CN118229942A - Block terminal data detection transmitting system based on wireless communication network transmission - Google Patents

Abstract

The invention relates to a distribution box data detection and transmission system based on wireless communication network transmission, which comprises the following steps: the front view acquisition mechanism is used for performing image data acquisition operation on the front face of the box body of the distribution box of the transformer substation; and the third capturing component is used for matching the geometric shape corresponding to the edge of the imaging area corresponding to the distribution box with the geometric shape corresponding to the edge of the standard front view graph of the distribution box, and determining the current deformity level corresponding to the distribution box based on a matching result. According to the invention, the imaging area corresponding to the distribution box can be searched in the received multilayer optimized image according to the imaging characteristics of the distribution box, each pixel occupying the edge of the imaging area corresponding to the distribution box is obtained as each target pixel, and the current deformity grade corresponding to the distribution box is further judged, so that the targeted and high-precision detection processing of the appearance of the distribution box at each place is completed.

Description

Block terminal data detection transmitting system based on wireless communication network transmission

Technical Field

The invention relates to the field of wireless communication, in particular to a distribution box data detection and transmission system based on wireless communication network transmission.

Background

The distribution box is electric equipment, has the characteristics of small volume, simple installation, special technical performance, fixed position, unique configuration function, no limit of places, more common application, stable and reliable operation, high space utilization rate, small occupied area and environmental protection effect. The mass parameters on the distribution box data generally form low-voltage forest according to electric wiring, and the switch equipment, the measuring instrument, the protection electric appliance and the auxiliary equipment are required to be assembled in a closed or semi-closed metal cabinet or on a screen, so that the low-voltage distribution box is formed. The circuit can be switched on or off by means of a manual or automatic switch during normal operation.

For example, an outdoor multifunctional low-voltage distribution box is disclosed in patent document number CN115513807a, and comprises a distribution box body and a protection piece, wherein the protection piece comprises a protection bottom support, a protection middle layer and a protection top support; the protective bottom support is of a tank structure with an open top, a bottom support piece for positioning and supporting the distribution box body is fixed at the open position of the protective bottom support, an extension cavity with the open top is formed in the circumferential side wall of the protective bottom support, the protective middle layer is arranged in the extension cavity, a circle of sealing ring I is arranged on the outer wall of the bottom end of the protective middle layer, and a circle of sealing ring II is arranged on the inner side of the extension cavity; a circle of sealing rings III are arranged at the bottom side of the protective top support, and a circle of sealing rings IV are arranged on the outer wall of the top end of the protective middle layer; after the first sealing ring is abutted with the second sealing ring and the third sealing ring is abutted with the fourth sealing ring, the protection bottom support, the protection middle layer and the protection top support separate the distribution box body from the outside for sealing, and the distribution box has a good totally-enclosed sealing effect and can be automatically opened for ventilation and heat dissipation so as to achieve the effect of rapid heat dissipation. The distribution box is easy to be subjected to external force action or environmental erosion due to the fact that the distribution box is generally placed in an outdoor environment or even in a field environment, so that the box body of the distribution box is damaged or even lost in shape, and certain influence can be caused on the layout or even the body of the components inside the distribution box in the lost shape state, and therefore high-precision lost shape detection is needed to be carried out to avoid the distribution box from being trapped in potential safety hazards.

Disclosure of Invention

The invention provides a distribution box data detection and transmission system based on wireless communication network transmission, which can solve the technical problems, and comprises the following components:

the front view acquisition mechanism is used for performing image data acquisition operation on the front face of the box body of the distribution box of the transformer substation so as to obtain and output a corresponding front view acquisition image, and the lens plane of the imaging lens of the front view acquisition mechanism is parallel to the plane where the front face of the box body of the distribution box is positioned;

