Multi-station anti-interference intelligent electric meter infrared detection device

By designing a multi-station anti-interference smart meter infrared detection device, which uses a transport track and infrared detection components, automated detection of electricity meters is achieved, solving the problem of low detection efficiency in existing technologies and improving detection efficiency and accuracy.

CN224471833UActive Publication Date: 2026-07-07NINGBO JIANAN ELECTRONICS

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NINGBO JIANAN ELECTRONICS
Filing Date
2025-07-04
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In existing technologies, the infrared communication function of electricity meters has low detection efficiency, requiring manual installation and removal, which leads to low detection efficiency.

Method used

Design a multi-station anti-interference smart meter infrared detection device. It adopts a transport track and infrared detection components to realize multi-station automatic detection. The device scans the barcode of the electricity meter with a scanner, uses a push cylinder and baffle to isolate the infrared transceiver to prevent interference, and automatically inserts the detection terminal to collect data.

Benefits of technology

It achieves multi-station automatic infrared detection, with high detection efficiency and accurate results, avoiding interference and inefficiency caused by manual operation.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to a kind of multi-station anti-interference intelligent electric meter infrared detection device, including shell, the pedestal of setting shell inside, be located on the conveying track of pedestal, conveying track is from one end of shell and is from the other end, conveying track both sides are provided with infrared detection component, infrared detection component includes the detection terminal of being located in one side of track and the infrared transceiver of being located in the other side of track and being opposite to detection terminal, detection terminal and infrared transceiver are electrically connected controller, the scanner for scanning the bar code on electric energy meter is equipped above the entrance of conveying track, scanner is electrically connected controller, conveying track's both sides are provided with more than one infrared detection component, and baffle is arranged between adjacent infrared transceiver.The present application can realize the infrared automatic detection of multiple stations, and do not interfere with each other, the present application detection efficiency is high, and detection result is accurate.
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Description

Technical Field

[0001] This utility model relates to a device for infrared function detection of electricity meters. Background Technology

[0002] To test the infrared communication function of an electricity meter, an infrared transceiver is needed to communicate with it, and data is collected through terminal blocks. In existing technology, testing the infrared communication function requires manual installation of each electricity meter onto a testing stand on the stand, followed by removal of the meters after testing, resulting in low efficiency. Summary of the Invention

[0003] In order to overcome the above-mentioned shortcomings in the prior art, this utility model provides an infrared multi-station detection device for electricity meters that can efficiently realize the detection function.

[0004] This utility model is achieved through the following technical solution:

[0005] A multi-station anti-interference smart meter infrared detection device includes a housing, a base inside the housing, and a transport track on the base. The transport track enters from one end of the housing and exits from the other end. Infrared detection components are arranged on both sides of the transport track. Each infrared detection component includes a detection terminal on one side of the track and an infrared transceiver on the other side of the track opposite to the detection terminal. The detection terminal and the infrared transceiver are electrically connected to a controller. A scanner for scanning barcodes on the electricity meter is arranged above the entrance of the transport track. The scanner is electrically connected to the controller. One or more sets of infrared detection components are arranged on both sides of the transport track, and baffles are arranged between adjacent infrared transceivers.

[0006] Preferably, a push cylinder is provided on one side of the transport track, and a transport base driven by the push cylinder to move back and forth is provided on the push cylinder, and the detection terminals are equally spaced on the transport base.

[0007] Preferably, the transport base is provided with detection terminal blocks at equal intervals, and the detection terminals are detachably mounted on the detection terminal blocks.

[0008] Preferably, fixed columns are provided at equal intervals on the other side of the transport track, and the infrared transceiver is mounted on the fixed columns.

[0009] Preferably, sensors are provided on the other side of the transport track for different infrared detection components, and stop cylinders are provided at the bottom of the transport track for each sensor.

[0010] Preferably, an operating console and a display are disposed outside the housing, and the operating console and the display are electrically connected to a controller.

[0011] This application sets up multiple testing stations, each isolated by a baffle to prevent interference between infrared transceivers. When an energy meter is input into this device, its barcode is scanned first to match each energy meter with its respective station, facilitating the matching of subsequent test results with the output. After the energy meter to be tested is located, the testing terminal is automatically inserted into the energy meter, data is collected, and the data is transmitted after the test is completed.

[0012] The beneficial effects of this utility model are as follows: This application can realize automatic infrared detection of multiple workstations without interference between them. This application has high detection efficiency and accurate detection results. Attached Figure Description

[0013] Figure 1 This is a schematic diagram of the external structure of this utility model.

[0014] Figure 2 This is a schematic diagram of the internal structure of this utility model.

