CN211744142U - Intelligent power distribution integrated monitoring system based on ubiquitous Internet of things - Google Patents

Abstract

The utility model discloses a based on ubiquitous thing networking intelligent power distribution integration monitored control system, including temperature sensor, humidity transducer and camera, temperature sensor, humidity transducer and camera fixed mounting are on the bottom plate, bottom plate sliding connection is on vertical guide arm, and the bottom plate passes through the lead screw by vertical motor and promotes to go up and down, vertical guide arm slides to set up and installs on horizontal guide arm, and the bottom plate is passed through the lead screw by horizontal motor and is promoted to control the removal. The utility model shortens the time of fault confirmation and disposal; the inspection efficiency is improved, and the manpower is saved; accumulating operation and maintenance big data and analyzing and improving.

Description

Intelligent power distribution integrated monitoring system based on ubiquitous Internet of things

Technical Field

The utility model relates to a technical field of the thing networking specifically is a based on ubiquitous thing networking intelligent power distribution integration monitored control system.

Background

Various district looped netowrk cabinets in urban area cause the circuit to frequently have a power failure because of equipment discharges, and arouse concentrated complaint incident. And a large amount of distribution equipment has the characteristics of multiple voltage levels, complex network structure, various equipment types, multiple and wide operation points, scattered geographic positions, relatively poor safety environment and the like in management, and the safety risk factors are relatively more. Currently, the following problems are still prevalent in the management of power distribution facilities:

problem 1: hard-to-perceive field environment

The running environment of the power distribution equipment facility lacks real-time sensing and automatic control means, and when the conditions of water inflow of a room, water leakage of an air conditioner, fire and smoke of the equipment, sulfur hexafluoride, ozone harmful gas exceeding standards, high temperature of the environment, high temperature of the equipment, intrusion of small animals and the like occur, the safe running of the equipment or the personal safety of personnel can be threatened, and serious accidents can be caused to cause loss.

Problem 2: the station patrol efficiency is low

The geographical positions of a large number of sites are scattered, manual field inspection consumes time and labor, the efficiency is not high, and a technical means of remote auxiliary inspection and even automatic inspection is lacked.

Problem 3: fault disposal display passive

Most of the environmental fault information of the power distribution equipment depends on complaints and feedback of a user side, the disposal mode of faults and hidden dangers is passive, the technical means of active and automatic troubleshooting and troubleshooting are lacked, and the increasingly improved power supply reliability index is difficult to guarantee.

Therefore, a novel intelligent power distribution integrated monitoring system based on the ubiquitous internet of things is urgently needed to overcome the defects.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a based on ubiquitous thing networking intelligent power distribution integration monitored control system to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a based on ubiquitous thing networking intelligent power distribution integration monitored control system, includes temperature sensor, humidity transducer and camera, temperature sensor, humidity transducer and camera fixed mounting are on the bottom plate, bottom plate sliding connection passes through the lead screw by vertical motor and promotes the lift on vertical guide arm, the vertical guide arm slides to set up and installs on horizontal guide arm, and the bottom plate is controlled by horizontal motor through the lead screw promotion.

Preferably, the transverse guide rod is fixedly connected with a connecting seat, a connecting plate is arranged on the connecting seat, and the connecting plate is fixedly connected to a wall facing the power distribution room.

Preferably, the two ends of the vertical guide rod are fixedly connected with the transverse sleeve through the fixing plate, the transverse sleeve is connected with the transverse guide rod in a sliding mode, the middle connecting seat close to the left is provided with the mounting plate, the transverse motor is fixedly mounted on the mounting plate, the output shaft of the transverse motor is connected with the transverse lead screw, the transverse lead screw is connected with the lead screw sleeve in a threaded mode, and the vertical guide rod is fixedly connected with the lead screw sleeve through the connecting rib.

Preferably, the vertical motor is fixedly mounted on the fixing plate at the upper side, a vertical screw rod is fixedly connected to an output shaft of the vertical motor, and the vertical screw rod is in threaded connection with a screw rod hole in the bottom plate.

Preferably, vertical sleeves are arranged at the left end and the right end of the bottom plate and are connected with the vertical guide rods in a sliding mode, and a clearance groove is formed in the end face, back to the camera, of one side of each vertical sleeve.

Preferably, the wall body where the connecting plate is located is provided with a dehumidifying fan.