The multi-layer optimizing mechanism is connected with the front view acquisition mechanism and comprises a band-stop filter device, a real-time enhancement device and a content sharpening device, wherein the band-stop filter device is used for performing band-stop filter processing on the received front view acquisition image to obtain and output a corresponding band-stop filter image, the real-time enhancement device is used for performing image frequency domain enhancement processing on the received band-stop filter image to obtain and output a corresponding real-time enhancement image, and the content sharpening device is used for performing image content sharpening processing based on a spatial domain differentiation method on the received real-time enhancement image to obtain and output a corresponding multi-layer optimized image;

The first capturing component is connected with the multilayer optimizing mechanism and is used for searching an imaging area corresponding to the distribution box in the received multilayer optimized image according to imaging characteristics of the distribution box, wherein the imaging characteristics are brightness imaging characteristics;

the second capturing component is connected with the first capturing component and is used for acquiring each pixel point occupying the edge of the imaging area corresponding to the distribution box to serve as each target pixel point, and analyzing the geometric shape corresponding to the edge of the imaging area corresponding to the distribution box at each position in the multilayer optimized image based on each target pixel point;

the third capturing component is connected with the second capturing component and is used for matching the geometric shape corresponding to the edge of the imaging area corresponding to the distribution box with the geometric shape corresponding to the edge of the standard front view graph of the distribution box, and determining the current deformity grade corresponding to the distribution box based on a matching result;

The wireless transmission component is connected with the third capturing component and is used for packaging the determined current deformity level corresponding to the distribution box and the box body number of the distribution box into a network data packet together and wirelessly transmitting the network data packet to a remote equipment management server;

The imaging characteristics of the distribution box are brightness imaging characteristics, and the imaging areas corresponding to the distribution box are searched in the received multilayer optimized images, wherein the imaging characteristics comprise: and the brightness imaging characteristic is a brightness value distribution interval defined by a brightness value upper limit threshold value and a brightness value lower limit threshold value corresponding to the distribution box.

The distribution box data detection and transmission system based on wireless communication network transmission has the technical advantages that: according to imaging characteristics of the distribution box, an imaging area corresponding to the distribution box is searched in the received multilayer optimized image, each pixel occupying the edge of the imaging area corresponding to the distribution box is obtained to serve as each target pixel, the geometric shape corresponding to the edge of the imaging area corresponding to the distribution box is analyzed at each position in the multilayer optimized image based on each target pixel, the geometric shape corresponding to the edge of the imaging area corresponding to the distribution box is matched with the geometric shape corresponding to the edge of the standard front view graph of the distribution box, the current abnormal grade corresponding to the distribution box is determined based on the matching result, finally, a wireless transmission component is used for packaging the determined current abnormal grade corresponding to the distribution box and the box number of the distribution box together into a network data packet and transmitting the network data packet to a remote equipment management server, and therefore the specific and high-precision detection of the appearance of the distribution box at each position is completed.

Drawings

Embodiments of the present invention will be described below with reference to the accompanying drawings.

Fig. 1 is a schematic diagram showing an internal structure of a distribution box data detection and transmission system based on wireless communication network transmission according to an embodiment of the present invention.

Fig. 2 is a schematic diagram showing an internal structure of a data detection and transmission system for a distribution box based on wireless communication network transmission according to an embodiment B of the present invention.

Fig. 3 is a schematic diagram showing an internal structure of a data detection and transmission system for a distribution box based on wireless communication network transmission according to embodiment C of the present invention.

