CN116068310A - Parallel detection device and detection method with multiple devices and multiple detection ports - Google Patents

Abstract

The invention provides a parallel detection device with multiple devices and multiple detection ports, which comprises an analysis processing unit, N signal integrated transmission units and M signal acquisition units, wherein the analysis processing unit is used for analyzing and processing signals; n is more than or equal to 1, M is more than or equal to 1; the M signal acquisition units are connected with the signal integration transmission units, and the N signal integration transmission units are connected with the analysis processing unit; m signal acquisition units are configured to be correspondingly connected with Y equipment detection ports of X equipment, wherein M is more than or equal to Y is more than or equal to 1, and N is more than or equal to X is more than or equal to 1; the signal acquisition unit is used for acquiring detection data of the equipment detection port; the signal integrated transmission units are configured to receive detection data from the signal acquisition units, and each signal integrated transmission unit correspondingly receives detection data of all equipment detection ports of each equipment; the signal integrated transmission unit performs integrated processing on the acquired detection data; the analysis processing unit is configured to receive the detection data from each signal integration transmission unit to form a processing analysis result.

Description

Parallel detection device and detection method with multiple devices and multiple detection ports

Technical Field

The invention relates to the technical field of detection devices, in particular to a parallel detection device with multiple devices and multiple detection ports and a detection method.

Background

In the prior art, when detecting equipment in the army, as the equipment in the teams is generally used for centralized training and task execution in most of the time, the technical state of the equipment is detected only in a fixed shorter period of time; the detection device is mainly used for detecting the detection ports of the equipment one by one, but the mode has the defects of long detection time and low working efficiency, and has obvious conflict with other tasks executed by the dequeue equipment. Meanwhile, the same team is matched with a plurality of detection devices for detection, the demand of detection personnel is large, the cost-effective ratio is low, and the operation of counting and summarizing the detection data among the detection devices is complex.

Therefore, there is a need to provide a parallel detection technology with multiple devices and multiple detection ports, so as to solve the above technical problems.

Disclosure of Invention

In order to overcome the problems in the prior art, the invention provides a parallel detection device with multiple devices and multiple detection ports, wherein the detection device is provided with at least one analysis processing unit, a plurality of signal integrated transmission units and a plurality of signal acquisition units; the signal acquisition unit is connected with the equipment detection ports one by one to acquire detection data, and the signal integration transmission unit is used for integrating and processing the acquired detection data of the equipment detection ports of one piece of equipment and finally transmitting the detection data to the analysis processing unit for processing, so that the detection of a plurality of equipment detection ports of a plurality of pieces of equipment is realized.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

a parallel detection device with multiple devices and multiple detection ports comprises an analysis processing unit, N signal integration transmission units and M signal acquisition units; wherein N is more than or equal to 1, M is more than or equal to 1, and N and M are integers;

the M signal acquisition units are correspondingly connected with the signal integration transmission units, and the N signal integration transmission units are correspondingly connected with the analysis processing unit;

the M signal acquisition units are configured to be correspondingly connected with Y equipment detection ports of external X equipment, wherein M is more than or equal to Y is more than or equal to 1, and N is more than or equal to X is more than or equal to 1; the signal acquisition unit is used for acquiring detection data of the equipment detection port connected with the signal acquisition unit and transmitting the detection data to the signal integrated transmission unit connected with the signal acquisition unit;

the signal integrated transmission units are configured to receive detection data from the signal acquisition units, wherein each signal integrated transmission unit correspondingly receives detection data of all equipment detection ports of each equipment; the signal integrated transmission unit performs integrated processing on the acquired detection data, determines a transmission time sequence, and sends the detection data after the integrated processing to the analysis processing unit;

the analysis processing unit is configured to receive the detection data from each signal integrated transmission unit, perform fault identification and statistical analysis to form a processing analysis result, and interact with a user.