Compared with the prior art, the beneficial effects of the utility model are that: in the utility model, the temperature, the humidity and the image state in the distribution room can be remotely monitored through the temperature sensor, the humidity sensor and the camera monitoring center, the potential safety hazard of electricity utilization and the real-time monitoring of the electricity utilization state and the electricity utilization safety can be found at the first time, the camera can move in the range of the distribution room through the arrangement of the transverse driving device and the vertical driving device, and the monitoring reliability is improved; the operation and maintenance personnel can receive and process the alarm in time conveniently, and when a fault or a dangerous case occurs, the operation and maintenance personnel can remotely check the condition of the field environment and the real-time video condition of the station end. When the humiture is too high in the distribution room, can open the dehumidification fan and cool down the dehumidification. The utility model shortens the time of fault confirmation and disposal; the inspection efficiency is improved, and the manpower is saved; accumulating operation and maintenance big data and analyzing and improving.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent power distribution integrated monitoring system based on a ubiquitous internet of things;

fig. 2 is a schematic structural diagram of a vertical sleeve in an intelligent power distribution integrated monitoring system based on a ubiquitous internet of things.

In the figure: 1-connecting plate, 2-connecting seat, 3-transverse guide rod, 4-transverse sleeve, 5-fixing plate, 6-vertical guide rod, 7-mounting plate, 8-transverse motor, 9-transverse screw rod, 10-screw rod sleeve, 11-connecting rib, 12-vertical sleeve, 13-clearance groove, 14-bottom plate, 15-vertical screw rod, 16-camera, 17-temperature sensor, 18-humidity sensor, 19-dehumidification fan and 20-vertical motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution:

the utility model provides a based on ubiquitous thing networking intelligent power distribution integration monitored control system, includes temperature sensor 17, humidity transducer 18 and camera 16, temperature sensor 17, humidity transducer 18 and camera 16 fixed mounting are on bottom plate 14, 14 sliding connection of bottom plate is on vertical guide arm 6, and bottom plate 14 is promoted through the lead screw by vertical motor 20 and is gone up and down, 6 sliding settings of vertical guide arm are installed on horizontal guide arm 3, and bottom plate 14 is controlled by horizontal motor 8 through the lead screw promotion.

The temperature and humidity and the image state in the power distribution room can be remotely monitored by the temperature sensor 17, the humidity sensor 18 and the camera 16 monitoring center, the potential safety hazard of power utilization can be found in the first time, the power utilization state and the power utilization safety can be monitored in real time, the camera 16 can move within the range of the power distribution room through the arrangement of the transverse driving device and the vertical driving device, and the monitoring reliability is improved; meanwhile, the system can also provide android platform application support for APP application, users of operation and maintenance personnel are oriented, the operation and maintenance personnel can receive and process alarms in time, and when faults or dangerous situations occur, the operation and maintenance personnel can remotely check the conditions of the site environment and the real-time video conditions of the station side.

Preferably, the transverse guide rod 3 is fixedly connected to a connecting seat 2, a connecting plate 1 is arranged on the connecting seat 2, and the connecting plate 1 is fixedly connected to a wall facing the power distribution room.

The connecting seat 2 realizes the fixed connection of the transverse guide rod 3 and the rotary installation of the transverse screw rod 9.

Preferably, two ends of the vertical guide rod 6 are fixedly connected with a transverse sleeve 4 through a fixing plate 5, the transverse sleeve 4 is connected with a transverse guide rod 3 in a sliding mode, a mounting plate 7 is arranged on the connecting seat 2 close to the left in the middle, a transverse motor 8 is fixedly mounted on the mounting plate 7, a transverse lead screw 9 is connected onto an output shaft of the transverse motor 8, a lead screw sleeve 10 is connected onto the transverse lead screw 9 in a threaded mode, and the vertical guide rod 6 is fixedly connected with the lead screw sleeve 10 through a connecting rib 11.

The transverse motor 8 is matched with the screw rod sleeve 10 through the transverse screw rod 9 to drive the vertical guide rod 6 and the bottom plate 14 to move horizontally left and right.

Preferably, the vertical motor 20 is fixedly installed on the fixing plate 5 at the upper side, a vertical screw 15 is fixedly connected to an output shaft of the vertical motor 20, and the vertical screw 15 is in threaded connection with a screw hole on the bottom plate 14.

The vertical motor 20 is matched with the screw rod hole through the vertical screw rod 15 to drive the bottom plate 14 to move up and down.

