CN220383133U - Automatic change power supply inspection monitoring device - Google Patents

Abstract

The utility model discloses an automatic power supply inspection monitoring device, which relates to the technical field of power plant monitoring devices and comprises a sliding rail, a driving assembly, a fixed disc, a rotating shaft, a spring, a limiting block, sliding columns, a hemispherical transparent cover, an arc-shaped movable plate, a motor, a monitoring camera, a PLC (programmable logic controller) and an arc-shaped cleaning plate. The utility model has the advantage of being capable of cleaning attached dust.

Description

Automatic change power supply inspection monitoring device

Technical Field

The utility model relates to the technical field of power plant monitoring devices, in particular to an automatic power supply inspection monitoring device.

Background

The aluminum plant is a large household of electricity, so that a self-built power plant is needed to supply power, the self-built power plant is generally thermal power generation, coal is needed to be combusted, and when the self-built power plant supplies power, the self-built power plant is needed to observe the inside of the plant through a monitoring device in order to discover the potential safety hazard generated inside the plant in time.

However, the prior art has the following defects in the using process: when traditional monitoring device monitors in the factory building, because the power plant needs to burn coal and generate electricity, can make the air of factory building float a large amount of dust, the dust can adhere to on the monitoring camera lens, when the dust of adhesion is too much, can reduce the definition of control picture to cause can not see the inside condition of factory building clearly, inconvenient use.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model aims to provide an automatic power supply inspection monitoring device so as to solve the problems in the background art. The utility model has the advantage of being capable of cleaning attached dust.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an automatic power supply inspection monitoring device comprises a slide rail, a driving component, a fixed disc, a rotating shaft, a spring, a limiting block, sliding columns, a hemispherical transparent cover, an arc-shaped movable plate, a motor, a monitoring camera, a PLC (programmable logic controller) and an arc-shaped cleaning plate, wherein the driving component is slidably arranged on the slide rail, the fixed disc is arranged below the driving component, the monitoring camera and the PLC are arranged on the lower surface of the fixed disc, the monitoring camera is positioned at the central position of the lower surface of the fixed disc, the hemispherical transparent cover is arranged on the lower surface of the fixed disc, the rotating shaft is radially penetrated and arranged on the fixed disc, two ends of the rotating shaft are rotatably connected with the inner sides of two ends of the arc-shaped movable plate, three sliding columns are horizontally penetrated and arranged on the side surfaces of the arc-shaped movable plate at equal angles, the inner ends of the three sliding columns are provided with the arc-shaped cleaning plate, the arc cleaning plate is correspondingly matched with the hemispherical transparent cover, a spring is movably sleeved outside the sliding column, the spring is arranged between the arc movable plate and the arc cleaning plate, a limiting block is arranged at one end of the sliding column, which is far away from the arc cleaning plate, a motor is horizontally arranged on the upper surface of the fixed disc, an output shaft of the motor is in transmission connection with a rotating shaft, when different positions inside a factory building need to be monitored, the PLC controller can automatically control a driving assembly to slide along a sliding rail, the driving assembly drives the fixed disc to move through a connecting block, the fixed disc drives an extension column to move, the extension column drives a monitoring camera to move, meanwhile, the PLC controller can control the monitoring camera to rotate 360 degrees and up and down, so that the monitoring camera can carry out inspection monitoring on the different positions inside the factory building through the hemispherical transparent cover, when dust attached to the hemispherical transparent cover is more, the PLC controller controls the motor to rotate, and the output shaft of the motor drives the driven gear to rotate through the driving gear, and the driven gear drives the rotation shaft to rotate, and the rotation shaft drives the arc movable plate to rotate, and the arc movable plate drives the slide column to rotate, and the slide column drives the arc cleaning plate to reciprocate along the hemispherical transparent cover, and the arc cleaning plate is clung on the hemispherical transparent cover under the effect of the spring, so that the arc cleaning plate can scrape off dust attached to the outer portion of the hemispherical transparent cover, and the definition of a monitoring picture is improved.