Specifically, according to the technical scheme, a plurality of signal acquisition units connected with the equipment detection ports are arranged in the detection device, so that acquisition of detection data of the equipment detection ports is realized; and integrating the data of each equipment detection port of each equipment by arranging a plurality of signal integrated transmission units, and finally uniformly transmitting the integrated detection data of each signal integrated transmission unit to an analysis processing unit for analysis processing to form a processing analysis result and feeding the processing analysis result back to a user. The detection device is in a hierarchical structure of one-to-many (one analysis processing unit is used for integrating a plurality of signals) and one-to-many (one signal integration transmission unit is used for integrating a plurality of signals) so that a plurality of equipment detection ports of a plurality of equipment can be detected by using one detection device, the problem of synchronous detection of the plurality of equipment is effectively solved, and the convenience and the efficiency of detection are improved.

Specifically, in some application scenarios, the detection object aimed by the parallel detection device is the same equipment of a team, such as 12 tanks of a team, and the situation aiming at different types of equipment is not considered, and generally, one equipment corresponds to one signal integrated transmission unit; however, not all the devices should be matched with one signal integrated transmission unit, for example, the team has twelve devices, only six signal integrated transmission units can be matched, the number of detection ports of each device is consistent, five signal acquisition units (thirty in total) can be matched with each device according to actual detection requirements, and the detection requirements can be met by two batches of detection, namely, the number of signal acquisition units of each device is consistent.

The signal acquisition unit comprises a signal acquisition connector, an acquisition module and a communication module; the signal acquisition connector is connected with the acquisition module through a cable, and the acquisition module and the communication module are integrated into the equipment box; the signal acquisition connector is configured to be connected with the equipment detection port, so that the acquisition module acquires detection data of the equipment detection port through the signal acquisition connector; the communication module is configured to transmit the detection data to the signal integration transmission unit.

Above, the equipment box is installed magnetic seat fixed establishment to make the equipment box pass through magnetic seat fixed establishment and fix.

The signal integrated transmission unit comprises a data receiving module, a data processing module and a data transmission module; the data receiving module is used for receiving detection data transmitted by the signal acquisition unit; the data processing module is configured to perform integrated processing on the received detection data of each equipment detection port and determine a transmission time sequence; the data transmission module is configured to communicate with the analysis processing unit and transmit the received data to the analysis processing unit.

Above, the signal integration transmission unit sets up in the equipment box, and this equipment box installs magnetic seat fixed establishment to make the equipment box is fixed through magnetic seat fixed establishment.

The analysis processing unit comprises a data receiving module, a fault judging and statistic analysis module and a display control interaction module; the data receiving module is used for receiving data from the signal integrated transmission unit; the fault judging and statistical analysis module is configured to analyze and judge the received data, identify faults and carry out statistical conclusion so as to obtain a processing analysis result; and the display control interaction module is used for displaying the processing result of the fault judgment and statistical analysis module and interacting with a user.

Specifically, the signal acquisition unit, the signal integrated transmission unit and the analysis processing unit are all provided with independent structural designs, and each module is relatively independent and can be increased, decreased and connected in number according to the condition of equipment to be detected.

Preferably, one or more equipment detection ports are provided on each piece of equipment.

Specifically, the user can select and determine the equipment detection port for acquiring the signal according to the detection requirement.

Preferably, the signal acquisition unit is connected with the signal integration transmission unit in a wireless communication mode, and the signal integration transmission unit is connected with the analysis processing unit in a wireless communication mode.

The wireless communication mode comprises Bluetooth connection, wifi connection or LORA connection.

Specifically, the communication mode among the units considers that the positions of the detection ports of the equipment are distributed at all parts of the equipment, the detection work is required to be executed under the conditions of operation and movement of the equipment, and the wired connection is not suitable, so that the wireless communication mode is selected between the signal acquisition unit and the signal integrated transmission processing unit.

Preferably, the signal acquisition unit is connected with the signal integrated transmission unit by Bluetooth.

Preferably, the signal integrated transmission unit and the analysis processing unit are connected by wifi or LORA.

Specifically, considering the actual distance of each equipment detection port, a short-distance wireless encryption communication mode such as Bluetooth supporting a range of 20 meters is preferably adopted between the signal acquisition unit and the signal integration transmission unit, and considering the actual distribution distance of equipment during the detection of the equipment in the teams, a wireless encryption communication mode such as wifi supporting a range of 200 meters, LORA and the like is preferably adopted between the signal integration and transmission unit and the analysis processing unit.

Preferably, the signal acquisition unit and the signal integrated transmission unit adopt real-time communication.

Preferably, the signal integrated transmission unit further comprises a storage module.

