CN203773332U - Data acquisition system for filling production line - Google Patents

Abstract

The utility model relates to a data acquisition system for a filling production line. The data acquisition system is based on a liquid or powder filling production line. The filling production line comprises a row material supply device, a soft water treatment device, a pre-dosing device, a preparation device and a filling device which are successively connected. The system further comprises a center control module. The center control module is provided with a raw material monitoring module, a soft water monitoring module, a pre-dosing monitoring module, a dosing monitoring module and a filling monitoring module in a connection mode. According to the utility model, through arranging the monitoring modules on each assembly of the filling production line, production data in each link of a production process can be acquired, the center control module can conveniently monitor the production process in real time in a comprehensive mode, problems can be found and solved timely, the defective rate is reduced, the quality is stabilized, at the same time, through monitoring and unified control, the cooperation motion among each link device can be coordinated, and the overall efficiency of the production process is comprehensively improved.

Description

A kind of data acquisition system (DAS) of filling production lines

Technical field

The utility model relates to industrial computer data acquisition and statistics, more specifically, relates to a kind of data acquisition system (DAS) of filling production lines.

Background technology

Be configured with filling and need to pass through multiple working procedure for Powdered or liquid product, because raw material itself has the advantages that mobility is higher.In process of production, flow is large, and speed is fast, and raw material use amount is large, and intermediate link shock-absorbing capacity is subject to device-restrictive, and surge capability is more weak relatively.Taking liquid detergent production line as example, its production run need to be passed through raw material dispensing, soft water processing, pre-batching, raw material configuration, middle finished product store and filling multiple step, but in the prior art, the separate work of equipment and system, the data sharing almost not having between system or the setting of looking into mutually in each operation.

On the other hand, in the workshop of modern enterprise, automaticity increases day by day, in order farthest to enhance productivity, improve production controllability, require production management personnel farthest each process that do not have of production run to be monitored and to be analyzed, to production run is carried out to overall control, control potential risk.

Utility model content

The purpose of this utility model, overcomes the deficiencies in the prior art exactly, and a kind of data acquisition system (DAS) of filling production lines is provided, and this system can be carried out overall monitor and management to each equipment of production line, to stable prod, raises the efficiency significant.

In order to achieve the above object, adopt following technical scheme:

A kind of data acquisition system (DAS) of filling production lines, based on the filling production lines of liquid or powder, described filling production lines comprises the feedstock supply unit, soft water treating apparatus, pre-batching set-up, device for formulating and the filling apparatus that connect successively, comprise Central Control Module, be connected with described Central Control Module:

Raw material monitoring modular, comprises pressure transducer, LOAD CELLS and level sensor;

Soft water monitoring modular, comprises that temperature sensor, turbidity take into account conductivity meter;

Pre-batching monitoring modular, comprises temperature sensor, pressure transducer, level sensor and the first speed probe;

Batching monitoring modular, comprises temperature sensor, pressure transducer, first flow meter, LOAD CELLS and the second speed probe;

Filling monitoring modular, comprises sensor for countering.

As a kind of specific embodiment, described feedstock supply unit comprises raw material storage tanks and feeding pipeline, and described raw material monitoring modular also comprises the temperature conditioning unit for controlling raw material storage tanks temperature, is provided with the second flowmeter on described feeding pipeline.

Further, described the second flow is counted mass flowmeter.

As a kind of specific embodiment, described soft water treating apparatus comprises original water inlet and soft water outlet, and described soft water monitoring modular also comprises for detection of the 3rd flowmeter of original water inlet flow, for detection of the 4th flowmeter of soft water outlet flow.

As a kind of specific embodiment, also comprise steam flow monitoring modular and compressed air require monitoring modular, described steam flow monitoring modular is connected with Central Control Module with compressed air require monitoring modular.

As a kind of specific embodiment, in the middle of also comprising, finished product stores monitoring modular, and described middle finished product stores monitoring modular and comprises pressure transducer and level sensor, and described middle finished product stores monitoring modular and is connected with Central Control Module.

As a kind of specific embodiment, also comprise process visualization monitoring module, described process visualization monitoring module comprises some the on-the-spot camera guns for detection of production run, described visual control module is connected with Central Control Module.

