CN211209727U - Glass kiln temperature information integrated system - Google Patents

Abstract

The utility model discloses a glass kiln temperature information integration system, which comprises a main exchanger, at least one server, at least one sub-exchanger and at least one industrial personal computer, wherein the industrial personal computers correspond to the sub-exchangers one by one, the industrial personal computers are connected with the sub-exchangers, the sub-exchangers are connected with the main exchanger, and the main exchanger is connected with the server; the industrial personal computers correspond to the branch companies one by one, each industrial personal computer is distributed in the corresponding branch company, each industrial personal computer is provided with a sub-memory and an independent network card, the sub-memories are used for storing temperature data of the corresponding branch companies, the independent network cards read the temperature data in the sub-memories and convert the temperature data into signals which can be recognized by the sub-switches, the main switches and the servers, and the signals are transmitted to the servers sequentially through the sub-switches and the main switches. Adopt the utility model discloses, can unify upload and the storage to many places data, realize the resource sharing of data.

Description

Glass kiln temperature information integrated system

Technical Field

The utility model relates to a glass production field especially relates to a glass kiln temperature information integrated system.

Background

In the field of glass production, the profit of a single product of a glass bottle is not high, and therefore, site selection generally needs to be close to a client to reduce the expenditure of freight charges, thereby reducing the production cost and further improving the profit.

For a bottle and can glass production group, all subsidiaries are distributed scattered, the production data sharing capacity among all subsidiaries is insufficient, and the production data of a furnace on site cannot be monitored and controlled in time. Especially the most critical temperature data of the kiln, the over-standard operation can directly lead to the reduction of the service life of the kiln.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a simple structure's glass kiln temperature information integrated system is provided, can unify upload and the storage to many ground data, realize the resource sharing of data.

In order to solve the technical problem, the utility model provides a glass kiln temperature information integrated system, include: the system comprises a main switch, at least one server, at least one sub-switch and at least one industrial personal computer, wherein the industrial personal computers correspond to the sub-switches one by one and are connected with the sub-switches, the sub-switches are connected with the main switch, and the main switch is connected with the server; the industrial personal computers correspond to the branch companies one by one, each industrial personal computer is distributed in the corresponding branch company, each industrial personal computer is provided with a sub-memory and an independent network card, the sub-memories are used for storing temperature data of the corresponding branch companies, the independent network cards read the temperature data in the sub-memories and convert the temperature data into signals which can be recognized by the sub-switches, the main switches and the servers, and the signals are transmitted to the servers sequentially through the sub-switches and the main switches.

As an improvement of the above scheme, a ProfiNet bus protocol is configured in the independent network card, and the independent network card reads temperature data through the ProfiNet bus protocol.

As an improvement of the scheme, an SQ L database is arranged in the sub-memory, and the sub-memory stores temperature data through the SQ L database.

As an improvement of the scheme, a kiln temperature control system is configured in the industrial personal computer, and the industrial personal computer collects temperature data of corresponding branch companies through the kiln temperature control system.

As an improvement of the scheme, a human-computer interface component is arranged on the industrial personal computer and used for displaying the temperature data in the sub-memory.

As an improvement of the scheme, the human-computer interface component is a window control center.

As an improvement of the scheme, the server is provided with a main memory, and the main memory is used for storing the temperature data of all the branch companies.

As an improvement of the above scheme, a temperature control system is configured on the server, and the temperature control system is used for controlling the temperature data.

As an improvement of the scheme, the server is also provided with an alarm.

As an improvement of the scheme, the glass kiln temperature information integration system further comprises a router connected with the main switch, and the main switch is connected with the internet through the router.

Implement the utility model has the advantages that:

the utility model discloses a for each division company overall arrangement communication network, install independent network card on original industrial computer, read temperature data and with the temperature data transmission of demand to the server wherein through independent network card to realize all temperature data's integration. The method can be applied to data integration of a multi-place distributed control system, realizes resource sharing of various control parameters which are far away, and achieves the purpose of remotely collecting various key parameters and technical support.

Drawings

FIG. 1 is a network topology diagram of a first embodiment of the glass kiln temperature information integration system of the present invention;

fig. 2 is a network topology diagram of the second embodiment of the glass kiln temperature information integration system of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, fig. 1 shows a first embodiment of the glass kiln temperature information integration system of the present invention, which includes a main switch 1, at least one server 2, at least one sub-switch 3, and at least one industrial personal computer 4, wherein the industrial personal computers 4 correspond to the sub-switches 3 one to one, the industrial personal computers 4 are connected to the sub-switches 3, the sub-switches 3 are connected to the main switch 1, and the main switch 1 is connected to the server 2.

The industrial personal computers 4 correspond to the branch companies one by one, each industrial personal computer 4 is distributed in the corresponding branch company, each industrial personal computer 4 is provided with a sub-memory and an independent network card, the sub-memory is used for storing temperature data of the corresponding branch company, the independent network card reads the temperature data in the sub-memory, converts the temperature data into signals which can be identified by the sub-switch 3, the main switch 1 and the server 2 and then transmits the signals to the server 2 sequentially through the sub-switch 3 and the main switch 1.