[0015] Figure 3 yes Figure 2 A top-view structural diagram. Detailed Implementation

[0016] The utility model will now be described in further detail with reference to the accompanying drawings and specific embodiments.

[0017] like Figure 1 , 2 As shown in Figure 3, a multi-station anti-interference smart meter infrared detection device includes a housing 14, a base disposed within the housing, and a transport track 1 disposed on the base. An operating table and a display are disposed outside the housing, and the operating table and display are electrically connected to a controller. The transport track 1 enters from one end of the housing and exits from the other end. Above the entrance of the transport track is a scanner 13 for scanning barcodes on the electricity meter. The scanner 13 is electrically connected to the controller. When the electricity meter is input, the barcode is scanned first, and the controller matches it with each of the internal detection stations one by one.

[0018] Three sets of infrared detection components are installed on both sides of the transport track. Each infrared detection component includes a detection terminal 2 located on one side of the track and an infrared transceiver 4 located on the other side of the track opposite the detection terminal. Both the detection terminal 2 and the infrared transceiver 4 are electrically connected to a controller. A baffle 6 is installed between adjacent infrared transceivers. The installation of three sets of infrared detection components enables synchronous infrared detection at three workstations. The baffle 6 between adjacent infrared transceivers effectively prevents mutual interference and ensures the accuracy of the detection.

[0019] A push cylinder 9 is installed on one side of the transport track, and a transport base 7 driven by the push cylinder to move back and forth is installed on the push cylinder. Detection terminal seats 10 are evenly spaced on the transport base, and detection terminals 2 are detachably mounted on the detection terminal seats 10. The detection terminals are mounted on the detection terminal seats, for example, by screw locking, so that the detection terminals can be replaced according to different models of electricity meters to adapt to the detection of different electricity meters. Fixed column seats 5 are evenly spaced on the other side of the transport track, and infrared transceivers 4 are mounted on the fixed column seats.

[0020] On the other side of the transport track, sensors 12 are installed for different infrared detection components, and at the bottom of the transport track, stop cylinders 11 are installed for each sensor. When the energy meter to be tested is transported to the corresponding position, it is detected by the sensor, and the stop cylinder stops it, limiting it to the corresponding position, so as to facilitate the subsequent insertion of the test terminal.

[0021] This application sets up multiple testing stations, and each station is isolated from the others by a baffle 6 to prevent interference between the infrared transceivers. When the electricity meter is input into this device, the barcode is scanned first to match each electricity meter with each station, which facilitates the matching of subsequent test results with the output. After the electricity meter to be tested is located, the test terminal can be automatically inserted into the electricity meter, and then the data is collected and transmitted after the test is completed.

[0022] This application enables automatic infrared detection at multiple workstations without interference, resulting in high detection efficiency and accurate detection results.

Claims

1. A multi-station anti-interference smart meter infrared detection device, comprising a housing, a base disposed within the housing, and a transport track disposed on the base, the transport track passing through one end of the housing and exiting from the other end, infrared detection components disposed on both sides of the transport track, each infrared detection component comprising a detection terminal disposed on one side of the track and an infrared transceiver disposed on the other side of the track opposite to the detection terminal, the detection terminal and the infrared transceiver being electrically connected to a controller, characterized in that: A scanner for scanning barcodes on electricity meters is installed above the entrance of the transport track. The scanner is electrically connected to a controller. One or more sets of infrared detection components are installed on both sides of the transport track, and baffles are installed between adjacent infrared transceivers.

2. The infrared detection device for a multi-station anti-interference smart meter according to claim 1, characterized in that: A pusher cylinder is provided on one side of the transport track, and a transport base driven by the pusher cylinder to move back and forth is provided on the pusher cylinder. The detection terminals are equally spaced on the transport base.

3. The infrared detection device for a multi-station anti-interference smart meter according to claim 2, characterized in that: The transport base is provided with detection terminal blocks at equal intervals, and the detection terminals are detachably mounted on the detection terminal blocks.

4. The infrared detection device for a multi-station anti-interference smart meter according to claim 3, characterized in that: Fixed columns are provided at equal intervals on the other side of the transport track, and the infrared transceiver is mounted on the fixed columns.

5. A multi-station anti-interference smart meter infrared detection device according to any one of claims 1 to 4, characterized in that: On the other side of the transport track, sensors are provided for different infrared detection components, and at the bottom of the transport track, stop cylinders are provided for each sensor.

6. The infrared detection device for a multi-station anti-interference smart meter according to claim 5, characterized in that: An operating console and a display are disposed outside the housing, and the operating console and the display are electrically connected to a controller.