Further, a driving gear is arranged at the end part of the output shaft of the motor, a driven gear meshed with the driving gear is arranged on the rotating shaft, the motor output shaft drives the driving gear to rotate, and the driving gear drives the rotating shaft to rotate through the driven gear.

Further, fixed disc upper surface both ends are provided with and correspond complex spacing with arc fly leaf, after the arc fly leaf rotates to the position with spacing contact, the output shaft that the PLC controller detected the motor can not rotate, the output shaft reverse rotation of PLC controller control motor drives arc clearance board along hemisphere translucent cover reverse rotation, thereby reciprocal clearance is carried out to hemisphere translucent cover, after the clearance is accomplished, the clear picture that monitoring camera will shoot is passed for the PLC controller, the PLC controller judges that current dust is by the clean up back, the PLC controller passes through the motor and drives the arc fly leaf and rotate to the position with spacing contact, thereby avoid the arc clearance board to stop on hemisphere translucent cover and shelter from the sight.

Further, the central position of the lower surface of the fixed disc is fixedly connected with the monitoring camera through the extending column, and the extending column can enable a certain distance to be reserved between the monitoring camera and the fixed disc, so that the situation that the monitoring camera is too close to contact with the fixed disc to shield the sight of the monitoring camera when the monitoring camera rotates upwards is avoided.

Further, the fixed disc lower surface is provided with wireless transmission module, and during monitoring camera patrols and examines the control, can give the PLC controller with the picture transmission that shoots, and the PLC controller can carry out analysis to the picture of shooing and judge, judges whether appear unusual in the picture, after appearing unusual in the picture of shooting, the PLC controller passes through wireless transmission module with here picture transmission to staff's cell-phone to in time remind the staff.

Further, the upper surface of fixed disc passes through motor backup pad and motor fixed connection, and the motor backup pad plays the effect of supporting the motor.

Further, the drive assembly below is vertical to be provided with the connecting block, and connecting block lower extreme and fixed disc fixed connection, the connecting block plays the effect of supporting fixed disc.

Further, a plurality of transverse supporting rods are uniformly arranged on the inner side of the sliding rail at equal intervals, and the stability of the sliding rail can be improved through the transverse supporting rods.

Further, the vertical support column that is provided with in horizontal bracing piece upper end middle part, vertical support column top is provided with the mounting disc, a plurality of mounting hole has evenly been seted up to equiangle on the mounting disc, at first needs to install, can pass the mounting hole on the mounting disc with the bolt and install at the factory building top, and vertical support column plays the effect of connecting mounting disc and horizontal bracing piece.

Based on the technical scheme, the automatic power supply inspection monitoring device has the following beneficial effects obtained through practical application:

1. according to the utility model, the cooperation of the hemispherical transparent cover and the monitoring camera is utilized, the monitoring camera can be isolated from the external environment, the monitoring camera can monitor the interior of the factory building through the hemispherical transparent cover, the PLC controller, the driving assembly and the sliding rail are utilized to cooperate, the monitoring camera can be driven to move to different positions, so that the monitoring camera can automatically carry out inspection monitoring on different positions in the factory building, the arc cleaning plate can be driven to rotate along the exterior of the hemispherical transparent cover by utilizing the cooperation of the PLC controller and the motor, and therefore, dust attached to the exterior of the hemispherical transparent cover by the arc cleaning plate is cleaned, and the influence of dust on the definition of the monitoring picture is avoided.

2. The utility model utilizes the coordination among the monitoring camera, the PLC and the wireless transmission module, and can send the abnormal pictures to the mobile phones of the staff through the wireless transmission module after the monitoring camera shoots the abnormal pictures, thereby reminding the staff in time.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic bottom perspective view of the present utility model with the cleaning assembly removed.

Fig. 3 is a schematic top perspective view of the cleaning assembly of the present utility model.

Fig. 4 is a right side perspective view of the cleaning assembly of the present utility model.

