CN113993335B - Line fault arrangement equipment for machine room server and implementation method thereof - Google Patents

Abstract

The invention discloses line fault arranging equipment for a machine room server and an implementation method thereof, and relates to the technical field of machine room maintenance. In the invention: the upper side of the driving device is fixedly provided with a vertical flat rack, one side surface of the flat rack is provided with a group of first positioning readers, the other side surface of the flat rack is provided with a group of second positioning readers, and the height positions of the first positioning readers and the second positioning readers are matched with the height position of the positioning bar code. One side of the pallet is provided with a set of first side camera modules positioned above the first positioning readers, and the other side of the pallet is provided with a set of second side camera modules positioned above the second positioning readers. According to the invention, the deflection angle camera shoots the deflection angle of the two sides of the fixed interface panel in different positions to obtain the line wiring splicing image information in the long and narrow back space, so that the abnormal situation of cable splicing in the back space is conveniently and accurately detected, and the overhauling labor intensity of the cabinet back side interface of a technician is also reduced.

Description

Line fault arrangement equipment for machine room server and implementation method thereof

Technical Field

The invention relates to the technical field of machine room maintenance, in particular to line fault arranging equipment for a machine room server and an implementation method thereof.

Background

When arranging the rack in the computer lab, in order neatly and can save space, all with the orderly back installation of rack, arranged corresponding cable between the rack of two sets of backs, the cable is connected on the rack from the long and narrow space between two sets of racks. In case of cable connection faults, after the outer side surface of the cabinet is detected and outside connection faults are removed, cable connection conditions between the two sets of cabinets need to be measured, and therefore, long and narrow space between the two sets of cabinets is difficult to measure when line inspection is carried out. How to conveniently and accurately arrange and measure the connection state of long and narrow space lines between cabinet groups becomes a problem to be solved.

Disclosure of Invention

The technical problem to be solved by the invention is to provide line fault arrangement equipment for a machine room server and an implementation method thereof, wherein the line fault arrangement equipment is used for shooting deflection angles of two sides of a fixed interface panel in different positions through a deflection angle camera to obtain line wiring splicing image information in a long and narrow back space, so that the abnormal situation of cable splicing in the back space is conveniently and accurately arranged and measured.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention provides line fault arranging equipment for a machine room server, which is arranged between two groups of parallel cabinets, wherein a backrest space is formed between the two groups of parallel cabinets, a ceiling frame is arranged above the cabinets, flat cables are arranged downwards on the ceiling frame and downwards enter the backrest space, a cabinet interface panel for connecting the flat cables is arranged on the back side of the cabinets, and the cabinet interface panel comprises a plurality of first longitudinal interfaces and a plurality of second longitudinal interfaces.

Every rack dorsal surface is equipped with a set of location bar code, and the dorsal surface bottom fixed mounting of rack has the bottom side support frame, and bottom side support frame upside disposes the upside guide rail, and upside guide rail top disposes drive arrangement, and drive arrangement includes power pack and drive assembly, and the drive arrangement bottom is equipped with the four-wheel structure, has a set of coaxial drive wheel at least, and the drive wheel is connected with drive assembly. The upper side of the driving device is fixedly provided with a vertical flat plate frame, one side surface of the flat plate frame is provided with a group of first positioning readers, the other side surface of the flat plate frame is provided with a group of second positioning readers, and the height positions of the first positioning readers and the second positioning readers are matched with the height position of the positioning bar code.

One side surface of the pallet is provided with a group of first side surface camera modules positioned above the first positioning reader, and the other side surface of the pallet is provided with a group of second side surface camera modules positioned above the second positioning reader; a first deflection angle camera is arranged in one of the first side face camera module and the second side face camera module, and a second deflection angle camera is arranged in the other one of the first side face camera module and the second side face camera module.

The driving device comprises a main controller, the main controller is electrically connected with the power unit, the first positioning reader and the second positioning reader are connected with the main controller through data lines, and the main controller is connected with the first side face camera module and the second side face camera module through electric signals and data lines.

As an optimal technical scheme of the equipment for arranging the line fault of the machine room server, the invention comprises the following steps: the bottom side support frame includes the bracer, goes up the bracer and has seted up on the side and place the draw-in groove, and upside guide rail bottom side is equipped with places the card strip, places the cooperation of card strip and installs in placing the draw-in groove.

