CN115755407B - 5G intelligent machine room layout detection inspection equipment and control method - Google Patents

Abstract

A5G intelligent machine room layout detection inspection device and a control method belong to the technical field of intelligent machine rooms, and aim to solve the problems that in the prior art, inspection conditions are required to be recorded continuously, inspection time is prolonged in different modes such as photographing, recording or shooting, and the connectivity between inspection personnel and background personnel is weak; according to the invention, the personal account login unit is used for logging in the account number of the patrol personnel in the background system, the background can correspondingly issue the patrol task on the same day, the equipment identification unit is used for knowing the parameter information of different equipment in the machine room, the patrol area guiding unit is used for guiding the route of different patrol areas in the machine room, and the camera is used for carrying out whole-course video recording on the patrol process; according to the invention, by utilizing the gravity of the inner containing box in a matching way, tools such as the tester and the like loaded in the inner containing box are directly exposed, so that the inspection tool can be conveniently and quickly taken out, and can be mutually assembled with the contour belt together, thereby being beneficial to effectively freeing hands of the inspection personnel.

Description

5G intelligent machine room layout detection inspection equipment and control method

Technical Field

The invention relates to the technical field of intelligent machine rooms, in particular to 5G intelligent machine room layout detection inspection equipment and a control method.

Background

The intelligent computer lab is based on visual three-dimensional holographic map platform, the model preparation of refining, through the moving ring monitor function of system, supplementary fortune dimension personnel realize states such as real-time supervision, security protection system and driving system of the inside and outside environment of computer lab, and can provide remote monitoring, remote management function, make the computer lab can discover the problem in the first time, the linkage is reported to the police, remind and inform the fortune dimension personnel, in time solve the problem, reduce personnel's work load, improve the computer lab security performance, create biggest benefit for enterprise or unit.

However, the inspection personnel need wear complicated detection equipment, the inspection personnel have to go forward with a burden in the inspection process, the working difficulty is increased, meanwhile, the inspection condition needs to be recorded continuously in the prior art, the inspection time is prolonged in different modes such as photographing, recording or shooting, and the connectivity between the inspection personnel and background personnel is weak.

Aiming at the problems, the prior device is improved, and 5G intelligent machine room layout detection inspection equipment and a control method are provided.

Disclosure of Invention

The invention aims to provide 5G intelligent machine room layout detection inspection equipment and a control method, which solve the problems that in the prior art, inspection conditions are required to be recorded continuously, inspection time is prolonged in different modes such as photographing, recording or shooting, and the connectivity between inspection personnel and background personnel is weak.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a 5G wisdom computer lab overall arrangement detects equipment of patrolling and examining, including AR glasses body and the mirror surface body of setting at AR glasses body side surface, the inside of AR glasses body is provided with the CPU, the inboard upper end of AR glasses body is installed and is laminated interior handle board, the side surface of laminating interior handle board is provided with the camera, the one end of laminating interior handle board is installed the profile area, the other end of profile area is connected with the other end of laminating interior handle board, the surface of profile area is provided with the regulation knot, the one side end of profile area is installed and is cup jointed the clitellum, the inboard of cup jointing the clitellum is provided with the instrument dress box;

the CPU comprises a background monitoring module for monitoring the condition of a machine room in real time in the background, a patrol task publishing module for publishing patrol tasks in real time in the background, a defect recording module for recording defect conditions in real time, a remote guiding module for guiding a patrol inspector in a remote mode in the background, a record uploading module for uploading patrol records in real time, an infrared detection module for detecting the temperature of a local area of the machine room, a cruising module for providing power for equipment, a patrol auxiliary module for assisting in on-site patrol, and a report generating module for generating instant record reports.

Further, the tool boxing comprises a splicing box body arranged on the inner side of a sleeved annular belt and an adjusting pulling rope arranged on one side of the splicing box body, corner blocks are arranged at four corners of two sides of the splicing box body, sleeved empty slots are formed in the inner sides of the corner blocks, the sleeved empty slots are matched with the sleeved annular belt, two side ends of the sleeved empty slots are provided with accommodating side slots, accommodating box cavities are formed in the splicing box body, a swinging bottom plate is arranged at the bottom end of each accommodating box cavity, a spring hinge is arranged at one end of each swinging bottom plate, one end of each swinging bottom plate is connected with one inner bottom end of each accommodating box cavity through the corresponding spring hinge, and a handheld handle bar is arranged on the lower surface of each swinging bottom plate.