Specifically, the signal integrated transmission unit has a certain storage function, and a time delay is allowed between the signal integrated transmission unit and the analysis processing unit, so that batch transmission of received data can be performed.

The invention also provides a parallel detection method with multiple devices and multiple detection ports, which is applied to the parallel detection device; the detection method comprises the following steps:

s1: establishing connection: m signal acquisition units of the parallel detection device are connected with Y equipment detection ports one by one through signal acquisition connectors;

s2: collecting detection data: the signal acquisition unit acquires detection data sent by the equipment detection port and sends the acquired detection data to the signal integrated transmission unit for integrated processing;

s3: integrating and processing detection data: the signal integrated transmission unit integrates the acquired detection data, determines a transmission time sequence, and sends the integrated detection data to the analysis processing unit;

s4: analyzing and processing detection data: and after receiving the detection data, the analysis processing unit analyzes the detection data to form a processing analysis result and feeds the processing analysis result back to the user.

The invention has the beneficial effects that:

the invention provides a parallel detection device with multiple devices and multiple detection ports, which is characterized in that at least one analysis processing unit, multiple signal integrated transmission units and multiple signal acquisition units are arranged; the signal acquisition unit is connected with the equipment detection ports one by one to acquire detection data, and the signal integration transmission unit is used for integrating and processing the acquired detection data of the equipment detection ports of one piece of equipment and finally transmitting the detection data to the analysis processing unit for processing, so that the detection of a plurality of equipment detection ports of a plurality of pieces of equipment is realized. Meanwhile, the modules are mutually independent and adopt a wireless connection communication mode, and the wireless connection communication system has the advantages of being flexible and convenient to use, low in cost and high in efficiency.

Drawings

FIG. 1 is a schematic diagram of a connection structure of a parallel detection device provided by the invention;

FIG. 2 is a schematic diagram of a signal acquisition unit of the parallel detection device according to the present invention;

fig. 3 is a schematic structural diagram of a signal integrated transmission unit of the parallel detection device provided by the invention;

fig. 4 is a schematic structural diagram of an analysis processing unit of the parallel detection device provided by the invention.

Detailed Description

The following describes the embodiments of the present invention further with reference to the drawings.

As shown in fig. 1 to 4, the present embodiment provides a parallel detection device with multiple devices and multiple detection ports, which includes an analysis processing unit, two signal integrated transmission units, and four signal acquisition units;

every two signal acquisition units are connected with one signal integration transmission unit, and the two signal integration transmission units are connected with the analysis processing unit;

the four signal acquisition units are configured to be correspondingly connected with four equipment detection ports of two pieces of equipment outside one by one; the signal acquisition unit is used for acquiring detection data of the equipment detection port connected with the signal acquisition unit and transmitting the detection data to the signal integrated transmission unit connected with the signal acquisition unit;

the signal integrated transmission units are configured to receive detection data from the signal acquisition units, wherein each signal integrated transmission unit correspondingly receives detection data of all equipment detection ports of each equipment; the signal integrated transmission unit performs integrated processing on the acquired detection data, determines a transmission time sequence, and sends the detection data after the integrated processing to the analysis processing unit;

the analysis processing unit is configured to receive the detection data from each signal integrated transmission unit, perform fault identification and statistical analysis to form a processing analysis result, and interact with a user.

Specifically, according to the technical scheme, a plurality of signal acquisition units connected with the equipment detection ports are arranged in the detection device, so that acquisition of detection data of the equipment detection ports is realized; and integrating the data of each equipment detection port of each equipment by arranging a plurality of signal integrated transmission units, and finally uniformly transmitting the integrated detection data of each signal integrated transmission unit to an analysis processing unit for analysis processing to form a processing analysis result and feeding the processing analysis result back to a user. The detection device is in a hierarchical structure of a pair of two (two signal integration transmission units are subjected to analysis processing units) and a pair of two (two signal collection units are subjected to signal integration transmission units), so that four equipment detection ports of two equipment can be detected by using one detection device, the synchronous detection problem of multiple equipment is effectively solved, and the detection convenience and efficiency are improved.