Compared with prior art, the beneficial effects of the utility model are:

The utility model by arranging monitoring module on each assembly of filling production lines, can realize the collection to each link production data in production procedure, be convenient to central control module monitoring industrial processes in real time comprehensively, be convenient to pinpoint the problems in time and deal with problems, reduce defect rate, stabilised quality can be coordinated the routing motion between each link equipment by monitoring unified control simultaneously, improves the whole efficiency of production run comprehensively.

Brief description of the drawings

Fig. 1 is the system architecture schematic diagram of the data acquisition system (DAS) of filling production lines described in the utility model.

Fig. 2 is flow process and the data acquisition schematic diagram of filling production lines filling apparatus described in the utility model.

Embodiment

Below in conjunction with the production run example of liquid detergent filling production lines, the utility model is described further.

Referring to Fig. 1, the data acquisition system (DAS) of filling production lines described in the utility model, based on the filling production lines of liquid or powder, described filling production lines comprises the feedstock supply unit 11 and 12 connecting successively, soft water treating apparatus 2, pre-batching set-up 3, batching set-up 4 and filling apparatus 5, in order to show pre-blending process, this routine feedstock supply unit comprises the first feedstock supply unit 11 and the second feedstock supply unit 12, described the first feeding mechanism 11 and 2 parallel connections of soft water treating apparatus, need pretreated raw material for the treatment of part, this data acquisition system (DAS) also comprises Central Control Module 100, Central Control Module 100 and office's control & monitor system 200, workshop field control is connected with surveillance 300, be connected with Central Control Module 100:

Raw material monitoring modular, comprises pressure transducer, LOAD CELLS, level sensor, and for detection of inlet amount and the memory space of feedstock supply unit, this routine raw material monitoring modular comprises the first raw material monitoring modular 13 and the second raw material monitoring modular 14.

In data acquisition system (DAS) described in the utility model, filling production lines relates to bulk raw material pipeline supply system, and each independent feedstock supply unit also comprises raw material storage tanks and feeding pipeline, and its Raw is in a liquid state or Powdered shape conventionally.Raw material monitoring modular is responsible for supervision and management to raw material, as pay close attention to the places of origin of raw materials, batch, quantity, entry time, the consistance with front raw materials inventory, minmum stock and the maximum inventroy quantity of raw materials inventory in normal production run, preservation condition etc.Raw material monitoring module monitors comprises the raw material quantity metering in when warehouse-in, fills and is permitted maximum tank farm stock (referring to tank system), the terms and conditions in storage system, and every terms of information when raw material supply.Because current raw material storage tanks is at former design aspect, fail to meet above-mentioned condition.Therefore, by increasing the hardware such as pressure transducer, LOAD CELLS and level sensor, the data such as the real-time storage of raw material, temperature, humidity are monitored.

Simultaneously, raw material monitoring modular also comprises the temperature conditioning unit for controlling raw material storage tanks temperature, on described feeding pipeline, be provided with the second flowmeter for monitoring inlet amount, due in fill process, use drum pump is power, therefore likely can produce negative pressure, and negative pressure can produce at raw material the bubble of the property separated out, that on this position, fill is mass flowmeter (E+H) for this reason.Main material tank field to each independently raw material storage tank according to the different cultivars of deposited raw material, physical property, carry out Real-Time Monitoring by the sensor that installs corresponding performance additional, and be the real-time material stock amount of head tank data by data real-time transform, these data can be sent into material inventory module.

To there being the head tank reload temperature control system needing, can ensure to preserve and Cui use state at Cui in the physical performance state of the raw material that raw material storage tanks is stored of needs.

Aspect software administration, feedstock supply unit increases separately data base administration framework as higher management, and this data base administration framework is a standalone feature component software that carries out Transaction Processing application under data acquisition system (DAS) with database.In conjunction with on-the-spot liquid level sensor, pressure transducer etc., to the raw material (referring to liquid state) that can not distinguish batch, carry out real-time quantity control, to the raw material (refer to solid or powdery but can carry with pipeline) that can distinguish batch, adopt RFID radio frequency identification system, from warehouse-in, by the using priciple of first-in first-out, preservation, tank farm stock control, outbound feed intake to scene, all carry out automatic real-time track.Described raw material monitoring modular also comprises the temperature conditioning unit for controlling raw material storage tanks temperature, and described first flow meter is arranged on feeding pipeline.