Further, a first connecting pipe rod is installed on one inner side wall of the accommodating box cavity, a second connecting pipe rod is arranged on the other inner side wall of the accommodating box cavity, the first connecting pipe rod corresponds to the second connecting pipe rod, a side opening pipe cavity is formed in one end of the first connecting pipe rod, a first sliding block is installed in the side opening pipe cavity, first limiting sliding pieces are arranged on the upper surface and the lower surface of the first sliding block and are connected with the inner surface of the side opening pipe cavity, a communicating pipe cavity is formed in the second connecting pipe rod, a second sliding piece is arranged in the communicating pipe cavity, second limiting sliding pieces are arranged on the upper surface and the lower surface of the second sliding piece and are connected with the inner surface of the communicating pipe cavity, and a connecting traction rod is installed between the first sliding piece and the second sliding piece.

Further, a handheld handle block is arranged at the outer end of the adjusting pulling rope, an embedded limiting pipe is arranged at the inner bottom end of the second connecting pipe rod, one end of the adjusting pulling rope penetrates through the embedded limiting pipe to be connected with one side surface of the second sliding block, a sleeve spring is arranged between the second sliding block and the embedded limiting pipe, and the sleeve spring is sleeved on the surface of the adjusting pulling rope.

Further, a hanging connecting rod is arranged on the lower surface of the connecting traction rod, an L-shaped splice plate is arranged at the bottom end of the hanging connecting rod, and a rubber extrusion patch is arranged on the inner side surface of the L-shaped splice plate.

Further, the swing bottom plate comprises a movable plate body arranged at the bottom end of the splicing box body and an outer containing box arranged on the upper surface of the movable plate body, the inner containing box is arranged on the inner side of the outer containing box, and the L-shaped splicing plate is connected with one side surface of the inner containing box through a rubber extrusion patch.

Further, the outer containing box comprises a first side opening box body arranged on the upper surface of the movable plate body and a sliding inner long groove arranged on two inner side walls of the first side opening box body, the inner containing box comprises a second side opening box body arranged inside the first side opening box body and rolling pieces uniformly arranged on two side surfaces of the second side opening box body, the rolling pieces are connected with the sliding inner long groove, each rolling piece comprises a splicing small rod connected with the side surface of the second side opening box body and a rolling ball arranged at one end of the splicing small rod, and the inner size of the sliding inner long groove is larger than that of the rolling ball.

Further, the patrol task issuing module comprises a personnel information management unit for managing information of different patrol personnel and a personal account login unit for logging in personal accounts of different patrol personnel through passwords.

Further, the inspection auxiliary module comprises an equipment identification unit for identifying different equipment of the machine room and an inspection area guiding unit for guiding different inspection area directions of the machine room.

The invention provides another technical scheme that: the control method of the G intelligent machine room layout detection inspection equipment comprises the following steps:

s1: adjusting the adjusting buckle to enable the surrounding diameter of the contour belt to be matched with the head circumference of the current-day inspection personnel, logging in an account number of the inspection personnel in a background system through a personal account logging unit, correspondingly issuing the current-day inspection task in the background, knowing parameter information of different equipment of a machine room through an equipment identification unit, guiding routes of different inspection areas of the machine room through an inspection area guiding unit, and recording the whole process of the inspection process through a camera;

s2: in the process of inspection, an inspection personnel records the inspection problem of a machine room in real time through a defect recording module, a background remotely guides the inspection personnel with insufficient experience in a video or voice mode through a remote guiding module, or the background remotely indicates the temporary condition of the machine room, the inspection record is immediately uploaded to a background terminal through a recording uploading module, a thermal imaging image is formed in a designated area in the machine room through an infrared detection module, a corresponding temperature value is obtained, a power supply is provided for an AR through a cruising module, and all inspection information is listed in terms of time nodes, equipment areas and site details through a report generating module;