In the figure: 1 mounting plate, 2 mounting holes, 3 vertical support columns, 4 transverse support rods, 5 sliding rails, 6 driving components, 7 connecting blocks, 8 fixed disks, 9 rotating shafts, 10 springs, 11 limiting blocks, 12 sliding columns, 13 hemispherical transparent covers, 14 arc-shaped movable plates, 15 driven gears, 16 driving gears, 17 motors, 18 motor support plates, 19 limiting strips, 20 extending columns, 21 monitoring cameras, 22PLC controllers, 23 wireless transmission modules and 24 arc-shaped cleaning plates.

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. 1-4, the present embodiment provides a technical solution: an automatic power supply inspection monitoring device comprises a slide rail 5, a driving component 6, a fixed disc 8, a rotating shaft 9, a spring 10, a limiting block 11, a slide column 12, a hemispherical transparent cover 13, an arc movable plate 14, a motor 17, a monitoring camera 21, a PLC (programmable logic controller) 22 and an arc cleaning plate 24, wherein the driving component 6 is slidably arranged on the slide rail 5, the fixed disc 8 is arranged below the driving component 6, the monitoring camera 21 and the PLC 22 are arranged on the lower surface of the fixed disc 8, the monitoring camera 21 is positioned at the center of the lower surface of the fixed disc 8, the hemispherical transparent cover 13 is arranged on the lower surface of the fixed disc 8, the rotating shaft 9 is radially penetrated and arranged on the fixed disc 8, two ends of the rotating shaft 9 are rotatably connected with the inner sides of two ends of the arc movable plate 14, three slide columns 12 are horizontally penetrated and arranged on the side surfaces of the arc movable plate 14 at equal angles, the inner ends of the three slide columns 12 are provided with arc cleaning plates 24, the arc cleaning plates 24 are correspondingly matched with the hemispherical transparent cover 13, springs 10 are movably sleeved outside the slide columns 12, the springs 10 are positioned between the arc movable plates 14 and the arc cleaning plates 24, one ends of the slide columns 12, which are far away from the arc cleaning plates 24, are provided with limiting blocks 11, the upper surfaces of the fixed discs 8 are horizontally provided with motors 17, the output shafts of the motors 17 are in transmission connection with a rotating shaft 9, when different positions in a factory building are required to be monitored, the PLC controller 22 can automatically control the driving assembly 6 to slide along the sliding rail 5, the driving assembly 6 drives the fixed discs 8 to move through connecting blocks 7, the fixed discs 8 drive the extending columns 20 to move, the extending columns 20 drive the monitoring cameras 21 to move, meanwhile, the PLC controller 22 can control the monitoring cameras 21 to rotate 360 degrees and rotate up and down, make surveillance camera head 21 can see through hemisphere translucent cover 13 to the inside different positions of factory building and patrol and examine the control, when the dust that adheres to on the hemisphere translucent cover 13 is more, PLC controller 22 control motor 17 rotates, the output shaft of motor 17 drives driven gear 15 through driving gear 16 and rotates, driven gear 15 drives rotation axis 9 and rotates, rotation axis 9 drives arc fly leaf 14 and rotates, arc fly leaf 14 drives the traveller 12 and rotates, the traveller 12 drives arc clearance board 24 and reciprocates along hemisphere translucent cover 13, arc clearance board 24 hugs closely on hemisphere translucent cover 13 under the effect of spring 10, thereby make arc clearance board 24 can scrape off the outside dust that adheres to of hemisphere translucent cover 13, the definition of monitoring picture is improved.

