CN221010227U - Monitoring device based on 5G technology - Google Patents

Abstract

The utility model provides a monitoring device based on 5G technology, including: an inspection track, a slide rail, a rack and a sliding mechanism. A track bracket is provided at the lower end of the inspection track. Compared with the prior art, the utility model has the following beneficial effects: by setting a 5G communication box, a transmission antenna 1, a rack, a spur gear, a sliding mechanism and an inspection mechanism, a small motor inside the slider drives the motor shaft at its left end to rotate, and the motor shaft drives the spur gear on the outer side to rotate on the rack, so that the slider slides on the slide rail, the inspection mechanism is connected to the connecting plate on the right side of the sliding mechanism, and the inspection mechanism performs mobile inspection. The 5G communication box expands the signal receiving range and strength through the transmission antenna 1, thereby realizing the effect of automatically performing visual monitoring and inspection of the real-time operating status of various machines in the factory park. By setting a monitoring camera, a fixed area can be monitored, and by setting a fire alarm, on-site personnel can be reminded to evacuate in time.

Description

Monitoring device based on 5G technology

Technical Field

The utility model belongs to the field of monitoring devices, and particularly relates to a monitoring device based on a 5G technology.

Background

The 5G is short for fifth generation mobile communication technology, is a new generation broadband mobile communication technology with high speed, low time delay and large connection characteristics, and the 5G communication facility is a network infrastructure for realizing man-machine object interconnection. Most of the common monitoring devices in the factory park do not use 5G technology, and the engineering park needs to be manually inspected, so that the monitoring devices have the following problems.

The monitoring device based on the 5G mobile network is not provided, the defects of high network delay, low rate and small connection exist, the current physical state cannot be fed back in time by a monitoring picture, and certain reaction time is needed when the monitoring area is abnormal.

The method can not realize automatic visual monitoring and inspection of real-time running states of various machines in a factory park, can not rely on a 5G mobile network to ensure the real-time performance of data transmission, can not rely on an artificial intelligence algorithm to ensure the accuracy of visual identification, and further increases a large amount of manual labor and a large amount of labor cost.

In summary, the present inventor proposes a monitoring device based on the 5G technology, which is used for solving the above technical problems.

Disclosure of utility model

Aiming at the defects existing in the prior art, the utility model aims to provide a monitoring device based on a 5G technology, which solves the problems in the background technology.

The utility model is realized by the following technical scheme: a 5G technology based monitoring device comprising: the inspection track, the slide rail, the rack and the slide mechanism, the track lower extreme of inspecting is equipped with the track support, track support upper surface right-hand member is equipped with the slide rail, the slide rail top is equipped with slide mechanism, slide mechanism right flank is equipped with the connecting plate, the connecting plate right side is equipped with the mechanism of inspecting, track support upper surface, slide rail left side are equipped with a plurality of groups of racks, track support right flank is equipped with a plurality of groups of 5G communication boxes, track support lower surface is equipped with a plurality of groups of surveillance camera machine, inspection mechanism and surveillance camera machine all are connected through the wire between with peripheral hardware processing center.

As a preferred implementation mode, 5G communication box upper surface is equipped with transmission antenna one, it is equipped with the mounting panel to patrol and examine the mechanism left end, the mounting panel left surface is laminated each other with the connecting plate right flank, patrol and examine the mechanism and be a watch-dog, patrol and examine built-in artificial intelligence of mechanism, can guarantee visual identification's accuracy.

As a preferred implementation mode, screw thread mounting holes are formed in four corners of the right side face of the connecting plate, the first mounting holes are formed in the left side face of the mounting plate in a penetrating mode, the screw thread mounting holes are connected with the first mounting holes in a same mode and are connected with the inner side of the mounting plate through bolts, the first mounting plates are attached to the right side face of the connecting plate through the left side face of the inspection mechanism, the first bolts are screwed into the first screw thread mounting holes and the first mounting holes, the inspection mechanism and the sliding mechanism are fixed, and the effect that the inspection mechanism and the sliding mechanism move together can be achieved.

As a preferable implementation mode, the left side of the connecting plate is provided with a sliding block, the sliding block is movably embedded with the sliding rail, the inner side of the sliding block is provided with a small motor, and the left end of the small motor is provided with a motor shaft.

As a preferable implementation mode, the outer side surface of the motor shaft is provided with a spur gear, the spur gear is meshed with the racks, a plurality of groups of racks are spliced with each other, the motor shaft at the left end of the motor shaft is started to rotate, the spur gear on the outer side surface of the motor shaft is driven to rotate on the rack meshed with the spur gear, the sliding block of the sliding mechanism is enabled to move along the sliding rail, and the effect of enabling the sliding mechanism to move can be achieved.

As a preferred implementation mode, the track support is Z-shaped, a plurality of groups of threaded holes are formed in the lower surface of the track support, a second mounting hole is formed in the upper end of the monitoring camera, the threaded holes are concentric with the second mounting hole and are connected with the inner side of the second mounting hole through bolts, and the monitoring camera can be mounted on the lower surface of the track support by screwing the second bolts into the second mounting hole and the threaded holes.