As an optimal technical scheme of the equipment for arranging the line fault of the machine room server, the invention comprises the following steps: the main controller is internally preset with positioning bar code positioning information of a plurality of equipment cabinet back side surfaces at the same side, and the positioning bar code positioning information is divided into two groups

、

。

As an optimal technical scheme of the equipment for arranging the line fault of the machine room server, the invention comprises the following steps: the power unit comprises a power battery and a driving motor, and a reverse control module electrically connected with the driving motor is arranged in the main controller.

As an optimal technical scheme of the equipment for arranging the line fault of the machine room server, the invention comprises the following steps: the shooting directions of the first declination camera and the second declination camera are inclined outwards, and the angles of the first declination camera and the second declination camera inclined outwards are mutually symmetrical.

As an optimal technical scheme of the equipment for arranging the line fault of the machine room server, the invention comprises the following steps: the upper and lower positions of the first side camera module and the second side camera module of the pallet are provided with light supplementing plates, and the main controller is in electric control connection with the light supplementing plates.

As an optimal technical scheme of the equipment for arranging the line fault of the machine room server, the invention comprises the following steps: the distance between two first side camera modules on the same side is the same as the distance between two second side camera modules on the other same side, and the distance between two first positioning readers on the same side is the same as the distance between two second positioning readers on the other same side; the distance between the two first side camera modules is set as

On the same side asIs spaced from the two first positioning readers

The width dimension of the cabinet interface panel is

Then exist

。

The invention relates to an implementation method of line fault arranging equipment for a machine room server, which comprises the following steps:

(1) And placing the combination of the driving device and the pallet above the upper guide rail, and clamping the driving wheel in the initial section zone of the upper guide rail. (2) The driving device moves forward towards the interior of the backrest space, and in the process of moving forward, when the first positioning reader on one side of the pallet obtains the first positioning bar code on the back side of the first cabinet, the first deflection angle camera of the first side face camera module shoots the insertion condition of the first longitudinal interface on the cabinet interface panel on the back side of the cabinet. (3) After the photographing of the first deflection camera is finished, the driving device continues to move forward, and when another first positioning reader on the same side of the pallet obtains a second positioning bar code on the back side of the first cabinet, a second deflection camera of another first side face camera module photographs the plugging condition of a second longitudinal interface on the cabinet interface panel on the back side of the cabinet. (4) And the driving device continues to advance, and the second cabinet to the cabinet interface panel on the back side of the nth cabinet in the same side direction on the advancing path are photographed in the corresponding direction angle in sequence. (5) After the second deflection angle camera on the pallet finishes photographing the cabinet interface panel on the back side of the nth cabinet in the same side direction, the reverse control module in the driving device is controlled to intervene, the output direction of the driving motor in the driving device is changed, and the driving wheel moves reversely to drive the driving device and the pallet to move reversely. (6) In the process of reverse movement of the driving device, the second positioning reader on the other side of the pallet acquires the positioning bar code on the back side of the cabinet on the same side position on the other side, and the first deflection angle camera and the second deflection angle camera of the second side face camera module on the other side of the pallet take pictures of the corresponding azimuth angle on the cabinet interface panel on the back side of the cabinet. (7) And after the driving device moves reversely to the last cabinet at the same side and finishes photographing the cabinet interface panel at the back side of the last cabinet, the driving device and the flat plate frame finish the line fault detection of the back space of the cabinet group, and the driving device and the flat plate frame are stopped and taken down.

As an optimized technical scheme of the implementation method of the line fault arrangement equipment in the invention: the main processing controller acquires photographing image information of the first deflection angle camera and the second deflection angle camera, synchronously acquires cabinet positioning information of the current action camera, uploads the image information and the cabinet positioning information to the server, and the server compares and analyzes the image information and judges the plugging condition of an interface connector of the cabinet interface panel in the current picture.