s3: the pull rope is pulled and adjusted through the hand-held handle block, the connecting traction rod is connected with the connecting rod through the hanging connection rod to enable one end of the L-shaped splice plate to be separated from one side end of the inner accommodating box, and meanwhile, the hand-held handle strip is pulled, so that the swing bottom plate swings downwards with the spring hinge as an axis, and the movable plate body is in a downward inclined state;

s4: because the inner containing box is in a movable state relative to the outer containing box, tools such as a wire measuring instrument and the like loaded in the inner containing box are directly exposed by utilizing the structure that the size of the sliding inner long groove is larger than that of the rolling ball body and by utilizing the gravity of the inner containing box in a matching way;

s5: after the use, put into the interior holding box again with survey line instrument, utilize the spring hinge, the swing bottom plate resumes to the state that matches with the concatenation box body fast, unclamp the handheld handle piece afterwards, make the second slide the piece and move back to initial position fast, can make rubber extrusion paster and the second side open one side end of box body laminate mutually, so far, accomplish all implementation steps.

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

1. according to the 5G intelligent machine room layout detection inspection equipment and the control method, the adjustment buckle is adjusted, the enclosure diameter of the contour strip is matched with the head enclosure of the inspection personnel on the same day, the personal account login unit logs in the inspection personnel account number in the background system, the background can correspondingly issue the inspection task on the same day, the equipment identification unit is used for knowing the parameter information of different equipment in the machine room, the inspection area guide unit is used for guiding the route of the different inspection areas of the machine room, the camera is used for recording the whole inspection process, the problems of missed inspection and the like can be avoided, the inspection personnel can record the inspection problem in real time through the defect recording module in the process of inspection, the background can remotely guide the inspection personnel with insufficient experience in a video or voice mode through the remote guiding module, or the background can remotely indicate the temporary condition of the machine room, the inspection record is immediately uploaded to the background terminal through the recording uploading module, the designated area in the machine room is formed into a thermal imaging diagram through the equipment identification module, the corresponding temperature value is obtained, the AR is used for providing power supply for the equipment, the inspection equipment is not needed, the inspection equipment can be easily reported to the inspection personnel, the inspection equipment can be easily and can be easily reported to the inspection personnel, the inspection equipment can be easily and the work can be easily and can be easily trained.

2. According to the 5G intelligent machine room layout detection inspection equipment and the control method, the movable plate body is in the downward inclined state, the inner containing box is in the movable state relative to the outer containing box, the sliding inner long groove is larger than the rolling ball in size, and the tools such as the line measuring instrument and the like loaded in the inner containing box are directly exposed by matching with the gravity of the inner containing box, so that inspection personnel can conveniently and quickly take out the inspection tools, the inspection tools can be mutually assembled with the contour belt, and the inspection personnel can effectively liberate both hands.

3. According to the 5G intelligent machine room layout detection inspection equipment and the control method, after the equipment is used, the tool of the line measuring instrument is placed into the inner containing box again, the swinging bottom plate is quickly restored to be matched with the splicing box body, the hand-held handle block is loosened, the second sliding block is quickly moved back to the initial position, the position of the swinging bottom plate is fixed, the swinging degree of freedom is lost, the tool of the line measuring instrument is conveniently contained, and the assembly effect of AR glasses and the tool is improved.

Drawings

FIG. 1 is a block diagram of a CPU system of the inspection equipment for detecting layout of a 5G intelligent machine room;

FIG. 2 is a schematic diagram of the overall structure of the inspection equipment for detecting layout of the 5G intelligent machine room;

FIG. 3 is a diagram showing the structure of a tool box of the inspection equipment for layout detection of the 5G intelligent machine room;

FIG. 4 is a schematic diagram of an internal planar structure of a splice box of the inspection equipment for 5G intelligent machine room layout detection according to the present invention;

FIG. 5 is a schematic diagram of the entire structure of the swing base plate of the inspection equipment for detecting the layout of the 5G intelligent machine room;

FIG. 6 is a schematic diagram of the external case of the inspection equipment for detecting layout of the 5G intelligent machine room according to the present invention;

FIG. 7 is a schematic diagram of a structure of a packing box in the inspection equipment for detecting layout of a 5G intelligent machine room;

FIG. 8 is a schematic diagram of the internal planar structure of the sliding inner trough of the inspection equipment for detecting the layout of the 5G intelligent machine room;

FIG. 9 is a block diagram of a system of inspection task issuing modules of the inspection equipment for 5G intelligent machine room layout detection according to the present invention;

FIG. 10 is a block diagram of the inspection assist module system of the inspection equipment for 5G intelligent machine room layout detection according to the present invention.