Detailed Description

An embodiment of the wireless communication network transmission-based power distribution box data detection and transmission system according to the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a schematic diagram showing an internal structure of a distribution box data detection and transmission system based on wireless communication network transmission according to an embodiment of the present invention, the system comprising:

the front view acquisition mechanism is used for performing image data acquisition operation on the front face of the box body of the distribution box of the transformer substation so as to obtain and output a corresponding front view acquisition image, and the lens plane of the imaging lens of the front view acquisition mechanism is parallel to the plane where the front face of the box body of the distribution box is positioned;

The front view collection mechanism is used for performing image data collection operation on the front face of the box body of the distribution box of the transformer substation to obtain and output corresponding front view collection images, and the lens plane of the imaging lens of the front view collection mechanism is parallel to the plane where the front face of the box body of the distribution box is located and comprises: the front view acquisition mechanism is internally provided with an image sensor and an imaging lens and is used for performing image data acquisition operation on the front side of a box body of a distribution box of the transformer substation so as to obtain and output a corresponding front view acquisition image;

The multi-layer optimizing mechanism is connected with the front view acquisition mechanism and comprises a band-stop filter device, a real-time enhancement device and a content sharpening device, wherein the band-stop filter device is used for performing band-stop filter processing on the received front view acquisition image to obtain and output a corresponding band-stop filter image, the real-time enhancement device is used for performing image frequency domain enhancement processing on the received band-stop filter image to obtain and output a corresponding real-time enhancement image, and the content sharpening device is used for performing image content sharpening processing based on a spatial domain differentiation method on the received real-time enhancement image to obtain and output a corresponding multi-layer optimized image;

The first capturing component is connected with the multilayer optimizing mechanism and is used for searching an imaging area corresponding to the distribution box in the received multilayer optimized image according to imaging characteristics of the distribution box, wherein the imaging characteristics are brightness imaging characteristics;

the second capturing component is connected with the first capturing component and is used for acquiring each pixel point occupying the edge of the imaging area corresponding to the distribution box to serve as each target pixel point, and analyzing the geometric shape corresponding to the edge of the imaging area corresponding to the distribution box at each position in the multilayer optimized image based on each target pixel point;

the third capturing component is connected with the second capturing component and is used for matching the geometric shape corresponding to the edge of the imaging area corresponding to the distribution box with the geometric shape corresponding to the edge of the standard front view graph of the distribution box, and determining the current deformity grade corresponding to the distribution box based on a matching result;

The wireless transmission component is connected with the third capturing component and is used for packaging the determined current deformity level corresponding to the distribution box and the box body number of the distribution box into a network data packet together and wirelessly transmitting the network data packet to a remote equipment management server;

The imaging characteristics of the distribution box are brightness imaging characteristics, and the imaging areas corresponding to the distribution box are searched in the received multilayer optimized images, wherein the imaging characteristics comprise: the brightness imaging characteristic is a brightness value distribution interval defined by a brightness value upper limit threshold value and a brightness value lower limit threshold value corresponding to the distribution box;

The wireless transmission component is connected with the third capturing component, and is used for packaging the determined current deformity level corresponding to the distribution box and the box body number of the distribution box into a network data packet together, and wirelessly transmitting the network data packet to a remote device management server, and the device management server comprises: the wireless transmission component is based on a time division duplex communication link or a frequency division duplex communication link;

The multi-layer optimizing mechanism is connected with the front view acquisition mechanism and comprises a band-stop filter device, a real-time enhancing device and a content sharpening device, wherein the band-stop filter device is used for performing band-stop filter processing on a received front view acquisition image to obtain and output a corresponding band-stop filter image, the real-time enhancing device is used for performing image frequency domain enhancing processing on the received band-stop filter image to obtain and output a corresponding real-time enhancing image, and the content sharpening device is used for performing image content sharpening processing based on a spatial domain differential method on the received real-time enhancing image to obtain and output a corresponding multi-layer optimizing image and comprises: the real-time enhancement device is connected with the band-stop filter device and the content sharpening device respectively.

Fig. 2 is a schematic diagram showing an internal structure of a data detection and transmission system for a distribution box based on wireless communication network transmission according to an embodiment B of the present invention.

