of weighing sensor failure or not in time.

The present invention is to solve above-mentioned technical problem by following technical proposals:

Weighing system of the invention includes: to be installed on the intracorporal weighing sensor of scale, communicates and connects with each weighing sensor The control instrument connect；

Control instrument detects in each weighing sensor there are when failure sensor, is based on pre-set weighing and sensing The weight output valve of the normal weighing sensor of state in the distribution of weight coefficient and each weighing sensor of device is calculated and is generated Whole weighing magnitude.

Heretofore described failure sensor refers to because of mechanical-physical component failures, electronic component disabler, weighing Be unsatisfactory for caused by parameter mismatch, software function failure and other reasons metrological legislation require or be unsatisfactory for user it is actually active precisely The weighing sensor of the functional requirement of weighing.

Heretofore described distribution of weight coefficient can be but not limited to weighing sensor all in entire weighing system In the output of each weighing sensor account for the percent value of whole weighing amount, furthermore those skilled in the art can also be according to calculating need To use the parameter of the other types or format that can be used in estimating overall weight value as distribution of weight coefficient.

It should be noted that distribution of weight coefficient described in the present embodiment not only can be parameter or numerical value, but also can be with It is by the way that calculated result is calculated using algorithm or function etc., that is to say, that distribution of weight coefficient at this time can be characterized as Algorithm or function etc..

The present invention utilizes the combination of the judgement of distribution of weight coefficient and failure sensor, thus in certain weighing sensors When can fail, the weight of failure sensor can be estimated to calculate whole weighing magnitude, not needing more emat sensor can Uninterruptedly persistently weigh to realize and keep higher weighing accuracy, avoid failing because of weighing sensor or it is timely and effective more Change caused economic loss and waste.

Preferably, when detecting at least one of the Communications failure of weighing sensor, temperature over-range or weight overload, it is described Weighing sensor is failure sensor.

Preferably, when control instrument detects that the state of each weighing sensor is normal,

The distribution of weight coefficient and calculation times are initialized, weighing is executed and handles and export whole weighing magnitude, or

It detects the weighing weight value stabilization of current weighing sensor and the sum of all weighing weight values alreadys exceed weighing platform Weighing capacityWhen, wherein n is the quantity of all weighing sensors, is based on preset distribution of weight coefficient and calculation times With the weighing weight value of current each weighing sensor, calculates and update the distribution of weight coefficient, and update the meter simultaneously Number is calculated, weighing is executed and handles and export whole weighing magnitude.

Wherein the calculation times are the numbers of calculated weight breadth coefficient.The initialization is to assign distribution of weight coefficient Value is the numerical value of default or factory default distribution of weight coefficient after system electrification, while calculation times being zeroed.

The weighed quantity value that each weighing sensor obtains is treated as by whole weighing amount by weighing processing in the present invention Value, the present invention are not intended to limit the concrete mode of weighing processing, and those skilled in the art can be using any existing weighing processing Mode and mode are come the processing weighed.

Furthermore heretofore described weighing capacity is the sum of capacity based on weighing sensors all in weighing platform and is arranged. When meeting update distribution of weight coefficient, pass through weighing weight value, calculation times and the weight of current each weighing sensor Breadth coefficient updates distribution of weight coefficient, while calculation times are by adding one, to record new calculation times.

Preferably, the control instrument detects in each weighing sensor there are failure sensor, and failure sensor Quantity be less than all weighing sensor quantity half when, based on the distribution of weight coefficient of pre-set weighing sensor with And in each weighing sensor the normal weighing sensor of state weight output valve, calculate and generate whole weighing magnitude.

Preferably, the parameter information of the failure sensor is exported.

The parameter information includes but is not limited to the address number of weighing sensor, production sequence number, weighing capacity and essence Spend the information such as grade and fault message.

For the present invention in order to guarantee weighing precision, the quantity of failure sensor is preferably controlled in all weighing sensor quantity Within half.

Preferably, pass through formula

It calculates and generates whole weighing magnitude w ', wherein w is the sum of the weight output valve of the normal weighing sensor of state, and S is The sum of the distribution of weight coefficient of each failure sensor.

Preferably, pass through formula

It calculates and updates the distribution of weight coefficient S_ik, wherein i is calculation times, and n is the quantity of the weighing sensor, f(S_(i-1)k, i) be distribution of weight coefficient and calculation times correlation function, k ∈ [1, n].