In the figure: 1. an AR eyeglass body; 2. a mirror body; 3. a CPU; 31. a background monitoring module; 32. a patrol task issuing module; 321. a personnel information management unit; 322. a personal account login unit; 33. a defect recording module; 34. a remote guidance module; 35. recording an uploading module; 36. an infrared detection module; 37. a cruising module; 38. a patrol auxiliary module; 381. an equipment identification unit; 382. a patrol area guiding unit; 39. a report generation module; 4. a camera; 5. attaching an inner handle plate; 6. a contour belt; 7. an adjusting buckle; 8. sleeving an endless belt; 9. boxing the tool; 91. splicing the box bodies; 92. adjusting a pulling rope; 921. a handle block; 922. an embedded limiting tube; 923. sleeving a spring; 93. a corner block; 94. sleeving the empty groove; 95. a receiving side groove; 96. a housing box chamber; 961. a first connecting tube rod; 962. laterally opening a lumen; 963. a first slider; 964. connecting a traction rod; 9641. hanging the connecting rod; 9642. an L-shaped splice plate; 9643. rubber extrusion patch; 965. a second connecting tube rod; 966. a second slider; 967. a first limit slip; 968. a communicating tube cavity; 969. the second limiting sliding piece; 97. swinging the bottom plate; 971. a movable plate body; 972. an outer container; 9721. the first side is provided with a box body; 9722. sliding inner long groove; 973. the inner container is provided with a box; 9731. a second side opening box body; 9732. a rolling member; 97321. splicing small rods; 97322. a rolling sphere; 98. a spring hinge; 99. a handle bar is held.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-10, in order to solve the technical problem that in the prior art, the patrol condition needs to be recorded continuously, so as to take a photograph, record or take a video, etc. in different modes, the patrol time is prolonged, and the connectivity between the patrol personnel and the background personnel is weaker, the following preferred technical scheme is provided:

the utility model provides a 5G wisdom computer lab overall arrangement detects equipment of patrolling and examining, including AR glasses body 1 and the mirror surface body 2 of setting at AR glasses body 1 side surface, the inside of AR glasses body 1 is provided with CPU3, handle board 5 in the laminating is installed to the inboard upper end of AR glasses body 1, handle board 5's side surface is provided with camera 4 in the laminating, handle board 5's one end is installed to the one end in the laminating, the other end in the contour area 6 is connected with handle board 5's the other end in the laminating, contour area 6's surface is provided with adjusts knot 7, cup joint clitellum 8 is installed to one side end in the contour area 6, cup joint clitellum 8's inboard is provided with instrument dress 9.

The CPU3 includes a background monitoring module 31 for monitoring the condition of the machine room in real time in the background, a patrol task issuing module 32 for issuing patrol tasks in real time in the background, a defect recording module 33 for recording defect conditions in real time, a remote guiding module 34 for guiding a patrol inspector in the background remotely, and a record uploading module 35 for uploading patrol records in real time, the CPU3 further includes an infrared detecting module 36 for detecting the temperature of a local area of the machine room, a cruising module 37 for providing power for equipment, a patrol assisting module 38 for assisting in on-site patrol, and a report generating module 39 for generating a real-time record report.

The patrol task issuing module 32 includes a personnel information management unit 321 for managing information of different patrol personnel and a personal account login unit 322 for password logging in personal accounts of different patrol personnel, and the patrol auxiliary module 38 includes a device identification unit 381 for identifying different devices of the machine room and a patrol area guiding unit 382 for guiding directions of different patrol areas of the machine room.