In comparison with the embodiment distribution box, the distribution box data detection and transmission system based on wireless communication network transmission shown in embodiment B may further include the following components:

A parallel data interface for the multi-layer optimization mechanism, the first capture component, the second capture component, and the third capture component to be respectively connected to receive data from the multi-layer optimization mechanism, the first capture component, the second capture component, and the third capture component, respectively, and to send parallel data from a parallel data bus to the multi-layer optimization mechanism, the first capture component, the second capture component, and the third capture component, respectively;

Wherein the parallel data interface is configured to connect the multi-layer optimization mechanism, the first capturing component, the second capturing component, and the third capturing component, respectively, to receive data from the multi-layer optimization mechanism, the first capturing component, the second capturing component, and the third capturing component, respectively, and to send parallel data from a parallel data bus to the multi-layer optimization mechanism, the first capturing component, the second capturing component, and the third capturing component, respectively, including: the parallel data bus is one of a 16-bit parallel data bus and a 32-parallel data bus.

Fig. 3 is a schematic diagram showing an internal structure of a data detection and transmission system for a distribution box based on wireless communication network transmission according to embodiment C of the present invention.

In comparison with the embodiment distribution box, the distribution box data detection and transmission system based on wireless communication network transmission shown in embodiment C may further include the following components:

and the user control interface is respectively connected with the multilayer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component and is used for receiving control instructions of a user on the multilayer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component.

Next, a specific configuration of the system for detecting and transmitting data of a power distribution box based on transmission through a wireless communication network according to the present invention will be further described.

In the distribution box data detection and transmission system based on wireless communication network transmission according to any embodiment of the present invention:

The multi-layer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component are connected with the same quartz oscillation device and are used for acquiring time sequence data provided by the quartz oscillation device, the multi-layer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component are respectively connected with the same content storage chip, and the content storage chip is one of an FL distribution box SH flash memory, an SDR distribution box M storage chip and a DDR storage chip.

In the distribution box data detection and transmission system based on wireless communication network transmission according to any embodiment of the present invention:

The multi-layer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component are respectively connected with the same IIC control bus and used for receiving various control commands sent by the IIC control bus, and the various control commands are used for respectively configuring various working parameters of the multi-layer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component.

In the distribution box data detection and transmission system based on wireless communication network transmission according to any embodiment of the present invention:

The multi-layer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component are respectively connected with the IIC control bus and used for receiving various control instructions sent through the IIC control bus.

In the distribution box data detection and transmission system based on wireless communication network transmission according to any embodiment of the present invention:

the multi-layer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component are respectively connected with the same MCU controller and used for being respectively switched between a sleep mode and a working mode under the control of the same MCU controller.

And in the wireless communication network transmission-based power distribution box data detection and transmission system according to any embodiment of the present invention:

The multi-layer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component are respectively connected with a same MCU controller, and are used for being respectively switched between a sleep mode and a working mode under the control of the same MCU controller, wherein the multi-layer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component comprise: the same MCU controller is based on ARM13 kernel design

In addition, in the distribution box data detection and transmission system based on wireless communication network transmission, the multi-layer optimization mechanism is connected with the front view acquisition mechanism and comprises a band-stop filter device, a real-time enhancement device and a content sharpening device, wherein the band-stop filter device is used for performing band-stop filter processing on the received front view acquisition image to obtain and output a corresponding band-stop filter image, the real-time enhancement device is used for performing image frequency domain enhancement processing on the received band-stop filter image to obtain and output a corresponding real-time enhancement image, and the content sharpening device is used for performing image content sharpening processing based on a spatial domain differential method on the received real-time enhancement image to obtain and output a corresponding multi-layer optimization image and further comprises: and the multilayer optimization mechanism is internally provided with a quartz oscillation device which is respectively connected with the band-stop filter device, the real-time enhancement device and the content sharpening device and is used for respectively providing the band-stop filter device, the real-time enhancement device and the content sharpening device with reference clock sequences required by the band-stop filter device, the real-time enhancement device and the content sharpening device.

