CN210583578U - Intelligent training field information acquisition device based on ZigBee - Google Patents

Abstract

The utility model discloses a based on zigBee intelligence training field information acquisition device, including training field information, coordinator, routing equipment A, routing equipment B, routing equipment C, routing equipment D, storage terminal A, storage terminal B, storage terminal C, storage terminal D, reserve routing equipment and reserve terminal, training field information is connected with routing equipment A, routing equipment B, routing equipment C routing equipment D and reserve routing equipment respectively, and training field information is external to have the coordinator, the utility model discloses the beneficial effect who reaches is: the data intercommunication among all routers of this device makes every terminal sharing data each other, and the renewal is faster, more efficient, and the setting of coordinator makes the scope of data transmission bigger, the coverage is wider, is applicable to and stores and observes the training field information between each mechanism in the training field.

Description

Intelligent training field information acquisition device based on ZigBee

Technical Field

The utility model relates to an information acquisition device, in particular to based on zigBee intelligence training field information acquisition device belongs to information acquisition device technical field.

Background

The traditional training field is characterized in that all aspects of information data acquisition are manually acquired and recorded, data are difficult to be correlated with each other, the terminals of all mechanisms are difficult to share data, updating is slow, efficiency is low, the data transmission range of few training fields using local area networks for data transmission is extremely small, coverage is low, and the training fields are difficult to be suitable for storing and observing training field information among the mechanisms in the training fields.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome prior art's defect, provide one kind based on zigBee intelligence training field information acquisition device.

In order to solve the technical problem, the utility model provides a following technical scheme:

the utility model relates to a based on zigBee intelligence training field information acquisition device, including training field information, coordinator, routing equipment A, routing equipment B, routing equipment C, routing equipment D, storage terminal A, storage terminal B, storage terminal C, storage terminal D, reserve routing equipment and reserve terminal, training field information is connected with routing equipment A, routing equipment B, routing equipment C routing equipment D and reserve routing equipment respectively, just training field information is external to have the coordinator, routing equipment A is connected with storage terminal A, routing equipment B is connected with storage terminal B, routing equipment C is connected with storage terminal C, routing equipment D is connected with storage terminal D, reserve routing equipment is connected with reserve terminal.

As a preferred technical solution, the training field information, the routing device a, the routing device B, the routing device C, the routing device D, and the standby routing device are all connected through a link, and the routing device a, the routing device B, the routing device C, and the routing device D communicate with each other through data, while the standby routing device is set up separately.

As a preferred technical solution, the link is a mesh link.

As a preferred technical solution, the training field information includes training field equipment data, training field reception data, training field monitoring data, training field fire data, and training field power data.

As a preferred technical solution, the coordinator is a typep-21 type coordinator.

The utility model discloses the beneficial effect who reaches is: the device can transmit the data in the training field equipment data, training field reception data, training field monitoring data, training field fire-fighting data and training field power data to a storage terminal A, a storage terminal B, a storage terminal C and a storage terminal D through a link routing equipment A, a routing equipment B, a routing equipment C and a routing equipment D respectively, meanwhile, the routing equipment A, the routing equipment B, the routing equipment C and the routing equipment D are connected through links, namely, the data among all routers are intercommunicated, so that each terminal shares data with each other, the updating is faster and more efficient, the arrangement of a coordinator enables the data transmission range to be larger and the coverage area to be wider, and the device is suitable for storing and observing the training field information among mechanisms in the training field, wherein the training field information is connected with the routing equipment A, the routing equipment B, the routing equipment C, the routing equipment D and a standby routing equipment through links, data intercommunication is carried out among the routing equipment A, the routing equipment B, the routing equipment C and the routing equipment D, and the standby routing equipment is independently set, so that data transmission among the routing equipment A, the routing equipment B, the routing equipment C, the routing equipment D and training field information is facilitated, and a standby transmission mode is prevented from being provided when one of the routing equipment A, the routing equipment B, the routing equipment C and the routing equipment D is damaged; the links are Mesh links, the APs in the Mesh network can be interconnected in a wireless connection mode, and multi-hop wireless links can be established among the APs; the training field information comprises training field equipment data, training field reception data, training field monitoring data, training field fire-fighting data and training field electric power data, so that the data can be conveniently collected in a centralized manner; the coordinator is a TYREP-21 type coordinator and has practical functions.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic diagram of training field information of the present invention.

In the figure, 1, training field information; 2. a coordinator; 3. a routing device A; 4. a routing device B; 5. a routing device C; 6. a routing device D; 7. a storage terminal A; 8. a storage terminal B; 9. a storage terminal C; 10. storing the terminal D; 11. a standby routing device; 12. a standby terminal; 13. training field equipment data; 14. receiving data in a training field; 15. training field monitoring data; 16. training field fire data; 17. a link; 18. training field power data.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Examples

As shown in fig. 1-2, the utility model provides a based on zigBee intelligence training field information acquisition device, including training field information 1, coordinator 2, routing equipment A3, routing equipment B4, routing equipment C5, routing equipment D6, storage terminal A7, storage terminal B8, storage terminal C9, storage terminal D10, reserve routing equipment 11 and standby terminal 12, training field information 1 is respectively with routing equipment A3, routing equipment B4, routing equipment C5 routing equipment D6 and reserve routing equipment 11 are connected, and training field information 1 is external to have coordinator 2, routing equipment A3 is connected with storage terminal A7, routing equipment B4 is connected with storage terminal B8, routing equipment C5 is connected with storage terminal C9, routing equipment D6 is connected with storage terminal D10, reserve routing equipment 11 is connected with standby terminal 12.