In this embodiment, the signal acquisition unit includes a signal acquisition connector 2, an acquisition module, and a communication module; the signal acquisition connector 2 is connected with an acquisition module through a cable 3, and the acquisition module and the communication module are integrated into the equipment box; the signal acquisition connector 2 is configured to be connected with the equipment detection port 1, so that the acquisition module acquires detection data of the equipment detection port 1 through the signal acquisition connector 2; the communication module is configured to transmit the detection data to the signal integration transmission unit.

In this embodiment, the apparatus case is mounted with a magnetic base fixing mechanism so that the apparatus case is fixed by the magnetic base fixing mechanism.

In this embodiment, the signal integrated transmission unit includes a data receiving module, a data processing module, and a data transmission module; the data receiving module is used for receiving detection data transmitted by the signal acquisition unit; the data processing module is configured to perform integrated processing on the received detection data of each equipment detection port and determine a transmission time sequence; the data transmission module is configured to communicate with the analysis processing unit and transmit the received data to the analysis processing unit.

In this embodiment, the signal integrated transmission unit is disposed in an equipment box, and the equipment box is provided with a magnetic seat fixing mechanism, so that the equipment box is fixed by the magnetic seat fixing mechanism.

In this embodiment, the analysis processing unit includes a data receiving module, a fault judging and statistics analysis module, and a display control interaction module; the data receiving module is used for receiving data from the signal integrated transmission unit; the fault judging and statistical analysis module is configured to analyze and judge the received data, identify faults and carry out statistical conclusion so as to obtain a processing analysis result; and the display control interaction module is used for displaying the processing result of the fault judgment and statistical analysis module and interacting with a user.

Specifically, the signal acquisition unit, the signal integrated transmission unit and the analysis processing unit are all provided with independent structural designs, and each module is relatively independent and can be increased, decreased and connected in number according to the condition of equipment to be detected.

In this embodiment, two equipment detection ports are provided on each equipment.

In this embodiment, the signal acquisition unit is connected to the signal integrated transmission unit in a wireless communication manner, and the signal integrated transmission unit is connected to the analysis processing unit in a wireless communication manner. The communication mode among the units is not suitable for adopting wired connection in consideration of the fact that the positions of the detection ports of the equipment are distributed at all parts of the equipment, the detection work is required to be executed under the conditions of operation and movement of the equipment, and therefore the wireless communication mode is selected between the signal acquisition unit and the signal integrated transmission processing unit.

In this embodiment, the signal acquisition unit and the signal integrated transmission unit are connected by bluetooth. The signal integrated transmission unit is connected with the analysis processing unit by wifi or LORA. Considering the actual distance of each equipment detection port, a short-distance wireless encryption communication mode such as Bluetooth supporting a range of 20 meters is preferably adopted between the signal acquisition unit and the signal integration transmission unit, and considering the actual distribution distance of equipment during the detection of the equipment in the teams, a wireless encryption communication mode such as wifi supporting a range of 200 meters, LORA and the like is preferably adopted between the signal integration and transmission unit and the analysis processing unit.

In this embodiment, real-time communication is adopted between the signal acquisition unit and the signal integrated transmission unit.

In this embodiment, the signal integrated transmission unit further includes a storage module. The signal integrated transmission unit has a certain storage function, allows time delay between the signal integrated transmission unit and the analysis processing unit, and can carry out batch transmission on received data.

The invention also provides a parallel detection method with multiple devices and multiple detection ports, which is applied to the parallel detection device; the detection method comprises the following steps:

s1: establishing connection: the four signal acquisition units of the parallel detection device are connected with four equipment detection ports one by one through signal acquisition connectors 2;

s2: collecting detection data: the signal acquisition unit acquires detection data sent by the equipment detection port and sends the acquired detection data to the signal integrated transmission unit for integrated processing;

s3: integrating and processing detection data: the signal integrated transmission unit integrates the acquired detection data, determines a transmission time sequence, and sends the integrated detection data to the analysis processing unit;

s4: analyzing and processing detection data: and after receiving the detection data, the analysis processing unit analyzes the detection data to form a processing analysis result and feeds the processing analysis result back to the user.

Variations and modifications to the above would be obvious to persons skilled in the art to which the invention pertains from the foregoing description and teachings. Therefore, the invention is not limited to the specific embodiments disclosed and described above, but some modifications and changes of the invention should be also included in the scope of the claims of the invention. In addition, although specific terms are used in the present specification, these terms are for convenience of description only and do not limit the present invention in any way.