As a preferred technical scheme of the implementation method of the line fault arranging equipment in the invention: when the first declination camera and the second declination camera take pictures, the main controller controls the light supplementing plates at corresponding positions to supplement light.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the driving device which can freely reciprocate is arranged in the back space between the cabinet groups, the flat plate frame is arranged on the upper side of the driving device, the positioning reader matched with the positioning bar code on the cabinet is arranged on the flat plate frame, and the deflection angle camera shoots the deflection angle of the two sides of the fixed interface panel in different positions to obtain the wiring splicing image information in the long and narrow back space, so that the abnormal situation of cable splicing in the back space can be conveniently and accurately measured;

2. the invention can be matched with the image information analysis and comparison of the server to quickly finish the image shooting comparison and analysis of the deflection angle camera, thereby reducing the overhaul labor intensity of the back side interface of the cabinet of technicians.

Drawings

FIG. 1 is a schematic diagram of a circuit fault elimination device disposed in a backrest space of a cabinet according to the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

FIG. 3 is a partially enlarged schematic view of the structure at B in FIG. 1;

FIG. 4 is a schematic structural view of a back side of the cabinet of the present invention;

FIG. 5 is a schematic view of the combined (side view) structure of the driving device and the pallet of the present invention;

fig. 6 is a schematic diagram of an off-position off-angle camera shooting an interface panel of a cabinet according to the present invention;

wherein: 1, a cabinet; 2-a ceiling rack; 3-arranging wires; 4-a back space; 5-bottom side support frame, 501-upper support block, 502-placing clamping groove; 6-upper side guide rail, 601-placing clamping strip; 7-drive means, 701-power unit, 702-drive assembly, 703-drive wheels; 8-a pallet; 9-a first positioning reader; 10-a second positioning reader; 11-a first side camera module, pa-a first deflection angle camera and Pb-a second deflection angle camera; 12-a second side camera module; 13-cabinet interface panel, 1301-first vertical interface, 1302-second vertical interface; 14-positioning the bar code; 15-light supplement board.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example one

In the invention, the cabinets 1 on both sides are not necessarily completely aligned, and a deviation is also a normal phenomenon, and the positions of the second longitudinal interfaces 1302 on the back sides of the cabinets 1 on both sides may deviate, so that the cabinet interface panels 13 on the back sides of the cabinets 1 on both sides need to be photographed independently, and in an actual photographing process, the cabinet interface panels 13 on the back sides of the cabinets 1 on one side can be photographed preferentially [ because the driving device 7 still needs to return, and the other side is photographed continuously during the return process, the cameras on both sides of the flat plate rack 8 are photographed, and the light filling plate 15 continuously flickers to possibly cause more shadows, so that the camera on the other side is photographed unclear and inaccurate. Moreover, the technician can observe in real time through the handheld device, the two sides of the pallet 8 are shot simultaneously, the technician may not have time to observe the image carefully and easily neglect details ].

Example two

When the upper guide rails 6 are installed, firstly, after the plurality of cabinets 1 are installed in a flush manner, the bottom side support frames 5 on the back sides of the plurality of cabinets 1 are all located at the same height position, the upper guide rails 6 are directly inserted into the back space 4, then the placing clamping strips 601 of the upper guide rails 6 are placed into the placing clamping grooves 502 of the upper support blocks 501, so that the upper guide rails 6 are stably placed, the driving wheels 703 on the bottom side of the driving device 7 can also advance and retreat on the upper guide rails 6, at least one group of two coaxial wheels are the driving wheels 703, and the driving wheels 703 are subjected to forward and reverse movement under the action of the power unit 701 and the driving assembly 702 to drive the whole driving device 7 and the flat plate 8 to move forward and reverse.

EXAMPLE III

In the invention, in the main controller: the positioning bar code 14 positioning information of the two sets of cabinets 1 is distributed from outside to inside according to the same side position, and the positioning bar code positioning information comprises the following information:

、

。

the first positioning reader 9 on the front side reads first

During the process of the driving device 7 going forward, the first positioning reader 9 at the rear side reads

. When the driving device 7 moves to the innermost end, the first positioning reader 9 at the rear side reads

。

When the driving device 7 moves to the innermost end, it is first determined whether the second positioning reader 10 has acquired the positioning information of the positioning barcode 14

The second position reader 10 is already switched on before the drive means 7 reach the return stroke]If not, the drive device 7 continues to advance until the image is taken back]The second positioning reader 10 at the corresponding position below the first declination camera Pa obtains the positioning information of the second longitudinal interface 14

Upper side rail 6 sufficiently supports the range of travel of the drive device 7]。