As a preferred implementation mode, the outer side surfaces of the inspection mechanism and the monitoring camera are respectively provided with a second transmission antenna, a fire alarm bell is arranged between the two groups of 5G communication boxes, and a plurality of third mounting holes are formed in the left end of the upper surface of the track support in a penetrating mode.

After the technical scheme is adopted, the utility model has the beneficial effects that: through setting up 5G communication box, transmission antenna one, the rack, the straight-tooth wheel, slide mechanism and inspection mechanism, the inside small-size motor of slider drives its left end's motor shaft and rotates, the straight-tooth wheel of motor shaft drive lateral surface rotates on the rack, make the slider slide on the slide rail, inspection mechanism is connected with the connecting plate on slide mechanism right side, inspection mechanism removes and patrols and examines, 5G communication box passes through transmission antenna one and enlarges signal receiving scope and intensity, realize carrying out the effect that all kinds of machines real-time running state vision monitoring patrols and examines in the mill garden automatically, through setting up the surveillance camera, can monitor fixed area, through setting up fire alarm bell, can in time remind on-the-spot personnel to withdraw.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a schematic diagram of the overall structure of the upper side of a monitoring device based on the 5G technology.

Fig. 2 is a schematic diagram of the overall structure of the lower side of the monitoring device based on the 5G technology.

Fig. 3 is a schematic diagram of the overall structure of the upper side of a track bracket in a monitoring device based on 5G technology.

Fig. 4 is a schematic diagram of the overall structure of the lower side of a track bracket in a monitoring device based on 5G technology.

Fig. 5 is a schematic diagram of the overall structure of a sliding mechanism in a monitoring device based on the 5G technology.

In the figure, a 100-inspection track, a 110-track bracket, a 120-mounting hole III, a 130-slide rail, a 140-5G communication box, a 150-threaded hole, a 160-rack, a 170-sliding mechanism, a 180-sliding block and a 190-motor shaft are shown;

200-connecting plates, 210-threaded mounting holes, 220-spur gears, 230-inspection mechanisms, 240-monitoring cameras, 250-fire alarms and 260-transmission antennas I.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 5, the present utility model provides a technical solution: a 5G technology based monitoring device comprising: the inspection track 100, the sliding rail 130, the rack 160 and the sliding mechanism 170 are arranged at the lower end of the inspection track 100, and the track bracket 110 is arranged at the lower end of the inspection track 100;

The right end of the upper surface of the track bracket 110 is provided with a slide rail 130, a sliding mechanism 170 is arranged above the slide rail 130, the right side surface of the sliding mechanism 170 is provided with a connecting plate 200, and the right side of the connecting plate 200 is provided with a patrol mechanism 230;

the upper surface of the track support 110 and the left side of the slide rail 130 are provided with a plurality of groups of racks 160, the right side surface of the track support 110 is provided with a plurality of groups of 5G communication boxes 140, the lower surface of the track support 110 is provided with a plurality of groups of monitoring cameras 240, and the inspection mechanism 230 and the monitoring cameras 240 are connected with a peripheral processing center through wires.

The upper surface of the 5G communication box 140 is provided with a first transmission antenna 260, the left end of the inspection mechanism 230 is provided with a mounting plate, the left side surface of the mounting plate is mutually attached to the right side surface of the connecting plate 200, and the inspection mechanism 230 is a monitor.

The four corners of the right side surface of the connecting plate 200 are provided with threaded mounting holes 210, the left side surface of the mounting plate is provided with a first mounting hole in a penetrating manner, the threaded mounting holes 210 are connected with the mounting holes in a sharing manner and the inner side of the mounting plate is connected with the right side surface of the connecting plate 200 through bolts, and the first bolts are screwed into the threaded mounting holes 210 and the first mounting holes to fix the inspection mechanism 230 and the sliding mechanism 170, so that the effect of jointly moving the inspection mechanism 230 and the sliding mechanism 170 can be achieved.

The left side of the connecting plate 200 is provided with a sliding block 180, the sliding block 180 is movably embedded with the sliding rail 130, the inner side of the sliding block 180 is provided with a small motor, and the left end of the small motor is provided with a motor shaft 190.

The spur gear 220 is installed on the outer side surface of the motor shaft 190, the spur gear 220 is meshed with the racks 160, a plurality of groups of racks 160 are spliced with each other, the motor shaft 190 at the left end of the small motor is started to rotate, the spur gear 220 on the outer side surface of the motor shaft 190 is driven to rotate on the racks 160 meshed with the spur gear 220, the sliding block 180 of the sliding mechanism 170 is enabled to move along the sliding rail 130, and the effect of enabling the sliding mechanism 170 to move can be achieved.

The track support 110 is Z-shaped structure, and a plurality of groups of screw holes 150 have been seted up to track support 110 lower surface, and monitor camera 240 upper end is equipped with mounting hole two, and screw hole 150 and mounting hole two concentric and inboard are connected through the bolt two, through with bolt two screw in mounting hole two and screw hole 150 in, can install monitor camera 240 to track support 110 lower surface.