Wherein the present invention is not intended to limit the way of realization of the correlation function of the distribution of weight coefficient and calculation times, ability Field technique personnel can use different correlation functions based on actual needs, such as can use f (S_(i-1)k, i) and=S_(i-1)k×i Deng.

Weighing method of the invention the following steps are included:

It detects in each weighing sensor there are when failure sensor, the weight based on pre-set weighing sensor The weight output valve of the normal weighing sensor of state in breadth coefficient and each weighing sensor calculates and generates whole weighing amount Value.

Preferably, when detecting at least one of Communications failure, temperature over-range or the weight overload of weighing sensor, institute Stating weighing sensor is failure sensor.

Preferably, when detecting that the state of each weighing sensor is normal,

The distribution of weight coefficient and calculation times are initialized, weighing is executed and handles and export whole weighing magnitude, or

It detects the weighing weight value stabilization of current weighing sensor and the sum of all weighing weight values alreadys exceed weighing platform Weighing capacityWhen, wherein n is the quantity of all weighing sensors, is based on preset distribution of weight coefficient and calculation times With the weighing weight value of current each weighing sensor, calculates and update the distribution of weight coefficient, and update the meter simultaneously Number is calculated, weighing is executed and handles and export whole weighing magnitude.

Preferably, detect that there are failure sensors in each weighing sensor, and the quantity of failure sensor is less than institute When having the half of weighing sensor quantity, distribution of weight coefficient and each weighing based on pre-set weighing sensor are passed The weight output valve of the normal weighing sensor of state in sensor calculates and generates whole weighing magnitude.

Preferably, the parameter information of the failure sensor is exported.

Preferably, pass through formula

It calculates and generates whole weighing magnitude w ', wherein w is the sum of the weight output valve of the normal weighing sensor of state, and S is The sum of the distribution of weight coefficient of each failure sensor.

Preferably, pass through formula

It calculates and updates the distribution of weight coefficient S_ik, wherein i is calculation times, and n is the quantity of the weighing sensor, f(S_(i-1)k, i) be distribution of weight coefficient and calculation times correlation function, k ∈ [1, n].

Storage medium of the invention includes the program of storage, wherein controls the storage medium in described program operation Place device executes weighing method as described above.

The positive effect of the present invention is that:

The present invention, can be according to the weighing and sensing of storage inside in weighing system when part weighing sensor performance failure The breadth coefficient of device estimates the weight of the failure weighing sensor to calculate the weight value of whole scale, therefore realizes and be not required to Replacing weighing sensor can continue to weigh and keep the weighing system of higher weighing accuracy, and institute passes to avoid because of weighing Sensor fails or without loss caused by timely and effective replacement.

Weighing system of the invention realizes uninterrupted weighing, and no matter whether weighing sensor is effective, is being changed without weighing In the case of sensor, the weighing data of degree of precision can be still exported.Especially in trade settlement or non-trade settlement Weighing system in have very big practical application value, dimension can be greatly saved under the requirement for meeting client's weighing accuracy Protect time and cost.

Detailed description of the invention

Fig. 1 is the schematic diagram of the digital platform scale weighing system of the embodiment of the present invention 1.

The schematic diagram of the digital batching weighing system of the position Fig. 2 the embodiment of the present invention 2.

Specific embodiment

The present invention is further illustrated below by the mode of embodiment, but does not therefore limit the present invention to the reality It applies among a range.

Weighing system and weighing method of the invention has uninterrupted and self-learning function, when weighing sensor performance is not lost Before effect, Weighing control instrument reads effective weighing data of each weighing sensor in real time, and is weighed and be distributed according to its history Coefficient calculates the weighing track of each sensor and correlation in digital weighing platform by self study, to update and store each biography The breadth coefficient of sensor.

Below by embodiment as described below, the implementation that illustrates the present invention.

Embodiment 1

As shown in Figure 1, the digital platform scale weighing system of the present embodiment is mainly by the digital weighing and sensing of weighing carrier Isosorbide-5-Nitrae Device 2, bus communication cable 3, weighing instrument 4 and input/output module 5.

Wherein 4 digital weighing sensors 2 of the present embodiment successively communication connection, and be connected to by bus communication cable 3 Weighing instrument 4.Digital weighing sensor 2 is not connected by terminal box in the present embodiment, in another embodiment can also be with It is connected using terminal box.And communication network that digital weighing sensor connects and composes can also be star in another embodiment The common communication connection network such as l network, daisy chain network, however it is not limited to the communication network connection type in the present embodiment.