The technology of the invention has the outstanding substantive characteristics and remarkable progress that:

first,: searching an imaging region corresponding to the distribution box in the received multilayer optimized image according to imaging characteristics of the distribution box, wherein the imaging characteristics are brightness imaging characteristics, acquiring each pixel occupying the edge of the imaging region corresponding to the distribution box as each target pixel, and analyzing the geometric shape corresponding to the edge of the imaging region corresponding to the distribution box at each position in the multilayer optimized image based on each target pixel;

secondly: matching the geometric shape corresponding to the edge of the imaging area corresponding to the distribution box with the geometric shape corresponding to the edge of the standard front view graph of the distribution box, and determining the current deformity level corresponding to the distribution box based on a matching result;

Again: and the wireless transmission component is used for packaging the determined current deformity grade corresponding to the distribution box and the box body number of the distribution box into a network data packet together and transmitting the network data packet to a remote equipment management server in a wireless way.

According to the distribution box data detection and transmission system based on wireless communication network, whether the distribution box is out of shape or not is difficult to detect with high precision in the prior art, the imaging area corresponding to the distribution box can be searched out in the received multilayer optimized image according to the imaging characteristics of the distribution box, each pixel occupying the edge of the imaging area corresponding to the distribution box is obtained to serve as each target pixel, the current abnormal grade corresponding to the distribution box is judged, and therefore the targeted and high-precision detection processing of the appearance of the distribution box at each place is completed.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above embodiments, and modifications may be made within the gist of the present invention.

Claims (9)

1. A system for detecting and transmitting data of a distribution box based on wireless communication network transmission, the system comprising:

the front view acquisition mechanism is used for performing image data acquisition operation on the front face of the box body of the distribution box of the transformer substation so as to obtain and output a corresponding front view acquisition image, and the lens plane of the imaging lens of the front view acquisition mechanism is parallel to the plane where the front face of the box body of the distribution box is positioned;

The multi-layer optimizing mechanism is connected with the front view acquisition mechanism and comprises a band-stop filter device, a real-time enhancement device and a content sharpening device, wherein the band-stop filter device is used for performing band-stop filter processing on the received front view acquisition image to obtain and output a corresponding band-stop filter image, the real-time enhancement device is used for performing image frequency domain enhancement processing on the received band-stop filter image to obtain and output a corresponding real-time enhancement image, and the content sharpening device is used for performing image content sharpening processing based on a spatial domain differentiation method on the received real-time enhancement image to obtain and output a corresponding multi-layer optimized image;

The first capturing component is connected with the multilayer optimizing mechanism and is used for searching an imaging area corresponding to the distribution box in the received multilayer optimized image according to imaging characteristics of the distribution box, wherein the imaging characteristics are brightness imaging characteristics;

the second capturing component is connected with the first capturing component and is used for acquiring each pixel point occupying the edge of the imaging area corresponding to the distribution box to serve as each target pixel point, and analyzing the geometric shape corresponding to the edge of the imaging area corresponding to the distribution box at each position in the multilayer optimized image based on each target pixel point;

the third capturing component is connected with the second capturing component and is used for matching the geometric shape corresponding to the edge of the imaging area corresponding to the distribution box with the geometric shape corresponding to the edge of the standard front view graph of the distribution box, and determining the current deformity grade corresponding to the distribution box based on a matching result;

The wireless transmission component is connected with the third capturing component and is used for packaging the determined current deformity level corresponding to the distribution box and the box body number of the distribution box into a network data packet together and wirelessly transmitting the network data packet to a remote equipment management server;

The imaging characteristics of the distribution box are brightness imaging characteristics, and the imaging areas corresponding to the distribution box are searched in the received multilayer optimized images, wherein the imaging characteristics comprise: and the brightness imaging characteristic is a brightness value distribution interval defined by a brightness value upper limit threshold value and a brightness value lower limit threshold value corresponding to the distribution box.