By above-mentioned setting, raw material monitoring modular, to raw material identification automatically itself, can be accomplished optimal effectiveness to keeping, reasonable minimum inventory, preservation condition etc.

Soft water monitoring modular 21, comprises that temperature sensor, turbidity take into account conductivity meter, for detection of temperature, turbidity and the conductance of soft water in soft water treating apparatus 2.

In liquid detergent production run, water treatment is actually one and now does used raw material system, and water is maximum in the ratio of product mid point, and the feature of soft water is that intermediate storage amount is low, and quality control all requires very high in speed or precision.The control of soft water production final mass is mainly conductivity control, and pilot process control is mainly filtering system and melded system control, and soft water production control also has a feature to be, soft water quality changes generally can present exponential form variation.

For this reason, data acquisition system (DAS) described in the utility model is also comprising soft water monitoring modular 21, take into account the detecting instruments such as conductivity meter by set temperature sensor, turbidity, to former water water inlet, coarse filtration, essence filter, Ions Absorption is softening, part or all of parameter in ozonization, hot soft water temperature is carried out Real-Time Monitoring.Soft water treating apparatus 21 comprises original water inlet and soft water outlet, and described soft water monitoring modular also comprises the 3rd flowmeter of original water inlet flow, the 4th flowmeter for detection of soft water outlet flow.

Increasing on the basis of detection hardware, soft water monitoring modular 21 also comprises a set of embedded automated data analysis component software based on data acquisition system (DAS), automatically analyzes for the data that monitoring is drawn.This assembly by real time with data acquisition system (DAS) in the normal data preserved contrast, determine whether to carry out filtering system backwash, replacing, Ions Absorption system regeneration, supplement, replacing, ozonation system maintenance, hot soft water heating system etc.Soft water monitoring modular 21 also carries out accumulative total working time to equipment in operational process simultaneously, automatically safeguards or corresponding manual maintenance prompting, ensures that with this soft water does not go out any problem.

Pre-batching monitoring modular 31, comprises temperature sensor, pressure transducer, and level sensor and the first speed probe, for detection of temperature, pressure, liquid level and the stirring rate of pre-molten process in pre-batching set-up 3.

Pre-batching is a previous work of preparation, for liquid detergent is produced, is mainly molten in advance, and object is to have the raw material of some special technical requirements to dissolve in advance by some indissolubles or in the time dissolving.Due to the property of some raw materials, on dissolving, there is its specific technical requirement, as temperature, pressure, stirring rate, time etc.Pre-batching monitoring modular is by set temperature sensor, pressure transducer, and level sensor and the first speed probe are realized the collection to above-mentioned parameter, also on pre-molten discharge nozzle, increases the hardware of turbidity, proportion, conductivity detection simultaneously.In addition, the monitoring modular of preparing burden in advance also comprises a set of embedded predissolve data analysis component software based on data acquisition system (DAS).

Preparation monitoring modular 41, comprises temperature sensor, pressure transducer, flowmeter, LOAD CELLS and the second speed probe, for detection of temperature, pressure, the flow of preparing finished product in device for formulating, weight and stirring rate;

Device for formulating 4 is most important systems, product quality, and quantity is to be decided by this system running state to a great extent.

The main every data paid close attention in production run of device for formulating 4, it gathers data such as temperature, pressure, stirring rate, time, raw material quantity in process for preparation by temperature sensor, pressure transducer, flowmeter, LOAD CELLS and the second speed probe.

Device for formulating 4 is monitored comprehensively, and content comprises start/stopped status monitoring, equipment is normal/and abnomal condition monitoring, equipment each key point status monitoring in service.Equipment main raw material(s) consumption in service and the proportion of goods damageds.Equipment work in every parameter (as temperature, pressure, etc.)