Specifically, the adjusting buckle 7 is adjusted to enable the surrounding diameter of the contour belt 6 to be matched with the head circumference of the current-day inspection personnel, the personal account login unit 322 is used for logging in the account number of the inspection personnel in a background system, the background correspondingly issues the current-day inspection tasks, the equipment identification unit 381 is used for knowing the parameter information of different equipment in the machine room, the inspection area guide unit 382 is used for guiding the route of different inspection areas in the machine room, the camera 4 is used for recording the whole inspection process, the problems of missing inspection and the like can be avoided, the inspection personnel can record the inspection problem of the machine room in real time in the inspection process, the background is used for remotely guiding the inspection personnel with insufficient experience in the form of video or voice in the remote guiding module 34, or the background carries out remote indication on the temporary condition of the machine room, the record uploading module 35 is used for uploading the inspection record to the background terminal in real time, the infrared detection module 36 is used for forming a thermal imaging image for the appointed area in the machine room and obtaining corresponding temperature values, the cruising module 37 is used for providing power for AR, the report generating module 39 is used for listing all inspection information in terms of time nodes, equipment areas and site details and sending the information to the background in a report mode, so that the close contact between the background and site inspection personnel can be improved, the inspection personnel can conveniently seek help, the inspection record can be obtained and checked in real time, the equipment is simple, the working force of the inspection personnel is reduced, the difficulty of the inspection process is reduced, the training period of the inspection personnel can be shortened, and the high-efficiency work of the machine room is realized.

In order to solve the technical problems that the patrol personnel need to wear complex detection equipment, the patrol personnel have to bear a burden to go forward in the patrol process, and the working difficulty is increased, the following preferable technical scheme is provided:

tool boxing 9 is including setting up at the inboard concatenation box body 91 of cup jointing clitellum 8 and installing the adjustment pull rope 92 in concatenation box body 91 one side, the four corners of concatenation box body 91 both sides all is provided with turning piece 93, turning piece 93's inboard is provided with cup joints the empty slot 94, cup joints empty slot 94 and cup joints clitellum 8 assorted, and cup joints the both sides end of empty slot 94 and be provided with and hold side groove 95, the inside of concatenation box body 91 is provided with holds box cavity 96, the swing bottom plate 97 is installed to the bottom that holds box cavity 96, the one end of swing bottom plate 97 is provided with spring hinge 98, the one end of swing bottom plate 97 is connected with an inboard bottom that holds box cavity 96 through spring hinge 98, swing bottom plate 97's lower surface mounting has handheld handle strip 99.

The first connecting pipe rod 961 is installed on one inner side wall of the accommodating box cavity 96, the second connecting pipe rod 965 is arranged on the other inner side wall of the accommodating box cavity 96, the first connecting pipe rod 961 and the second connecting pipe rod 965 are corresponding, a side opening pipe cavity 962 is formed in one end of the first connecting pipe rod 961, a first sliding block 963 is installed on the inner surface of the side opening pipe cavity 962, a first limiting sliding piece 967 is arranged on the upper surface and the lower surface of the first sliding block 963, the first sliding block 963 is connected with the inner surface of the side opening pipe cavity 962 through the first limiting sliding piece 967, a communicating pipe cavity 968 is formed in the second connecting pipe rod 965, a second sliding block 966 is arranged in the communicating pipe cavity 968, a second limiting sliding piece 969 is arranged on the upper surface and the lower surface of the second sliding piece 966, a pulling rope 92 is installed on the outer surface of the adjusting connecting piece 963 and the second sliding piece 966, a limiting spring 922 is embedded in the inner side of the adjusting piece 966, and the first sliding piece 92 is embedded in the inner bottom of the adjusting piece 966, and the first end of the pulling rope 922 is embedded in the adjusting piece 92.

Specifically, the pull rope 92 is pulled and adjusted by the hand-held handle block 921, the second sliding block 966 slides along the communicating pipe cavity 968, the connecting traction rod 964 drives the first sliding block 963 to slide along the side-open pipe cavity 962, the connecting traction rod 964 enables one end of the L-shaped splice plate 9642 to be separated from one side end of the inner holding box 973 through the hanging connection rod 9641, meanwhile, the hand-held handle strip 99 is pulled, the swinging bottom plate 97 swings downwards with the spring hinge 98 as an axis, the movable plate 971 is in a downward inclined state, the inner holding box 973 is in an active state relative to the outer holding box 972, the size of the sliding inner long groove 9722 is larger than that of the rolling ball 97322, and the inner holding box 973 is matched with the gravity of the inner holding box 973, tools such as a measuring line instrument loaded inside the inner holding box 973 are directly exposed, so that a patrol inspector can quickly take out, the inspection tool can be assembled with the contour belt 6 together, and the inspection personnel can effectively liberate the box.