Claims (9)

1. The parallel detection device with multiple equipment and multiple detection ports is characterized by comprising an analysis processing unit, N signal integrated transmission units and M signal acquisition units; wherein N is more than or equal to 1, M is more than or equal to 1, and N and M are integers;

the M signal acquisition units are correspondingly connected with the signal integration transmission units, and the N signal integration transmission units are correspondingly connected with the analysis processing unit;

the M signal acquisition units are configured to be correspondingly connected with Y equipment detection ports of external X equipment, wherein M is more than or equal to Y is more than or equal to 1, and N is more than or equal to X is more than or equal to 1; the signal acquisition unit is used for acquiring detection data of the equipment detection port connected with the signal acquisition unit and transmitting the detection data to the signal integrated transmission unit connected with the signal acquisition unit;

the signal integrated transmission units are configured to receive detection data from the signal acquisition units, wherein each signal integrated transmission unit correspondingly receives detection data of all equipment detection ports of each equipment; the signal integrated transmission unit performs integrated processing on the acquired detection data, determines a transmission time sequence, and sends the detection data after the integrated processing to the analysis processing unit;

the analysis processing unit is configured to receive the detection data from each signal integrated transmission unit, perform fault identification and statistical analysis to form a processing analysis result, and interact with a user.

2. The parallel detection device of claim 1, wherein the signal acquisition unit comprises a signal acquisition connector, an acquisition module, and a communication module;

the signal acquisition connector is connected with the acquisition module through a cable, and the acquisition module and the communication module are integrated into the equipment box;

the signal acquisition connector is configured to be connected with the equipment detection port, so that the acquisition module acquires detection data of the equipment detection port through the signal acquisition connector;

the communication module is configured to transmit the detection data to the signal integration transmission unit.

3. The parallel detection apparatus according to claim 2, wherein the equipment box is mounted with a magnetic base fixing mechanism so that the equipment box is fixed by the magnetic base fixing mechanism.

4. The parallel detection apparatus according to claim 1, wherein the signal integrated transmission unit includes a data receiving module, a data processing module, and a data transmission module; the data receiving module is used for receiving detection data transmitted by the signal acquisition unit; the data processing module is configured to perform integrated processing on the received detection data of each equipment detection port and determine a transmission time sequence; the data transmission module is configured to communicate with the analysis processing unit and transmit the received data to the analysis processing unit.

5. The parallel detection device according to claim 1, wherein the analysis processing unit comprises a data receiving module, a fault judging and statistics analysis module and a display control interaction module; the data receiving module is used for receiving data from the signal integrated transmission unit; the fault judging and statistical analysis module is configured to analyze and judge the received data, identify faults and carry out statistical conclusion so as to obtain a processing analysis result; and the display control interaction module is used for displaying the processing result of the fault judgment and statistical analysis module and interacting with a user.

6. The parallel inspection apparatus according to claim 1, wherein one or more equipment inspection ports are provided on each equipment.

7. The parallel detection device according to claim 1, wherein the signal acquisition unit is connected to the signal integrated transmission unit in a wireless communication manner, and the signal integrated transmission unit is connected to the analysis processing unit in a wireless communication manner.

8. The parallel detection arrangement according to claim 7, characterized in that the wireless communication means comprises a bluetooth connection, a Wifi connection or a LORA connection.

9. A parallel detection method of a multi-equipment multi-detection port, characterized by being applied to the parallel detection device according to any one of claims 1 to 8; the detection method comprises the following steps:

s1: establishing connection: m signal acquisition units of the parallel detection device are connected with Y equipment detection ports one by one through signal acquisition connectors;

s2: collecting detection data: the signal acquisition unit acquires detection data sent by the equipment detection port and sends the acquired detection data to the signal integrated transmission unit for integrated processing;

s3: integrating and processing detection data: the signal integrated transmission unit integrates the acquired detection data, determines a transmission time sequence, and sends the integrated detection data to the analysis processing unit;

s4: analyzing and processing detection data: and after receiving the detection data, the analysis processing unit analyzes the detection data to form a processing analysis result and feeds the processing analysis result back to the user.

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