Inking device 4 also has a very important aspect, is equipped with a fail-safe system, and due in fine chemistry industry is produced, the ratio that accounts for of manually makeing mistakes is quite large, and, once make mistakes, lose quite large.

Fail-safe system is a software, corresponding to concrete production technology, in the time producing some products, mistake proofing software will be automatically according to producing odd numbers, according to recipe database, determine required raw material quantity, and whether self-verifying stock can produce for this odd numbers.

Entering in production run, fail-safe system just enters the technique mistake proofing stage, be mainly to the production of this work odd numbers from preparation pot number, a whole set of from cleaning, sterilizes, add raw material, heat, stir, the production run of cooling, discharging, each link is done one by the real time data collecting and technological data bank and is contrasted in real time.When meeting the technological process of formulating in technological data bank raw material all after recipe database is checked, system is just filled and is permitted to enter next step running.

Fail-safe system software is a functional module equally, is included into equally in data acquisition system (DAS).

In the middle of the data acquisition system (DAS) of the filling production lines of the present embodiment also comprises, finished product stores monitoring modular 51, in the middle of described, finished product storage monitoring modular 51 comprises pressure transducer and level sensor, for detection of internal pressure, the liquid level position of middle finished product hold-up vessel 5, the further storage capacity of finished product hold-up vessel 5 in the middle of monitoring, in the middle of described, finished product storage monitoring modular 51 is connected with Central Control Module 100, is a functional module under data acquisition system (DAS).

When the middle finished product preparing enters after middle finished product hold-up vessel 5, in fact middle finished product hold-up vessel 5 forms one from being formulated into the buffer system of filling pilot process, its main role one is to make as early as possible preparation pot empty, enter well the production of next pot, improve the utilization factor of preparation pot, the 2nd, play the effect of filling large storage tank.

Middle finished product hold-up vessel is mainly capacity management, and from preparation angle, the volume that must have living space when discharging stores semi-manufacture, from packaging angle, when filling, will be clear that to also have how many material can be filling, like this, no matter unpack from wrappage, to becoming mouthful packing and binding to have a perfect real-time control.

Filling monitoring modular 61, comprises sensor for countering, for detection of the quantity of filling finished product in filling apparatus 6.

The production line that filling apparatus 6 is made up of the equipment of many difference in functionalitys, different product lines has different device combinations.But substantially by Wrapping material supply, filling, press inner cap, press the equipment such as enclosing cover, extruding, carton supply, vanning, packing, conveyer line to form, because different units is provided by different producers, each other, coordinate and have certain difficulty.

In data acquisition system (DAS) described in the utility model, realize and jointly controlling by be provided with filling monitoring modular 61 on filling apparatus 6, target is to allow many unit energies mutually coordinate, and brings into play overall maximum effect.

Filling monitoring modular 61 carries out Real-time Collection by the data detecting devices such as sensor for countering are set to the service data of each unit, wherein sensor is except the sensor that original equipment has, the sensor for countering of each monitoring point is also housed, and from each dispersing apparatus, gather real time data (Fig. 2) by various mode (specifically determining the unified device interior status data acquisition module that is designated of this example according to each board actual conditions).The information gathering comprises operating states of the units, speed, percentage of A-class goods etc., filling monitoring modular is by after each unit information acquisition, control rice fast 100 through the unified center that is collected to of filling monitoring modular 61, data acquisition system (DAS) is unified controls each operating states of the units, and described sensor for countering can be arranged in filling apparatus 6 between each equipment, for monitoring the quantity of middle finished product of each idiographic flow.

Above-mentioned to packing the monitoring of production equipment in filling apparatus 6, content comprises: start/stopped status monitoring, and equipment is normal/abnomal condition monitoring, equipment each key point status monitoring in service, equipment main raw material(s) consumption in service and the proportion of goods damageds etc.

In addition, the data acquisition system (DAS) of filling production lines described in the utility model, also comprise steam flow monitoring modular 80 and compressed air require monitoring modular 90, described steam flow monitoring modular 80 is connected with Central Control Module with compressed air require monitoring modular 90.

In order to realize the visual control to production run, also comprise process visualization monitoring module 7, described process visualization monitoring module comprises some the on-the-spot camera guns 71 for detection of production run, and described visual control module 7 is connected with Central Control Module 100.

