CN220913266U - Equipment operation condition detection device - Google Patents
Equipment operation condition detection device Download PDFInfo
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- CN220913266U CN220913266U CN202322970266.6U CN202322970266U CN220913266U CN 220913266 U CN220913266 U CN 220913266U CN 202322970266 U CN202322970266 U CN 202322970266U CN 220913266 U CN220913266 U CN 220913266U
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Abstract
The utility model belongs to the technical field of equipment operation control, and particularly relates to an equipment operation condition detection device, which is arranged on a universal circuit backboard and comprises: the system comprises a CPU core board, and a power data acquisition module, an expansion cascade module, an expansion input module, an expansion network module, a power module and a storage module which are arranged on the CPU core board; the power module is respectively connected with the expansion cascade module, the expansion input module and the storage module; the device can subdivide the operation condition of the equipment according to the actual application scene, and provide data expansion for monitoring and control of an upper system.
Description
Technical Field
The utility model belongs to the technical field of equipment operation control, and particularly relates to an equipment operation condition detection device.
Background
With the development of technology, the development of the times, the development of technologies such as the internet of things and the like, remote detection and maintenance of monitoring equipment are required, monitoring of equipment under variable working conditions is complex for traditional equipment. While also placing more demands on remote detection of the device.
However, most of the current industrial automatic monitoring and control devices can only meet local monitoring and control requirements, and the operation conditions of the devices cannot be known according to the operation parameters of the devices. Some devices capable of detecting the equipment cannot meet the requirements of different equipment in different scenes, and cannot meet the requirements of linkage with an upper system and automatic output of operation conditions.
Disclosure of utility model
The utility model aims to solve the problems that the existing device cannot automatically judge the operation condition of equipment and cannot adapt to different application scenes, and provides an equipment operation condition detection device, wherein the device is arranged on a universal circuit backboard, and the whole device is arranged on a certain equipment to be detected, and the device comprises: the system comprises a CPU core board, and a power data acquisition module, an expansion cascade module, an expansion input module, a storage module, an expansion network module and a power supply module which are arranged on the CPU core board;
The expansion cascade module is connected with the power supply module, the expansion input module is connected with the power supply module, and the power supply module is respectively connected with the expansion cascade module, the expansion input module and the storage module;
The power data acquisition module is used for acquiring power consumption data of the equipment and analyzing part of operation conditions of the equipment based on the power consumption data;
the expansion cascade module is used for cascading a plurality of equipment operation condition detection devices;
The expansion input module is used for collecting multiple groups of data and configuration strategies of equipment to be detected in real time, transmitting the data and the configuration strategies to the storage module through the expansion network module, and outputting the required data and the required configuration strategies according to the energy-saving control instruction of the CPU core board;
The storage module is used for receiving a plurality of groups of data and configuration strategies of equipment to be detected, which are collected in real time, replacing the last collected plurality of groups of data and configuration strategies, and storing the last collected plurality of groups of data and configuration strategies in the storage module;
The expansion network module is used for transmitting the multiple groups of data and the configuration strategy acquired by the expansion input module in real time to the storage module;
the power module is used for providing power and ensuring normal operation.
As one of the improvement of the technical scheme, the electric power data acquisition module is used for acquiring the electric power data of the equipment and judging the operation condition of the equipment through the data such as current, voltage, power, electric energy quality and the like.
As one of the improvement of the technical scheme, the expansion cascade module is provided with a plurality of cascade interfaces of the same type of equipment, and the cascade interfaces are used for cascading a plurality of equipment operation condition detection devices.
As one of the improvements of the above technical solution, the expansion input module includes: the system comprises a plurality of data acquisition cards, a network expansion circuit, an input expansion circuit and an output expansion circuit;
The data acquisition card is used for acquiring each group of data and configuration strategies of the equipment to be detected in real time;
The input expansion circuit includes: a plurality of input data channels; the input data channel is used for receiving each group of data and configuration strategies;
the network expansion circuit includes: a plurality of network transmission circuits; the network transmission circuit establishes a network connection relation with the expansion network module, and transmits each group of data and configuration strategies to the expansion network module;
The output expansion circuit includes: and the output data channels are used for outputting a certain group of required data and configuration strategies according to the energy-saving control instruction of the CPU core board.
As one of the improvements of the above technical solutions, the power module includes: the wide-voltage direct-current power supply is used for supplying power to the equipment operation condition detection device.
As one of the improvements of the technical scheme, the universal circuit backboard is also provided with a board-mounted SDIO interface, a board-mounted AD interface, a board-mounted display interface and a board-mounted power supply which are connected with the CPU core board;
The CPU core board is a dual-core version CPU core board or a single-chip version CPU core board;
The onboard SDIO interface is used for providing an interface for the SD card;
the on-board AD interface is used for providing an analog input interface;
the on-board display interface is used for providing an interface of a display;
the on-board power supply is used for providing power for the universal circuit backboard.