In order to better solve the technical problem of wearing between the AR glasses and the tool, the following preferable technical scheme is provided:

the lower surface mounting who links up the pull rod 964 has the hanging and connecting pole 9641, L shape splice plate 9642 is installed to the bottom of hanging and connecting pole 9641, the inboard surface of L shape splice plate 9642 is provided with rubber extrusion paster 9643, swing bottom plate 97 is including setting up the movable plate body 971 at the concatenation box body 91 bottom and install the outer splendid attire 972 at movable plate body 971 upper surface, the interior splendid attire 973 is installed to the inboard of splendid attire 972, L shape splice plate 9642 is connected with one side surface of interior splendid attire 973 through rubber extrusion paster 9643, outer splendid attire 972 includes the first side open box body 9721 of installing at movable plate body 971 upper surface and the interior elongated slot 9722 that slides at first side open box body 9721 both inner side inside, interior splendid attire 973 includes the second side open box body 9731 of setting up in the inside first side open box body 9721 and the rolling member 9732 of evenly installing at second side open box body 9731 both sides surface, rolling member 9732 is connected with interior elongated slot 973's one side surface, rolling member 9732 is including the small-size and rolling member roll in the small-size of the concatenation rod 5293 is located in the small-size of the small-size ball 97322.

Specifically, after the use, put into interior flourishing dress 973 again with survey line instrument, utilize spring hinge 98, swing bottom plate 97 resumes fast to with splice box body 91 assorted state, back loosen handheld handle piece 921, utilize the elastic structure of cup joint spring 923, make second slider 966 move back fast to initial position, adjust pull rope 92 shrink, handheld handle piece 921 and hold side groove 95 looks block, link up pull rod 964 and drive L shape splice plate 9642 and move back, and can make rubber extrusion paster 9643 and the one side end of second side open box body 9731 laminate mutually, so can fix the position of swing bottom plate 97, make it lose wobbling degree of freedom, be convenient for accomodate instruments such as survey line instrument, do benefit to the assembly effect that promotes AR glasses and instrument.

In order to further better explain the above embodiment, the present invention also provides an embodiment, a control method of a 5G smart machine room layout detection inspection device, including the following steps:

step one: adjusting the adjusting buckle 7 to enable the surrounding diameter of the contour belt 6 to be matched with the head circumference of the current-day inspection personnel, logging in an account number of the inspection personnel in a background system through the personal account logging unit 322, correspondingly issuing the current-day inspection task in the background, knowing parameter information of different equipment of a machine room through the equipment identification unit 381, guiding routes of different inspection areas of the machine room through the inspection area guiding unit 382, and recording the whole course of the inspection process through the camera 4;

step two: in the process of inspection, an inspection personnel records the inspection problem of a machine room in real time through a defect recording module 33, a background remotely guides the inspection personnel with insufficient experience in a video or voice mode through a remote guiding module 34, or the background remotely indicates the temporary condition of the machine room, the inspection record is immediately uploaded to a background terminal through a record uploading module 35, a thermal imaging image is formed in a designated area in the machine room through an infrared detecting module 36, corresponding temperature values are obtained, a power supply is provided for an AR through a cruising module 37, and all inspection information is listed in terms of time nodes, equipment areas and site details through a report generating module 39;

step three: pulling the adjusting pulling rope 92 through the hand-held handle block 921, and connecting the pulling rod 964 to separate one end of the L-shaped splice plate 9642 from one side end of the inner accommodating box 973 through the hanging connecting rod 9641, and simultaneously pulling the hand-held handle bar 99 to enable the swinging bottom plate 97 to swing downwards by taking the spring hinge 98 as an axis, wherein the movable plate 971 is in a downward inclined state;

step four: because the inner accommodating box 973 is in a movable state relative to the outer accommodating box 972, tools such as a wire measuring instrument and the like loaded in the inner accommodating box 973 are directly exposed by utilizing the structure that the size of the sliding inner long groove 9722 is larger than that of the rolling ball 97322 and by utilizing the gravity of the inner accommodating box 973 in a matching manner;

step five: after the use, put into the interior holding box 973 again with survey line instrument, utilize spring hinge 98, swing bottom plate 97 resumes to be in a phase-match state with concatenation box 91 fast, back loosen handheld handle piece 921, make second slider 966 move back to initial position fast, can make rubber extrusion paster 9643 laminate with the one side end of box 9731 is opened to the second side, up to this point, accomplish all implementation steps.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should be covered by the protection scope of the present invention by making equivalents and modifications to the technical solution and the inventive concept thereof.