Further, training field information 1 and routing device A3, routing device B4, routing device C5, routing device D6, and standby routing device 11 are all connected by link 17, and data intercommunication among routing device A3, routing device B4, routing device C5, and routing device D6, and standby routing device 11 is set up separately, so as to facilitate data transmission among routing device A3, routing device B4, routing device C5, routing device D6, and training field information 1, and avoid providing a standby transmission mode when one of routing device A3, routing device B4, routing device C5, and routing device D6 is damaged.

Further, the link 17 is a Mesh link 17, the APs in the Mesh network may be interconnected in a wireless connection manner, and a multi-hop wireless link may be established between the APs.

Further, the training field information 1 includes training field equipment data 13, training field reception data 14, training field monitoring data 15, training field fire protection data 16 and training field power data 18, so that data can be collected in a centralized manner.

Further, the coordinator 2 is a typep-21 type coordinator 2, and functions are practical.

Specifically, when the device is used, data in training field equipment data 13, training field reception data 14, training field monitoring data 15, training field fire protection data 16 and training field power data 18 in the training field 1 can be transmitted to storage terminals a7, storage terminals B8, storage terminals C9 and storage terminals D10 through links 17 by routing equipment A3, routing equipment B4, routing equipment C5 and routing equipment D6 respectively, meanwhile, routing equipment A3, routing equipment B4, routing equipment C5 and routing equipment D6 are connected through links 17, namely, data intercommunication among the routers enables the terminals to share data with each other, updating is faster and more efficient, the arrangement of the coordinator 2 enables the range of data transmission to be larger and the coverage area to be wider, the device is suitable for storing and observing training field information 1 among mechanisms in the training field, wherein the training field information 1 and the routing equipment A3, The routing device B4, the routing device C5, the routing device D6 and the standby routing device 11 are all connected through a link 17, data intercommunication is performed among the routing device A3, the routing device B4, the routing device C5 and the routing device D6, the standby routing device 11 is set up separately, data transmission between the routing device A3, the routing device B4, the routing device C5, the routing device D6 and the training field information 1 is facilitated, and a standby transmission mode is prevented from being provided when one of the routing device A3, the routing device B4, the routing device C5 and the routing device D6 is damaged; the link 17 is a Mesh link 17, APs in the Mesh network can be interconnected in a wireless connection mode, and a multi-hop wireless link can be established between the APs; the training field information 1 comprises training field equipment data 13, training field reception data 14, training field monitoring data 15, training field fire-fighting data 16 and training field power data 18, so that the data can be conveniently collected in a centralized manner; the coordinator 2 is a TYREP-21 type coordinator 2, and has practical functions.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. An intelligent training field information acquisition device based on ZigBee comprises training field information (1), a coordinator (2), routing equipment A (3), routing equipment B (4), routing equipment C (5), routing equipment D (6), a storage terminal A (7), a storage terminal B (8), a storage terminal C (9), a storage terminal D (10), standby routing equipment D (11) and a standby terminal (12), and is characterized in that the training field information (1) is respectively connected with the routing equipment A (3), the routing equipment B (4), the routing equipment C (5), the routing equipment D (6) and the standby routing equipment (11), the coordinator (2) is connected with the training field information (1), the routing equipment A (3) is connected with the storage terminal A (7), and the routing equipment B (4) is connected with the storage terminal B (8), the routing equipment C (5) is connected with the storage terminal C (9), the routing equipment D (6) is connected with the storage terminal D (10), and the standby routing equipment (11) is connected with the standby terminal (12).

2. The intelligent training field information acquisition device based on ZigBee according to claim 1, wherein the training field information (1) and the routing equipment A (3), the routing equipment B (4), the routing equipment C (5), the routing equipment D (6) and the standby routing equipment (11) are connected through a link (17), the routing equipment A (3), the routing equipment B (4), the routing equipment C (5) and the routing equipment D (6) are in data intercommunication, and the standby routing equipment (11) is set up separately.

3. The intelligent training field information acquisition device based on ZigBee according to claim 2, wherein the link (17) is a mesh link (17).

4. The intelligent training field information acquisition device based on ZigBee according to claim 1, wherein the training field information (1) comprises training field equipment data (13), training field reception data (14), training field monitoring data (15), training field fire-fighting data (16) and training field power data (18).

5. The intelligent training ground information acquisition device based on ZigBee according to claim 1, wherein the coordinator (2) is a TYREP-21 type coordinator (2).

Images