The inspection mechanism 230 and the outer side face of the monitoring camera 240 are both provided with a second transmission antenna, a fire alarm bell 250 is arranged between the two groups of 5G communication boxes 140, a plurality of third mounting holes 120 are formed in the left end of the upper surface of the track support 110 in a penetrating mode, on-site personnel can be timely reminded of dangerous situations through the fire alarm bell 250, the on-site personnel can be conveniently and rapidly evacuated, and the track support 110 can be conveniently and fixedly mounted through the third mounting holes 120.

Referring to fig. 1-5, as a first embodiment of the present utility model: in order to solve the problem that the common monitoring device in the factory park does not apply the 5G technology and needs to manually carry out inspection on the machine in the engineering park, firstly, a user starts a small motor inside a sliding block 180, the small motor drives a motor shaft 190 at the left end of the small motor to rotate, the motor shaft 190 drives a straight gear 220 at the outer side to rotate on a rack 160, the sliding block 180 slides on a sliding rail 130, secondly, the user connects an inspection mechanism 230 with a connecting plate 200 at the right side of the sliding mechanism 170, the inspection mechanism 230 moves to inspect, and a 5G communication box 140 enlarges the signal receiving range and strength through a transmission antenna 260, so that the effect of automatically carrying out real-time operation state visual inspection on various machines in the factory park is achieved, the labor is reduced, and the labor cost is saved.

Referring to fig. 1-4, as a second embodiment of the present utility model: based on the above embodiment, it is necessary to solve the problem that the on-site personnel cannot find the dangerous situation in time, firstly, the right side surface of the track bracket 100 and the fire alarm bell 250 are arranged between the two groups of 5G communication boxes 140, and secondly, when the inspection mechanism 230 finds that the machine fails in the inspection process, the artificial intelligence algorithm guarantees the accuracy of visual identification, automatically judges the type and degree of the machine failure, feeds information back to the peripheral processing center, and decides whether to trigger the fire alarm bell 250 according to the dangerous situation, thereby achieving the effect of protecting the on-site personnel.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (7)

1. A 5G technology based monitoring device comprising: inspection track (100), slide rail (130), rack (160) and slide mechanism (170), its characterized in that: the lower end of the inspection track (100) is provided with a track bracket (110);

The right end of the upper surface of the track bracket (110) is provided with a sliding rail (130), a sliding mechanism (170) is arranged above the sliding rail (130), the right side surface of the sliding mechanism (170) is provided with a connecting plate (200), and the right side of the connecting plate (200) is provided with a patrol mechanism (230);

the intelligent inspection device is characterized in that a plurality of groups of racks (160) are arranged on the upper surface of the track support (110) and on the left side of the sliding rail (130), a plurality of groups of 5G communication boxes (140) are arranged on the right side of the track support (110), a plurality of groups of monitoring cameras (240) are arranged on the lower surface of the track support (110), and the inspection mechanism (230) and the monitoring cameras (240) are connected with a peripheral processing center through wires.

2. A monitoring device based on 5G technology as claimed in claim 1, characterized in that: the upper surface of the 5G communication box (140) is provided with a first transmission antenna (260), the left end of the inspection mechanism (230) is provided with a mounting plate, the left side surface of the mounting plate is mutually attached to the right side surface of the connecting plate (200), and the inspection mechanism (230) is a monitor.

3. A monitoring device based on 5G technology as claimed in claim 2, characterized in that: threaded mounting holes (210) are formed in four corners of the right side face of the connecting plate (200), first mounting holes are formed in the left side face of the mounting plate in a penetrating mode, and the threaded mounting holes (210) are connected with the first mounting holes in a sharing mode and are connected with the inner sides of the mounting holes through first bolts.

4. A monitoring device based on 5G technology as claimed in claim 3, characterized in that: the left side of the connecting plate (200) is provided with a sliding block (180), the sliding block (180) is movably embedded with the sliding rail (130), the inner side of the sliding block (180) is provided with a small motor, and the left end of the small motor is provided with a motor shaft (190).

5. The 5G technology-based monitoring device of claim 4, wherein: the outer side surface of the motor shaft (190) is provided with a spur gear (220), the spur gear (220) is meshed with the racks (160), and a plurality of groups of racks (160) are spliced with each other.

6. A monitoring device based on 5G technology as claimed in claim 1, characterized in that: the track support (110) is of a Z-shaped structure, a plurality of groups of threaded holes (150) are formed in the lower surface of the track support (110), a second mounting hole is formed in the upper end of the monitoring camera (240), and the threaded holes (150) are concentric with the second mounting hole and are connected with the inner side of the second mounting hole through bolts.

7. A monitoring device based on 5G technology as claimed in claim 1, characterized in that: the inspection mechanism (230) and the outer side face of the monitoring camera (240) are respectively provided with a second transmission antenna, a fire alarm bell (250) is respectively arranged between the two groups of 5G communication boxes (140), and a plurality of third mounting holes (120) are formed in the left end of the upper surface of the track support (110) in a penetrating mode.