2. The wireless communication network transmission-based power distribution box data detection and transmission system as claimed in claim 1, wherein:

the wireless transmission part is connected with the third capturing part and is used for packaging the determined current malformation grade corresponding to the distribution box and the box body number of the distribution box into a network data packet together and wirelessly transmitting the network data packet to a remote device management server, and the device management server comprises: the wireless transmission component is based on a time division duplex communication link or a frequency division duplex communication link;

The multi-layer optimizing mechanism is connected with the front view acquisition mechanism and comprises a band-stop filter device, a real-time enhancing device and a content sharpening device, wherein the band-stop filter device is used for performing band-stop filter processing on a received front view acquisition image to obtain and output a corresponding band-stop filter image, the real-time enhancing device is used for performing image frequency domain enhancing processing on the received band-stop filter image to obtain and output a corresponding real-time enhancing image, and the content sharpening device is used for performing image content sharpening processing based on a spatial domain differential method on the received real-time enhancing image to obtain and output a corresponding multi-layer optimizing image and comprises: the real-time enhancement device is connected with the band-stop filter device and the content sharpening device respectively.

3. The wireless communication network transmission-based power distribution box data detection and transmission system according to claim 2, wherein the system further comprises:

A parallel data interface for the multi-layer optimization mechanism, the first capture component, the second capture component, and the third capture component to be respectively connected to receive data from the multi-layer optimization mechanism, the first capture component, the second capture component, and the third capture component, respectively, and to send parallel data from a parallel data bus to the multi-layer optimization mechanism, the first capture component, the second capture component, and the third capture component, respectively;

Wherein the parallel data interface is configured to connect the multi-layer optimization mechanism, the first capturing component, the second capturing component, and the third capturing component, respectively, to receive data from the multi-layer optimization mechanism, the first capturing component, the second capturing component, and the third capturing component, respectively, and to send parallel data from a parallel data bus to the multi-layer optimization mechanism, the first capturing component, the second capturing component, and the third capturing component, respectively, including: the parallel data bus is one of a 16-bit parallel data bus and a 32-parallel data bus.

4. A system for detecting and transmitting data of a power distribution box based on transmission of a wireless communication network as claimed in claim 3, wherein said system further comprises:

and the user control interface is respectively connected with the multilayer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component and is used for receiving control instructions of a user on the multilayer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component.

5. A system for detecting and transmitting data of distribution box based on wireless communication network transmission as claimed in any one of claims 2-4, wherein:

The multi-layer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component are connected with the same quartz oscillation device and are used for acquiring time sequence data provided by the quartz oscillation device, the multi-layer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component are respectively connected with the same content storage chip, and the content storage chip is one of an FL distribution box SH flash memory, an SDR distribution box M storage chip and a DDR storage chip.

6. A system for detecting and transmitting data of distribution box based on wireless communication network transmission as claimed in any one of claims 2-4, wherein:

The multi-layer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component are respectively connected with the same IIC control bus and used for receiving various control commands sent by the IIC control bus, and the various control commands are used for respectively configuring various working parameters of the multi-layer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component.

7. The wireless communication network transmission-based power distribution box data detection and transmission system as claimed in claim 6, wherein:

The multi-layer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component are respectively connected with the IIC control bus and used for receiving various control instructions sent through the IIC control bus.

8. A system for detecting and transmitting data of distribution box based on wireless communication network transmission as claimed in any one of claims 2-4, wherein:

the multi-layer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component are respectively connected with the same MCU controller and used for being respectively switched between a sleep mode and a working mode under the control of the same MCU controller.

9. The wireless communication network transmission-based power distribution box data detection and transmission system as claimed in claim 8, wherein:

The multi-layer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component are respectively connected with a same MCU controller, and are used for being respectively switched between a sleep mode and a working mode under the control of the same MCU controller, wherein the multi-layer optimizing mechanism, the first capturing component, the second capturing component and the third capturing component comprise: the same MCU controller is based on ARM13 kernel design.