Preferably, vertical sleeves 12 are arranged at the left end and the right end of the bottom plate 14, the vertical sleeves 12 are connected with the vertical guide rods 6 in a sliding mode, and a clearance groove 13 is formed in the end face, on one side, back to the camera 16, of each vertical sleeve 12.

The clearance groove 13 avoids the connecting rib 11 while not influencing the sliding connection between the vertical sleeve 12 and the vertical guide rod 6.

Preferably, a dehumidification fan 19 is arranged and installed on the wall body where the connection plate 1 is located.

When the temperature and humidity in the distribution room are too high, the dehumidifying fan 19 can be turned on to cool and dehumidify. The utility model discloses a theory of operation is: the temperature and humidity and the image state in the power distribution room can be remotely monitored by the temperature sensor 17, the humidity sensor 18 and the camera 16 monitoring center, the potential safety hazard of power utilization can be found in the first time, the power utilization state and the power utilization safety can be monitored in real time, the camera 16 can move within the range of the power distribution room through the arrangement of the transverse driving device and the vertical driving device, and the monitoring reliability is improved; meanwhile, the system can also provide android platform application support for APP application, users of operation and maintenance personnel are oriented, the operation and maintenance personnel can receive and process alarms in time, and when faults or dangerous situations occur, the operation and maintenance personnel can remotely check the conditions of the site environment and the real-time video conditions of the station side. The connecting seat 2 realizes the fixed connection of the transverse guide rod 3 and the rotary installation of the transverse screw rod 9. The transverse motor 8 is matched with the screw rod sleeve 10 through the transverse screw rod 9 to drive the vertical guide rod 6 and the bottom plate 14 to move horizontally left and right. The vertical motor 20 is matched with the screw rod hole through the vertical screw rod 15 to drive the bottom plate 14 to move up and down. The clearance groove 13 avoids the connecting rib 11 while not influencing the sliding connection between the vertical sleeve 12 and the vertical guide rod 6. When the temperature and humidity in the distribution room are too high, the dehumidifying fan 19 can be turned on to cool and dehumidify.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. The utility model provides a based on ubiquitous thing networking intelligent power distribution integration monitored control system, includes temperature sensor (17), humidity transducer (18) and camera (16), its characterized in that: temperature sensor (17), humidity transducer (18) and camera (16) fixed mounting are on bottom plate (14), bottom plate (14) sliding connection is on vertical guide arm (6), and bottom plate (14) are promoted through the lead screw by vertical motor (20) and are gone up and down, vertical guide arm (6) slide to set up and install on horizontal guide arm (3), and bottom plate (14) are passed through the lead screw by horizontal motor (8) and are promoted to remove about.

2. The intelligent power distribution integrated monitoring system based on the ubiquitous Internet of things according to claim 1, wherein: the transverse guide rod (3) is fixedly connected to the connecting seat (2), a connecting plate (1) is arranged on the connecting seat (2), and the connecting plate (1) is fixedly connected to a wall facing the power distribution room.

3. The intelligent power distribution integrated monitoring system based on the ubiquitous internet of things according to claim 2, wherein: vertical guide arm (6) both ends are passed through on fixed plate (5) fixedly connected with horizontal sleeve (4), horizontal sleeve (4) and horizontal guide arm (3) sliding connection are provided with mounting panel (7) on connecting seat (2) that leans on a left side in the middle of, horizontal motor (8) fixed mounting is on mounting panel (7), is connected with horizontal lead screw (9) on the output shaft of horizontal motor (8), threaded connection has lead screw cover (10) on horizontal lead screw (9), vertical guide arm (6) are through splice bar (11) and lead screw cover (10) fixed connection.

4. The intelligent power distribution integrated monitoring system based on the ubiquitous Internet of things according to claim 3, wherein: the vertical motor (20) is fixedly installed on the fixing plate (5) on the upper side, a vertical screw rod (15) is fixedly connected to an output shaft of the vertical motor (20), and the vertical screw rod (15) is in threaded connection with a screw rod hole in the bottom plate (14).

5. The intelligent power distribution integrated monitoring system based on the ubiquitous Internet of things is characterized in that: vertical sleeves (12) are arranged at the left end and the right end of the bottom plate (14), the vertical sleeves (12) are connected with the vertical guide rods (6) in a sliding mode, and a clearance groove (13) is formed in one side end face, back to the camera (16), of each vertical sleeve (12).

6. The intelligent power distribution integrated monitoring system based on the ubiquitous internet of things according to claim 2, wherein: and a dehumidifying fan (19) is arranged on the wall where the connecting plate (1) is located.

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