The utility model relates to a power data acquisition module, an expansion cascade module, an expansion input module, a storage module, an expansion network module and a power module, and the connection among the modules belongs to the prior art.
Compared with the prior art, the utility model has the beneficial effects that:
1. The utility model integrates the electric power data acquisition module internally, can realize the acquisition of the equipment operation electric power data, and provides basic electric power data for judging the equipment operation working condition;
2. The device can expand similar devices through cascading according to specific application scenes, and improves the processing capacity and the computing capacity of equipment;
3. according to the device, according to a specific application scene, the access capability of the data can be expanded through input, the quantity expansion of AI and DI is improved, and the access of other related signals of the equipment operation working conditions can be supported;
4. The device can subdivide the operation condition of the equipment according to the actual application scene, and provide data expansion for monitoring and control of an upper system;
5. the device can replace the existing electric power instrument to collect electric power data.
Drawings
FIG. 1 is a schematic diagram of a device for detecting operating conditions of an apparatus according to the present utility model.
Reference numerals:
1. The CPU core board, 2, the electric power data acquisition module, 3, the expansion cascade module, 4, the expansion input module, 5, the storage module, 6, the expansion network module, 7, power module.
Detailed Description
The utility model will now be further described with reference to the accompanying drawings.
As shown in fig. 1, the present utility model proposes a device for detecting an operating condition of an apparatus, where the device is disposed on a universal circuit board, and the device is integrally disposed on a certain apparatus to be detected; the equipment to be detected is various equipment in industrial production;
The device comprises: the CPU core board 1, and a power data acquisition module 2, an expansion cascade module 3, an expansion input module 4, a storage module 5, an expansion network module 6 and a power supply module 7 which are arranged on the CPU core board 1;
The expansion cascade module 3 is connected with the power module 7, the expansion input module 4 is connected with the power module 7, and the power module 7 is respectively connected with the expansion cascade module 3, the expansion input module 4 and the storage module 5;
The power data acquisition module 2 is used for acquiring power consumption data of the equipment and analyzing part of operation conditions of the equipment based on the power consumption data;
the expansion cascade module 3 is used for cascading a plurality of equipment operation condition detection devices;
The expansion input module 4 is used for collecting multiple groups of data and configuration strategies of equipment to be detected in real time, transmitting the data and the configuration strategies to the storage module 5 through the expansion network module 6, and outputting the required data and the required configuration strategies according to the energy-saving control instructions of the CPU core board 1;
The storage module 5 is configured to receive multiple sets of data and configuration policies of a device to be detected, which are collected in real time, replace the last collected multiple sets of data and configuration policies, and store the last collected multiple sets of data and configuration policies in the storage module; in this embodiment, the storage module 5 is an existing flash memory. The memory module is an existing synchronous dynamic random access memory (synchronous dynamic random-access memory, SDRAM).
The expansion network module 6 is configured to transmit the multiple sets of data and the configuration policy acquired by the expansion input module 4 in real time to the storage module 5; the extended network module 6 is an existing data transmission circuit or a data transmission line.
The power module 7 is used for providing power and ensuring normal operation. The power module 7 is an existing power supply.
As one of the improvements of the above technical solutions, the power data acquisition module 2 may implement the acquisition of the power data of the operation of the device, and provide basic power data for judging the operation condition of the device.
As one of the improvement of the technical scheme, the extension cascade module is externally provided with a plurality of cascade interfaces of the same type of equipment, and the cascade interfaces are used for cascading a plurality of equipment operation condition detection devices to realize horizontal extension calculation and data access capability.
As an improvement of the above technical solution, the extension input module 4 is an existing circuit, and includes: the system comprises a plurality of data acquisition cards, a network expansion circuit, an input expansion circuit and an output expansion circuit;
The data acquisition card is used for acquiring each group of data and configuration strategies of the equipment to be detected in real time;
The input expansion circuit includes: a plurality of input data channels; the input data channel is used for receiving each group of data and configuration strategies;
The network expansion circuit includes: a plurality of network transmission circuits; the network transmission circuit establishes a network connection relation with the expansion network module, and transmits each group of data and configuration strategies to the expansion network module to realize data transmission; the network connection mode comprises wired connection and wireless connection through WIFI, 4G and NB networks, and is used for connecting a plurality of energy-saving control devices;
The output expansion circuit includes: and the output data channels are used for outputting a certain group of required data and configuration strategies according to the energy-saving control instruction of the CPU core board.