Based on above-mentioned each monitoring modular, in this routine liquid detergent production line, facing measuring point enters factory from raw material and starts until pouring process, Central Control Module 100 is according to the various data that drawn above, calculate in real time utilization rate of raw materials, energy utilization rate, the equipment rate of utilization of work hour, Central Control Module 100 can be according to inner mathematical model, analyzes the best integrated operation parameter under various different production statuses.More particularly, produce node at each, use various relative instruments, gather corresponding production data, finally send into the Central Control Module 100 in liquid detergent workshop, and calculate in real time secondary data, secondary data is according to the real time data collecting, be converted into the data in a total data storehouse under data acquisition system (DAS), its effect is mutually to call in each functional module, finally, by software programming, multiple devices overall operation is controlled and adjusted, ensure the logic control in multiple devices operation rhythm process.

Meanwhile, in above-mentioned filling production lines, in each independent process, in the equipment of independent operating, each all can be used as main body operation, can on each platform, realize the automatic control of this board, realizes decentralised control.Such as the feedstock supply unit in production line, intermediate tank, pre-batching set-up, soft water treating apparatus, batching set-up, middle finished product hold-up vessel, a confession bottle machine, bottle placer, inner cap machine, enclosing cover machine, extruder, recrater etc., each has the control system of oneself, under released state, can independent operating.

And simultaneously, due to large capacity fluid product, flow is large, speed is fast, as inharmonious operation, is the effect being difficult to substantially, therefore, is finally unified to coordinate and control by the Central Control Module of data acquisition system (DAS).

On actual motion, each platform independent equipment is all subject to the unified management of upper level control system, the real time data (comprising operating work in every parameter and state out of service) of the equipment of each platform independent, all can deliver to the data processing section in data acquisition system (DAS).Data acquisition system (DAS) can be coordinated each board operation.If in the time that a certain platform independent equipment needs repairing, maintains or breaks down, data acquisition system (DAS) can put into operation by automatic command backup device.

In equipment automatic switching procedure, data acquisition system (DAS) can be moved and cacheable situation according to overall device by the relevant associate device of instruction, automatically adjusts and produces work in every parameter.Make it to reach optimal operational condition.

Preferably, above-mentionedly can only management system also gather energy resource consumption data simultaneously gathering each point production data.Energy resource consumption data comprise water (former water, process water is as insulation hot water, soft water, hot soft water), electricity (comprising electric consumption on lighting and direct driving force electricity consumption, equipment operation electricity consumption and equipment electricity consumption indirectly, as refrigeration electricity consumption), pressurized air, steam etc.

System is by each Real-Time Monitoring soft water equipment running status and soft water quality Monitoring Data, the relevant illumination in equipment region, air conditioning electricity to packaging and preparation two large using electricity systems, use electricity consumption monitoring data that computerized electric watt hour meter obtains, Monitoring Data to full workshop steam consumption, the Monitoring Data of full workshop pressurized air consumption is sent into energy monitor module, these data monitorings can carry out in whole day as required for 24 hours.Be to gather by corresponding exclusive data collection, interface and software in principle to the collection of data, and directly convert analog quantity to numeral by transmitter, transmit by RS485 bus 10, finally reach the energy monitor module of data acquisition system (DAS).

The mode jointly controlling by above-mentioned bilayer, the various raw materials consumptions aborning of data acquisition system (DAS) real time record production line, and according to sensor auto inventory starting material, the input of packaging material and finished product output, materials difference in computation process, and calculate in real time the proportion of goods damageds.

In the time that the production schedule is assigned, can data acquisition system (DAS) self-verifying stock's starting material meet the needs of order, reaches the needed starting material quantity of order output as failed, the operating personnel that can automatic-prompting place an order, and show difference number.

Meanwhile, data acquisition system (DAS) also records each main production equipments working time, to general maintainability maintenance, as periodic oil change, lubricated.Consumable accessory is held in periodic replacement, and carry out automatic operation and show work schedule, and Parts Inventory inventory.After each maintenance, input record by maintenance mans, data center's meeting automatic archiving, shows maintenance record, materials, drawing etc.