Claims (4)

1. The utility model provides a 5G wisdom computer lab overall arrangement detects equipment of patrolling and examining, includes AR glasses body (1) and sets up mirror surface body (2) at AR glasses body (1) side surface, and the inside of AR glasses body (1) is provided with CPU (3), its characterized in that: the upper end of the inner side of the AR glasses body (1) is provided with a joint inner handle plate (5), the side surface of the joint inner handle plate (5) is provided with a camera (4), one end of the joint inner handle plate (5) is provided with a contour belt (6), the other end of the contour belt (6) is connected with the other end of the joint inner handle plate (5), the surface of the contour belt (6) is provided with an adjusting buckle (7), one side end of the contour belt (6) is provided with a sleeving annular belt (8), and the inner side of the sleeving annular belt (8) is provided with a tool boxing (9);

the CPU (3) comprises a background monitoring module (31) for monitoring the condition of a machine room in a background in real time, a patrol task publishing module (32) for publishing patrol tasks in the background in real time, a defect recording module (33) for recording defect conditions in real time, a remote guiding module (34) for guiding a patrol inspector in the background remotely, a record uploading module (35) for uploading patrol records in real time, an infrared detection module (36) for detecting the temperature of a local area of the machine room, a cruising module (37) for providing power for equipment, a patrol auxiliary module (38) for assisting in-situ patrol, and a report generating module (39) for generating a real-time record report;

tool boxing (9) is including setting up at the inboard concatenation box body (91) of annular (8) of cup jointing and installing adjustment pull rope (92) in concatenation box body (91) one side, the four corners of concatenation box body (91) both sides all are provided with turning piece (93), the inboard of turning piece (93) is provided with cup jointing empty slot (94), cup jointing empty slot (94) and annular (8) assorted, and the both sides end of cup jointing empty slot (94) is provided with holds side groove (95), the inside of concatenation box body (91) is provided with holds box cavity (96), swing bottom plate (97) are installed to the bottom of holding box cavity (96), one end of swing bottom plate (97) is provided with spring hinge (98), one end of swing bottom plate (97) is connected with an inboard bottom of holding box cavity (96) through spring hinge (98), hand-held handle strip (99) are installed to the lower surface of swing bottom plate (97).

A first connecting pipe rod (961) is arranged on one inner side wall of the accommodating box cavity (96), a second connecting pipe rod (965) is arranged on the other inner side wall of the accommodating box cavity (96), the first connecting pipe rod (961) corresponds to the second connecting pipe rod (965), a side opening pipe cavity (962) is formed in one end of the first connecting pipe rod (961), a first sliding block (963) is arranged in the side opening pipe cavity (962), first limiting sliding pieces (967) are arranged on the upper surface and the lower surface of the first sliding block (963), the first sliding block (963) is connected with the inner surface of the side opening pipe cavity (962) through the first limiting sliding pieces (967), a communicating pipe cavity (968) is formed in the second connecting pipe cavity (965), a second sliding block (966) is formed in the communicating pipe cavity (968), a second limiting sliding piece (969) is arranged on the upper surface and the lower surface of the second sliding block (966), and the second sliding block (966) is connected with the inner surface of the first sliding block (964) through the second limiting sliding piece (969);

the outer end of the adjusting pull rope (92) is provided with a hand-held handle block (921), the inner bottom end of the second connecting pipe rod (965) is provided with an embedded limiting pipe (922), one end of the adjusting pull rope (92) penetrates through the embedded limiting pipe (922) to be connected with one side surface of the second sliding block (966), a sleeve spring (923) is arranged between the second sliding block (966) and the embedded limiting pipe (922), and the sleeve spring (923) is sleeved on the surface of the adjusting pull rope (92);