As one of the improvements of the above-described aspects, the power supply module 7 includes: the wide-voltage direct-current power supply is used for supplying power to the equipment operation condition detection device. In this embodiment, the power module 7 is an existing power supply.
As one of the improvements of the above technical solution, the general circuit backboard is further provided with an on-board SDIO interface, an on-board AD interface, an on-board display interface and an on-board power supply which are connected with the CPU core board 1;
The CPU core board is a dual-core version CPU core board or a single-chip version CPU core board;
The onboard SDIO interface is used for providing an interface for the SD card;
the on-board AD interface is used for providing an analog input interface;
the on-board display interface is used for providing an interface of a display;
the on-board power supply is used for providing power for the universal circuit backboard.
The device further comprises an expansion network module 6 for realizing expansion of the bus-based analog input AI, analog output AO, digital input DI, digital output DO.
Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present utility model and are not limiting. Although the present utility model has been described in detail with reference to the embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the present utility model, which is intended to be covered by the appended claims.
Claims (6)
1. An apparatus for detecting an operating condition of a device, the apparatus comprising: the system comprises a CPU core board, and a power data acquisition module, an expansion cascade module, an expansion input module, a storage module, an expansion network module and a power supply module which are arranged on the CPU core board;
the power module is respectively connected with the expansion cascade module, the expansion input module and the storage module;
The power data acquisition module is used for acquiring power consumption data of the equipment and analyzing part of operation conditions of the equipment based on the power consumption data;
the expansion cascade module is used for cascading a plurality of equipment operation condition detection devices;
The expansion input module is used for collecting multiple groups of data and configuration strategies of equipment to be detected in real time, transmitting the data and the configuration strategies to the storage module through the expansion network module, and outputting the required data and the required configuration strategies according to the energy-saving control instruction of the CPU core board;
The storage module is used for receiving a plurality of groups of data and configuration strategies of equipment to be detected, which are collected in real time, replacing the last collected plurality of groups of data and configuration strategies, and storing the last collected plurality of groups of data and configuration strategies in the storage module;
The expansion network module is used for transmitting the multiple groups of data and the configuration strategy acquired by the expansion input module in real time to the storage module;
The power module is used for providing power.
2. The device operating condition detection apparatus of claim 1, wherein the power data acquisition module is configured to acquire power consumption data of the device and determine the device operating condition from the current, voltage, power and power quality data.
3. The device operation condition detection apparatus according to claim 1, wherein a plurality of similar device cascade interfaces are provided outside the expansion cascade module for cascading the plurality of device operation condition detection apparatuses.
4. The device operating condition detection apparatus of claim 1, wherein the extended input module comprises: the system comprises a plurality of data acquisition cards, a network expansion circuit, an input expansion circuit and an output expansion circuit;
The data acquisition card is used for acquiring each group of data and configuration strategies of the equipment to be detected in real time;
The input expansion circuit includes: a plurality of input data channels; the input data channel is used for receiving each group of data and configuration strategies;
the network expansion circuit includes: a plurality of network transmission circuits; the network transmission circuit establishes a network connection relation with the expansion network module, and transmits each group of data and configuration strategies to the expansion network module;
The output expansion circuit includes: and the output data channels are used for outputting a certain group of required data and configuration strategies according to the energy-saving control instruction of the CPU core board.
5. The device operating condition detection apparatus of claim 1, wherein the power module comprises: the wide-voltage direct-current power supply is used for supplying power to the equipment operation condition detection device.
6. The device for detecting the operation condition of equipment according to claim 1, wherein the device is arranged on a universal circuit backboard, and an onboard SDIO interface, an onboard AD interface, an onboard display interface and an onboard power supply which are connected with a CPU core board are further arranged on the universal circuit backboard;
The CPU core board is a dual-core version CPU core board or a single-chip version CPU core board;
The onboard SDIO interface is used for providing an interface for the SD card;
the on-board AD interface is used for providing an analog input interface;
the on-board display interface is used for providing an interface of a display;
the on-board power supply is used for providing power for the universal circuit backboard.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202322970266.6U CN220913266U (en) | 2023-11-03 | 2023-11-03 | Equipment operation condition detection device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202322970266.6U CN220913266U (en) | 2023-11-03 | 2023-11-03 | Equipment operation condition detection device |
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CN220913266U true CN220913266U (en) | 2024-05-07 |
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CN202322970266.6U Active CN220913266U (en) | 2023-11-03 | 2023-11-03 | Equipment operation condition detection device |
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CN (1) | CN220913266U (en) |
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- 2023-11-03 CN CN202322970266.6U patent/CN220913266U/en active Active
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