System is being collected automated data analysis after the information needing, and rationally data and the maintenance plan of operation are provided further.

Above-mentioned automated data analysis is a software function module, as taken out signal from certain machine frequency converter, finds that running current is to present successional index to rise, and can analyze is likely that mechanical driving part goes wrong; From heat-exchange system, detect thermal source pressure, temperature does not become corresponding with heat exchange amount, and should point out is likely that heat interchanger needs maintaining; During soft water is processed, turbidity index declines, and likely filtrator will be safeguarded, conductivity rises, and Ions Absorption tower will be regenerated etc.

For the storage aspect of consumable accessory, because any equipment all will be maintained, any equipment has consumable accessory, and the frequency of these maintenances and wearing detail all can present certain rule in statistics, data acquisition system (DAS) is by the statistics to these maintain and replace records, set up spare part database based on statistics in full plant data center, reduce maintenance cost as far as possible and ensure the highest equipment operating efficiency to realize; To ensure in the time forcing down Parts Inventory, ensure again at not spare part and stopping work for want of of when maintenance.Meanwhile, based on this database, after maintenance, maintenance mans input maintenance record each time, and by data center's automatically classifying and filing, upper, while once keeping in repair, maintenance mans need only fuzzy input equipment phenomenon.Repair prompt will retrieve the repair message that done automatically for maintenance mans' reference, and according to the equipment of automatically recording automatic working time.Send the position that needs the prompting of maintenance and need maintenance, the information such as content.

Should be appreciated that, the utility model is not limited to above-mentioned embodiment, every various changes of the present utility model or modification are not departed to spirit and scope of the present utility model, if these are changed and within modification belongs to claim of the present utility model and equivalent technologies scope, the utility model also means and comprises these changes and modification.

Claims (7)

1. the data acquisition system (DAS) of a filling production lines, based on the filling production lines of liquid or powder, described filling production lines comprises the feedstock supply unit, soft water treating apparatus, pre-batching set-up, device for formulating and the filling apparatus that connect successively, it is characterized in that, comprise Central Control Module, be connected with described Central Control Module:

Raw material monitoring modular, comprises pressure transducer, LOAD CELLS and level sensor;

Soft water monitoring modular, comprises that temperature sensor, turbidity take into account conductivity meter;

Pre-batching monitoring modular, comprises temperature sensor, pressure transducer, level sensor and the first speed probe;

Batching monitoring modular, comprises temperature sensor, pressure transducer, first flow meter, LOAD CELLS and the second speed probe;

Filling monitoring modular, comprises sensor for countering.

2. the data acquisition system (DAS) of filling production lines as claimed in claim 1, it is characterized in that, described feedstock supply unit comprises raw material storage tanks and feeding pipeline, described raw material monitoring modular also comprises the temperature conditioning unit for controlling raw material storage tanks temperature, is provided with the second flowmeter on described feeding pipeline.

3. the data acquisition system (DAS) of filling production lines as claimed in claim 2, is characterized in that, described the second flow is counted mass flowmeter.

4. the data acquisition system (DAS) of filling production lines as claimed in claim 1, it is characterized in that, described soft water treating apparatus comprises original water inlet and soft water outlet, and described soft water monitoring modular also comprises for detection of the 3rd flowmeter of original water inlet flow, for detection of the 4th flowmeter of soft water outlet flow.

5. the data acquisition system (DAS) of filling production lines as claimed in claim 1, it is characterized in that, also comprise steam flow monitoring modular and compressed air require monitoring modular, described steam flow monitoring modular is connected with Central Control Module with compressed air require monitoring modular.

6. the data acquisition system (DAS) of filling production lines as claimed in claim 1, it is characterized in that, in the middle of also comprising, finished product stores monitoring modular, and described middle finished product stores monitoring modular and comprises pressure transducer and level sensor, and described middle finished product stores monitoring modular and is connected with Central Control Module.

7. the data acquisition system (DAS) of filling production lines as claimed in claim 1, it is characterized in that, also comprise process visualization monitoring module, described process visualization monitoring module comprises some the on-the-spot camera guns for detection of production run, and described visual control module is connected with Central Control Module.