When the temperature data storage system works, the industrial personal computer 4 collects temperature data of corresponding branch companies in real time, stores the temperature data in the sub-memory, converts the temperature data into signals which can be identified by the sub-switch 3, the main switch 1 and the server 2 through the independent network card and transmits the signals to the server 2 through the sub-switch 3 and the main switch 1 in sequence, and therefore comprehensive storage and management of the temperature data of all the branch companies are achieved.

Therefore, the utility model discloses a for each division company overall arrangement communication network, install independent network card on original industrial computer 4, read temperature data and with the temperature data transmission of demand to server 2 wherein through independent network card to realize all temperature data's integration.

Furthermore, a ProfiNet bus protocol is configured in the independent network card, and the independent network card reads the temperature data in the sub-memory through the ProfiNet bus protocol, so that the real-time synchronization of the temperature data can be effectively realized, and the response speed is high.

And the sub-memory is internally provided with an SQ L database, and the sub-memory stores temperature data through the SQ L database, so that the independent network card can read the temperature data in the SQ L database of the sub-memory through the ProfiNet bus protocol.

In addition, a kiln temperature control system is configured in the industrial personal computer 4, the industrial personal computer 4 collects temperature data of corresponding branch companies through the kiln temperature control system, and then stores the temperature data in an SQ L database of a sub-memory of the industrial personal computer 4, meanwhile, a human-computer interface component is arranged on the industrial personal computer 4 and used for displaying the temperature data in the sub-memory, wherein the human-computer interface component is preferably a window control center (WinCC, Windows control center), but not limited by the above.

Therefore, a complete and independent data acquisition and storage system can be constructed for the corresponding branch company through the industrial personal computer 4, so that the real-time acquisition and stable storage of the local temperature data are realized.

Further, the server 2 is provided with a main memory, and the main memory is used for storing temperature data of all branch companies.

Meanwhile, a temperature control system is configured on the server 2, and the temperature control system is used for controlling the temperature data. When the field system fails and needs assistance, the temperature control system can directly and remotely access the industrial personal computers of all the branch companies through the network to monitor and modify programs, and the business trip times are reduced.

In addition, the server 2 is also provided with an alarm, and when the temperature data is abnormal, the alarm can inform an administrator to process.

Therefore, the utility model discloses a carry out remote network to each branch's kiln temperature control system's temperature data and read to the temperature data integration that will read is on server 2's main memory, and the unified management and control of temperature data is realized to rethread temperature control system, thereby has realized the sharing of temperature data between each branch, can effectively monitor and manage the temperature data of on-the-spot kiln.

Referring to fig. 2, fig. 2 shows a second embodiment of the glass kiln temperature information integration system of the present invention, which is different from the first embodiment shown in fig. 1, in this embodiment, the glass kiln temperature information integration system further includes a router 5 connected to the main switch 1, and the main switch 1 is connected to the internet through the router 5.

Thus, other networked computers may enter a website to access the temperature control system in the server to view various temperature records and alarm records.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many modifications and decorations can be made without departing from the principle of the invention, and these modifications and decorations are also regarded as the protection scope of the present invention.

Claims (10)

1. The glass kiln temperature information integration system is characterized by comprising a main switch, at least one server, at least one sub-switch and at least one industrial personal computer, wherein the industrial personal computers correspond to the sub-switches one by one and are connected with the sub-switches, the sub-switches are connected with the main switch, and the main switch is connected with the server;

the industrial personal computers correspond to the branch companies one by one, each industrial personal computer is distributed in the corresponding branch company, each industrial personal computer is provided with a sub-memory and an independent network card, the sub-memories are used for storing temperature data of the corresponding branch companies, the independent network cards read the temperature data in the sub-memories and convert the temperature data into signals which can be recognized by the sub-switches, the main switches and the servers, and the signals are transmitted to the servers sequentially through the sub-switches and the main switches.

2. The glass kiln temperature information integration system as claimed in claim 1, wherein the independent network card is configured with a ProfiNet bus protocol, and the independent network card reads temperature data through the ProfiNet bus protocol.

3. The glass kiln temperature information integration system as claimed in claim 1, wherein the sub-memory is configured with an SQ L database, the sub-memory storing temperature data via the SQ L database.

4. The glass kiln temperature information integration system of claim 1, wherein a kiln temperature control system is configured in the industrial personal computer, and the industrial personal computer collects temperature data of corresponding branch companies through the kiln temperature control system.

5. The glass kiln temperature information integration system of claim 1, wherein the industrial personal computer is provided with a human-machine interface component for displaying the temperature data in the sub-memory.

6. The glass kiln temperature information integration system of claim 5, wherein the human-machine interface component is a window control center.

7. The glass kiln temperature information integration system as claimed in claim 1, wherein the server is provided with a main memory for storing temperature data of all branch companies.

8. The glass kiln temperature information integration system of claim 7, wherein the server is configured with a temperature control system for managing the temperature data.

9. The glass kiln temperature information integration system as in claim 7, wherein an alarm is further provided on the server.

10. The glass kiln temperature information integration system of any one of claims 1-8, further comprising a router connected to the master switch, the master switch being connected to the internet via the router.

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