And the communication interface between weighing instrument and digital weighing sensor or communication association are not intended to limit in the present embodiment View, can be used such as RS232, RS485, RS422, CAN, DeviceNet, Profibus, ProfiNet, EtherNet, The communication interfaces such as Zigbee, BlueTooth and communications protocol can also can be used for weighing instrument and weighing sensor using any Between wired or wireless communication mode.

The weighing data that digital weighing sensor 2 will test in the present embodiment is sent to weighing instrument by communication cable 3 Table 4, weighing instrument 4 obtain after being filtered, sum and handling by the weight data of receive 4 digital weighing sensors 2 Whole weighing magnitude be used for display control.

Wherein weighing instrument 4 detects the working condition of 4 digital weighing sensors 2 by communication network.And this implementation In example whole weighing magnitude can also be exported using input/output module 5.

If all digital weighing sensors 2 and weighing instrument 4 are worked by 3 normal communication of communication cable, control instrument 4 into One step judges whether to meet the weighing breadth coefficient that condition updates each digital weighing sensor, if meeting condition, in The cycle-index i of the calculating breadth coefficient of portion's storage, the historical rethinking coefficient S of each sensor₁₁…S_1n,…,S_(i-1)1… S_(i-1)nAnd the weight value w of current each sensor_i1…w_in, learn automatically and fit next new sensor breadth coefficient S_i1…S_in.Finally carry out weighing processing.

When part number weighing sensor performance failure and when failure sensor total number is less than 4, weighing instrument 4 Whole weighing magnitude is estimated according to the weighing sensor breadth coefficient of storage, to be implemented without replacement weighing sensor It persistently weighs and keeps higher weighing accuracy, while can also inform the relevant information of user's failure sensor, can choose By input/output module 5 by sensor fault information back-up to remote server, weighing system is monitored in real time for user Operation conditions.

In the present embodiment for there are failure sensor weighing processing specific processing method the following steps are included:

Step 11, detect the working condition of each weighing sensor, including weighing sensor with the presence or absence of Communications failure, Temperature over-range or weight overload.

Step 12, when detecting failure sensor, the address number, production sequence number and failure of failure sensor are obtained The information such as information.The failure sensor can be exported after step 13 or in step 12 in another embodiment Address number, the production information such as sequence number and fault message.

Step 13, the weight output valve of preset distribution of weight coefficient and other weighing sensors passes through in weighing instrument 4 Formula calculates whole weighing magnitude,

It calculates and generates whole weighing magnitude w ', wherein w is the sum of the weight output valve of the normal weighing sensor of state, and S is The sum of the distribution of weight coefficient of each failure sensor.

In the present embodiment when all weighing sensors are normal, the specific processing method packet of distribution of weight coefficient update processing Include following steps:

Step 111, detect that the working condition of each weighing sensor, including weighing sensor are lost with the presence or absence of communication It loses, the overload of temperature over-range or weight.

Step 112, when all weighing sensors are normal, if desired when the intervention such as artificial calibration, to the distribution of weight Coefficient and calculation times initialization, such asWherein n is the quantity of all weighing sensors, It is no to then follow the steps 113.

Step 113, detect that the weighing weight value of current weighing sensor is stable and all weighing weight values and More than the weighing capacity of weighing platformWhen, wherein n is the quantity of all weighing sensors.

Pass through formula

It calculates and updates the distribution of weight coefficient S_ik, wherein i is calculation times, and n is the quantity of the weighing sensor, f(S_(i-1)k, i) be distribution of weight coefficient and calculation times correlation function, k ∈ [1, n].

Then calculation times i=i+1.

After distribution of weight coefficient update, weighing processing is finally executed again.

In the embodiment of another True k Scale Weighing System, the frame of the weighing platform and weighing sensor of truck scale composition with Digital platform scale is similar in the present embodiment, so can equally be applicable on the basis of meeting truck scale structure and weighing requires The weighing method of the present embodiment.

Embodiment 2

As shown in Fig. 2, the digital batching weighing system of the present embodiment includes feeding warehouse Isosorbide-5-Nitrae digital weighing sensor 2, claim Heavy burder storehouse 3, bus communication cable 4, Weighing control instrument 5, instrument I/O control module 7, I/O control module 8, input and output mould Block 6 forms.

The control module of instrument I/O described in the present embodiment 7 is responsible for the control to feeding warehouse, and I/O control module 8 is responsible for weighing The control in storehouse.All digital weighing sensors 2 and Weighing control instrument 5 establish communication connection by communication cable 4.