a hanging connecting rod (9641) is arranged on the lower surface of the connecting traction rod (964), an L-shaped splice plate (9642) is arranged at the bottom end of the hanging connecting rod (9641), and a rubber extrusion patch (9643) is arranged on the inner side surface of the L-shaped splice plate (9642);

the swinging bottom plate (97) comprises a movable plate body (971) arranged at the bottom end of the splicing box body (91) and an outer containing box (972) arranged on the upper surface of the movable plate body (971), an inner containing box (973) is arranged on the inner side of the outer containing box (972), and an L-shaped splicing plate (9642) is connected with one side surface of the inner containing box (973) through a rubber extrusion patch (9643);

the outer holding box (972) comprises a first side opening box body (9721) arranged on the upper surface of the movable plate body (971) and sliding inner long grooves (9722) formed in two inner side walls of the first side opening box body (9721), the inner holding box (973) comprises a second side opening box body (9731) arranged inside the first side opening box body (9721) and rolling elements (9732) uniformly arranged on two side surfaces of the second side opening box body (9731), the rolling elements (9732) are connected with the sliding inner long grooves (9722), each rolling element (9732) comprises a splicing small rod (97321) connected with the side surface of the second side opening box body (9731) and rolling balls (97322) arranged at one end of each splicing small rod (97321), and the inner size of each sliding inner long groove (9722) is larger than that of each rolling ball (97322).

2. The inspection equipment for layout detection of a 5G intelligent machine room as claimed in claim 1, wherein: the patrol task issuing module (32) comprises a personnel information management unit (321) for managing information of different patrol personnel and a personal account login unit (322) for logging in personal accounts of the different patrol personnel through passwords.

3. The inspection equipment for layout detection of a 5G intelligent machine room as claimed in claim 2, wherein: the inspection auxiliary module (38) comprises an equipment identification unit (381) for identifying different equipment of the machine room and an inspection area guiding unit (382) for guiding the directions of different inspection areas of the machine room.

4. A control method of the 5G intelligent machine room layout detection inspection device as claimed in claim 3, wherein: the method comprises the following steps:

s1: adjusting the adjusting buckle (7) to enable the surrounding diameter of the contour belt (6) to be matched with the head circumference of the current-day inspection personnel, logging in an account number of the inspection personnel in a background system through a personal account logging unit (322), correspondingly issuing the current-day inspection task in the background, knowing parameter information of different equipment of the machine room through an equipment identification unit (381), guiding routes of different inspection areas of the machine room through an inspection area guiding unit (382), and recording the whole process of the inspection process through a camera (4);

s2: in the process of inspection, an inspection personnel records the inspection problem of a machine room in real time through a defect recording module (33), a background remotely guides the inspection personnel with insufficient experience in a video or voice mode through a remote guiding module (34), or the background remotely indicates the temporary condition of the machine room, the inspection record is immediately uploaded to a background terminal through a recording uploading module (35), a thermal imaging image is formed on a designated area in the machine room through an infrared detection module (36), corresponding temperature values are obtained, a power supply is provided for an AR through a cruising module (37), and all inspection information is listed in terms of time nodes, equipment areas and site details through a report generating module (39);

s3: the adjusting pulling rope (92) is pulled through the hand-held handle block (921), the connecting pulling rod (964) enables one end of the L-shaped splice plate (9642) to be separated from one side end of the inner accommodating box (973) through the hanging connecting rod (9641), and meanwhile, the hand-held handle bar (99) is pulled, so that the swinging bottom plate (97) swings downwards with the spring hinge (98) as an axis, and the movable plate body (971) is in a downward inclined state;

s4: because the inner containing box (973) is in an active state relative to the outer containing box (972), tools such as a measuring instrument and the like loaded in the inner containing box (973) are directly exposed by utilizing the structure that the size of the sliding inner long groove (9722) is larger than that of the rolling ball (97322) and by matching with the gravity of the inner containing box (973);

s5: after the use, put into interior holding box (973) again with survey line instrument, utilize spring hinge (98), swing bottom plate (97) resumes to with concatenation box body (91) assorted state fast, unclamp handheld handle piece (921) afterwards, make second slider (966) move back to initial position fast, can make rubber extrusion paster (9643) and the second side open one side end of box body (9731) laminate mutually, up to this point, accomplish all implementation steps.