The distribution positions of the first declination camera Pa and the second declination camera Pb of the second side camera module 12 are opposite to the distribution positions of the first declination camera Pa and the second declination camera Pb of the first side camera module 11, and the distribution positions of the first longitudinal interface 1301 and the second longitudinal interface 1302 on the cabinet interface panel 13 on the back side of the cabinet 1, which is right opposite to the second side camera module 12, are also opposite to the distribution positions of the first longitudinal interface 1301 and the second longitudinal interface 1302 on the cabinet interface panel 13 on the back side of the cabinet 1, which is right opposite to the first side camera module 11. That is, when the driving device 7 returns, the first declination camera Pa first shoots the first vertical interface 1301 on the cabinet interface panel 13, the driving device 7 continues to return, and the second declination camera Pb then shoots the second vertical interface 1302 on the cabinet interface panel 13 [ the shooting conditions of the first side camera module 11 and the second side camera module 12 on the cabinet interface panel 13 are as in the case of fig. 6 ].

Example four

According to the method, a main processing controller acquires photographing image information of a first deflection angle camera Pa and a second deflection angle camera Pb, the main processing controller acquires cabinet positioning information of a current action camera synchronously, the main processing controller acquires image information and cabinet positioning information and uploads the image information and the cabinet positioning information to a server, the server compares and analyzes transmitted real-time image information through various pre-stored image information, the plugging condition of an interface connector of a cabinet interface panel 13 in a transmitted picture is judged, if the picture is abnormal, the picture information and the positioning information of the picture are sent to a technician, the technician carefully checks the plugging condition of the interface photographed in the picture, and whether a cable plug is plugged well is judged. By adopting the mode of image big data comparison, the inspection intensity of technicians can be greatly reduced, the visual fatigue of the technicians is reduced, and the technicians are assisted to timely and accurately find the abnormal condition of cable plugging.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a line fault arranges equipment for computer lab server, the configuration is between two sets of a plurality of cabinets (1) of parallel distribution side by side, forms between a plurality of cabinets (1) of two sets of parallels and leans on space (4), overhead hoist (2) are installed to cabinet (1) top, flat cable (3) have been arranged downwards to overhead hoist (2), and flat cable (3) get into and lean on space (4) downwards, cabinet (1) dorsal part disposes rack interface panel (13) that are used for connecting flat cable (3), rack interface panel (13) include the vertical interface (1302) of a plurality of first vertical interfaces (1301) and a plurality of second, its characterized in that: a group of positioning bar codes (14) are arranged on the back side surface of each cabinet (1), a bottom side support frame (5) is fixedly mounted at the bottom of the back side surface of each cabinet (1), an upper side guide rail (6) is arranged on the upper side of each bottom side support frame (5), a driving device (7) is jointly arranged above the upper side guide rails (6) of two groups of parallel cabinets (1), each driving device (7) comprises a power unit (701) and a driving assembly (702), a four-wheel structure is arranged at the bottom of each driving device (7), at least one group of coaxial driving wheels (703) is arranged at least, and the driving wheels (703) are connected with the driving assemblies (702); a vertical flat rack (8) is fixedly installed on the upper side of the driving device (7), one side face of the flat rack (8) is provided with a group of first positioning readers (9), the other side face of the flat rack (8) is provided with a group of second positioning readers (10), and the height positions of the first positioning readers (9) and the second positioning readers (10) are matched with the height position of the positioning bar code (14); one side surface of the pallet (8) is provided with a group of first side surface camera modules (11) positioned above the first positioning reader (9), and the other side surface of the pallet (8) is provided with a group of second side surface camera modules (12) positioned above the second positioning reader (10); a first declination camera (Pa) is arranged in one first side face camera module (11) and one second side face camera module (12), and a second declination camera (Pb) is arranged in the other first side face camera module (11) and one second side face camera module (12); the driving device (7) comprises a main controller, the main controller is electrically connected with the power unit (701), the first positioning reader (9) and the second positioning reader (10) are connected with the main controller through data lines, and the main controller is connected with the first side camera module (11) and the second side camera module (12) through electric signals and data lines.

2. The line fault arranging apparatus for a machine room server according to claim 1, wherein: the bottom side support frame (5) comprises an upper support block (501), a placing clamping groove (502) is formed in the upper side face of the upper support block (501), a placing clamping strip (601) is arranged on the bottom side of the upper side guide rail (6), and the placing clamping strip (601) is installed in the placing clamping groove (502) in a matched mode.