Digital weighing sensor 2 is connected by terminal box in the present embodiment, can also be connected without using terminal box.And it is real Applying the communication network that digital weighing sensor in example connects and composes can also be the common communication such as star network, daisy chain network Connect network, however it is not limited to the communication network connection type in the present embodiment.

And the communication that the present embodiment is not limited in the same manner as in Example 1 between weighing instrument and digital weighing sensor yet connects Mouth or communications protocol, can be used any wired or wireless telecommunications side that can be used between weighing instrument and weighing sensor Formula.

Weighing process in the present embodiment is the weight signal output of each digital weighing sensor 2 by communication cable 4 It is transferred to Weighing control instrument 5.Weighing control instrument 5 filters the weight data of receive 4 digital weighing sensors 2 The whole weighing magnitude obtained after wave, summation and processing is for being shown.

And Weighing control instrument 5 calculates the weight of material of weighing silo 3 by internal processes, according to preset level come Decide whether control instrument I/O control module 7 (including charging control, controlling alarm etc.) output, then I/O control module 8 is It is no that blowing is carried out to weighed material, for subsequent process or carry out packing processes.

In above-mentioned workflow, the present embodiment uses weighing processing as described in example 1 above and distribution of weight coefficient More new technological process, wherein Weighing control instrument 5 detects the working condition of 4 digital weighing sensors 2 by communication network.And this In embodiment whole weighing magnitude can also be exported using input/output module 6.

If all digital weighing sensors 2 and Weighing control instrument 5 are worked by 4 normal communication of communication cable, weighing control Instrument 5 processed further determines whether to meet the weighing breadth coefficient that condition updates each digital weighing sensor, if meeting condition, Then according to the cycle-index i of the calculating breadth coefficient of storage inside, the historical rethinking coefficient S of each sensor₁₁…S_1n,…, S_(i-1)1…S_(i-1)nAnd the weight value w of current each sensor_i1…w_in, learn automatically and fit next new sensor Breadth coefficient S_i1…S_in.Finally carry out weighing processing.

When part number 2 performance failure of weighing sensor under weighing platform and failure sensor total number≤2, instrument according to The distribution of weight coefficient estimate of storage inside goes out the whole weighing magnitude of the weighing platform, so that being implemented without more emat sensor can hold It is continuous to weigh and keep higher weighing accuracy, while informing the relevant information of the corresponding weighing platform failure sensor of user, it can choose By instrument input/output module 6 by sensor fault information back-up to remote server, weighing system is monitored in real time for user The operation conditions of system.

Although furthermore the present embodiment and embodiment 1 are all only 4 digital weighing sensors, the present embodiment and implementation Example 1 is not limited to 4 digital weighing sensors, and the present embodiment and embodiment 1 are to guarantee weighing precision requirement, in the present embodiment and Select weighing sensor quantity at least more than being equal to 3 in embodiment 1, such as 6,8,12 or greater number etc..

By above to the description of weighing method it is found that those skilled in the art can be understood that the present invention can It is realized by the mode of software and necessary hardware platform, based on this understanding, technical solution of the present invention is substantially The part that the prior art contributes can be embodied in a manner of software product in other words, the computer software product It can store in storage medium, including but not limited to ROM/RAM (read-only memory/random access memory), magnetic disk, CD Deng, including some instructions use is so that one or more computer equipment (can be personal computer, server or network Equipment etc.) execute method described in certain parts in each embodiment or embodiment of the invention.

Weighing process of the invention can retouch in the general context of computer-executable instructions executed by a computer It states, such as program module.Generally, program module include execute particular task or realize particular abstract data type program, Object, component, data structure etc..The present invention can also be practiced in a distributed computing environment, in these distributed computing rings In border, by executing task by the connected remote processing devices of communication network.In a distributed computing environment, program mould Block can be located in the local and remote computer storage media including storage equipment.

And the program module that weighing system includes in the present invention is other than division mode as shown in the examples, and it can With the needs of deployed environment, hardware or software platform according to device or program module etc., is further segmented, integrated or again It is new to divide.

Although specific embodiments of the present invention have been described above, it will be appreciated by those of skill in the art that these It is merely illustrative of, protection scope of the present invention is defined by the appended claims.Those skilled in the art is not carrying on the back Under the premise of from the principle and substance of the present invention, many changes and modifications may be made, but these are changed Protection scope of the present invention is each fallen with modification.