3. The line fault arranging apparatus for a machine room server according to claim 1, wherein: positioning bar code (14) positioning information of the back side surfaces of the cabinets (1) on the same side is preset in the main controller, and the two groups of positioning bar code positioning information are two groups in total

、

。

4. The line fault arranging apparatus for a machine room server according to claim 1, wherein: the power unit (701) comprises a power battery and a driving motor, and a reverse control module electrically connected with the driving motor is configured in the main controller.

5. The line fault arranging apparatus for a machine room server according to claim 1, wherein: the shooting directions of the first declination camera (Pa) and the second declination camera (Pb) are inclined outwards, and the angles of the first declination camera (Pa) and the second declination camera (Pb) which are inclined outwards are symmetrical to each other.

6. The line fault arranging apparatus for a machine room server according to claim 1, wherein: light compensation plates (15) are arranged at the upper side and the lower side of a first side camera module (11) and a second side camera module (12) of the pallet (8), and the main controller is electrically connected with the light compensation plates (15).

7. The line fault arranging apparatus for a machine room server according to claim 1, wherein: the distance between two first side camera modules (11) on the same side is the same as the distance between two second side camera modules (12) on the other same side, and the distance between two first positioning readers (9) on the same side is the same as the distance between two second positioning readers (10) on the other same side; setting the distance between two first side camera modules (11) as

The distance between two first positioning readers (9) on the same side is

The width dimension of the cabinet interface panel (13) is

Then exist

。

8. An implementation method of a line fault elimination device for a machine room server is characterized in that the line fault elimination device for the machine room server as claimed in any one of claims 1 to 7 is adopted, and comprises the following contents: (1) Placing a combination of the driving device and the pallet above the upper side guide rail, and clamping the driving wheel in an initial section zone of the upper side guide rail; (2) The driving device moves forward towards the interior of the backrest space, and in the process of moving forward, when a first positioning reader on one side of the pallet obtains a first positioning bar code on the back side of a first cabinet, a first deflection angle camera of a first side face camera module shoots a first longitudinal interface plug-in condition on a cabinet interface panel on the back side of the cabinet; (3) After the photographing of the first deflection angle camera is finished, the driving device continues to move forward, and when another first positioning reader at the same side of the pallet obtains a second positioning bar code at the back side of the first cabinet, a second deflection angle camera of another first side face camera module photographs the plugging condition of a second longitudinal interface on the cabinet interface panel at the back side of the cabinet; (4) The driving device continues to advance, and the second cabinet to the cabinet interface panel on the back side of the nth cabinet in the same side direction on the advancing path are photographed in the corresponding direction angles in sequence; (5) After the second deflection angle camera on the pallet finishes photographing the cabinet interface panel on the back side of the nth cabinet in the same side direction, a reverse control module in the driving device is controlled to intervene, the output direction of a driving motor in the driving device is changed, and the driving wheel moves reversely to drive the driving device and the pallet to move reversely; (6) In the process of reverse movement of the driving device, a second positioning reader on the other side of the pallet acquires a positioning bar code on the back side of the cabinet on the same side of the other side, and a first deflection angle camera and a second deflection angle camera of a second side face camera module on the other side of the pallet take pictures of corresponding azimuth angles on an interface panel of the cabinet on the back side of the cabinet; (7) And after the driving device moves reversely to the last cabinet at the same side and finishes photographing the cabinet interface panel at the back side of the last cabinet, the driving device and the flat plate frame finish the line fault detection of the back space of the cabinet group, and the driving device and the flat plate frame are stopped and taken down.

9. The implementation method of the line fault elimination apparatus for the machine room server according to claim 8, wherein: the main processing controller acquires the photographing image information of the first deflection angle camera and the second deflection angle camera, synchronously acquires the cabinet positioning information of the current action camera, uploads the image information and the cabinet positioning information to the server, and compares and analyzes the image information in the server to judge the plugging condition of the interface connector of the cabinet interface panel in the current picture.

10. The implementation method of the line fault arranging apparatus for the machine room server according to claim 8, wherein: when the first declination camera and the second declination camera take pictures, the main controller controls the light supplementing plate at the corresponding position to supplement light.

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