Claims (15)

1. a kind of weighing system characterized by comprising

It is installed on the intracorporal weighing sensor of scale, the control instrument with each weighing sensor communication connection；

Control instrument detects in each weighing sensor there are when failure sensor, based on pre-set weighing sensor The weight output valve of the normal weighing sensor of state in distribution of weight coefficient and each weighing sensor calculates and generates whole scale Weight value.

2. weighing system as described in claim 1, which is characterized in that detect that the Communications failure of weighing sensor, temperature are super When at least one of limit or weight overload, the weighing sensor is failure sensor.

3. weighing system as described in claim 1, which is characterized in that control instrument detects the state of each weighing sensor When normal,

The distribution of weight coefficient and calculation times are initialized, weighing is executed and handles and export whole weighing magnitude, or

It detects that the weighing weight value of current weighing sensor is stable and the sum of all weighing weight values alreadys exceed the title of weighing platform Weight capacityWhen, wherein n is the quantity of all weighing sensors, based on preset distribution of weight coefficient and calculation times and is worked as The weighing weight value of preceding each weighing sensor calculates and updates the distribution of weight coefficient, and updates the calculating time simultaneously Number executes weighing and handles and export whole weighing magnitude.

4. weighing system as described in claim 1, which is characterized in that the control instrument detects in each weighing sensor There are failure sensor, and when the quantity of failure sensor is less than the half of all weighing sensor quantity, based on presetting Weighing sensor distribution of weight coefficient and each weighing sensor in the normal weighing sensor of state weight output Value calculates and generates whole weighing magnitude.

5. weighing system as described in claim 1, which is characterized in that export the parameter information of the failure sensor.

6. weighing system according to any one of claims 1 to 5, which is characterized in that pass through formula

It calculates and generates whole weighing magnitude w ', wherein w is the sum of the weight output valve of the normal weighing sensor of state, and S is each The sum of the distribution of weight coefficient of failure sensor.

7. weighing system as claimed in claim 3, which is characterized in that pass through formula

It calculates and updates the distribution of weight coefficient S ik, wherein i is calculation times, and n is the quantity of the weighing sensor, f (S_(i-1)k, i) be distribution of weight coefficient and calculation times correlation function, k ∈ [1, n].

8. a kind of weighing method, which comprises the following steps:

It detects in each weighing sensor there are when failure sensor, the distribution of weight based on pre-set weighing sensor The weight output valve of the normal weighing sensor of state in coefficient and each weighing sensor calculates and generates whole weighing magnitude.

9. weighing method as claimed in claim 8, which is characterized in that when Communications failure, the temperature for detecting weighing sensor Transfinite or weight overload at least one of when, the weighing sensor be failure sensor.

10. weighing method as claimed in claim 8, which is characterized in that when detecting that the state of each weighing sensor is normal,

The distribution of weight coefficient and calculation times are initialized, weighing is executed and handles and export whole weighing magnitude, or

It detects that the weighing weight value of current weighing sensor is stable and the sum of all weighing weight values alreadys exceed the title of weighing platform Weight capacityWhen, wherein n is the quantity of all weighing sensors, based on preset distribution of weight coefficient and calculation times and is worked as The weighing weight value of preceding each weighing sensor calculates and updates the distribution of weight coefficient, and updates the calculating time simultaneously Number executes weighing and handles and export whole weighing magnitude.

11. weighing method as claimed in claim 8, which is characterized in that detect in each weighing sensor that there is failure passes Sensor, and the quantity of failure sensor be less than all weighing sensor quantity half when, be based on pre-set weighing and sensing The weight output valve of the normal weighing sensor of state in the distribution of weight coefficient and each weighing sensor of device is calculated and is generated Whole weighing magnitude.

12. weighing method as claimed in claim 8, which is characterized in that export the parameter information of the failure sensor.

13. such as the described in any item weighing methods of claim 8-12, which is characterized in that pass through formula

It calculates and generates whole weighing magnitude w ', wherein w is the sum of the weight output valve of the normal weighing sensor of state, and S is each The sum of the distribution of weight coefficient of failure sensor.

14. weighing method as claimed in claim 10, which is characterized in that pass through formula

It calculates and updates the distribution of weight coefficient S_ik, wherein i is calculation times, and n is the quantity of the weighing sensor, f (S_(i-1)k, i) be distribution of weight coefficient and calculation times correlation function, k ∈ [1, n].

15. a kind of storage medium, which is characterized in that the storage medium includes the program of storage, wherein run in described program When control the storage medium where device execute weighing method as described in any one of claim 7-12.