Further, a driving gear 16 is arranged at the end part of an output shaft of the motor 17, a driven gear 15 meshed with the driving gear 16 is arranged on the rotating shaft 9, the driving gear 16 is driven to rotate by the output shaft of the motor 17, and the rotating shaft 9 is driven to rotate by the driving gear 16 through the driven gear 15; the two ends of the upper surface of the fixed disc 8 are provided with limit strips 19 which are correspondingly matched with the arc movable plates 14, when the arc movable plates 14 rotate to a position contacted with the limit strips 19, the PLC 22 detects that an output shaft of the motor 17 cannot rotate, the PLC 22 controls the output shaft of the motor 17 to rotate reversely to drive the arc cleaning plates 24 to rotate reversely along the hemispherical transparent cover 13, so that the hemispherical transparent cover 13 is cleaned reciprocally, after cleaning is finished, the monitoring camera 21 transmits a shot clear picture to the PLC 22, the PLC 22 judges that the current dust is cleaned up, and the PLC 22 drives the arc movable plates 14 to rotate to a position contacted with the limit strips 19 through the motor 17, so that the arc cleaning plates 24 are prevented from stopping on the hemispherical transparent cover 13 to block the sight; the center position of the lower surface of the fixed disc 8 is fixedly connected with the monitoring camera 21 through the extension column 20, and the extension column 20 can enable a certain distance to exist between the monitoring camera 21 and the fixed disc 8, so that the situation that the monitoring camera 21 contacts with the fixed disc 8 too close to generate more shielding on the sight of the monitoring camera 21 when the monitoring camera 21 rotates upwards is avoided.

Further, the wireless transmission module 23 is arranged on the lower surface of the fixed disc 8, when the monitoring camera 21 is used for carrying out inspection and monitoring, a shot picture can be transmitted to the PLC controller 22, the PLC controller 22 can analyze and judge the shot picture, whether the picture is abnormal or not is judged, and after the shot picture is abnormal, the PLC controller 22 transmits the picture to a mobile phone of a worker through the wireless transmission module 23, so that the worker is reminded in time.

Further, the upper surface of the fixed disc 8 is fixedly connected with the motor 17 through a motor supporting plate 18, and the motor supporting plate 18 plays a role in supporting the motor 17; a connecting block 7 is vertically arranged below the driving assembly 6, the lower end of the connecting block 7 is fixedly connected with a fixed disc 8, and the connecting block 7 plays a role in supporting the fixed disc 8; a plurality of transverse supporting rods 4 are uniformly arranged on the inner side of the sliding rail 5 at equal distance, and the stability of the sliding rail 5 can be improved by the transverse supporting rods 4; the middle part of the upper end of the transverse supporting rod 4 is vertically provided with a vertical supporting column 3, the top of the vertical supporting column 3 is provided with a mounting plate 1, a plurality of mounting holes 2 are uniformly formed in the mounting plate 1 at equal angles, firstly, the installation is needed, bolts can be installed at the inner top of a factory building through the mounting holes 2 in the mounting plate 1, and the vertical supporting column 3 plays a role in connecting the mounting plate 1 with the transverse supporting rod 4; the driving assembly 6, the motor 17, the monitoring camera 21, the PLC controller 22 and the wireless transmission module 23 mentioned in the present specification are all well known in the art, and the specific structure and the working principle thereof are not described in detail herein.

The utility model provides an automatic power supply inspection monitoring device, which has the following working principle: firstly, the installation is needed, bolts can be installed at the top in a factory building through the installation holes 2 on the installation plate 1, when different positions in the factory building are needed to be monitored, the PLC controller 22 can automatically control the driving assembly 6 to work and slide along the sliding rail 5, the driving assembly 6 drives the fixed disc 8 to move through the connecting block 7, the fixed disc 8 drives the extension column 20 to move, the extension column 20 drives the monitoring camera 21 to move, meanwhile, the PLC controller 22 can control the monitoring camera 21 to rotate 360 degrees and rotate up and down, so that the monitoring camera 21 can carry out inspection monitoring on different positions in the factory building through the hemispherical transparent cover 13, when the monitoring camera 21 carries out inspection monitoring, the shot picture can be transmitted to the PLC controller 22 in real time, the PLC controller 22 can carry out analysis and judgment on the shot picture, whether the abnormality occurs in the picture or not is judged, when the shot picture is abnormal, the PLC 22 transmits the picture to the mobile phone of the worker through the wireless transmission module 23, and reminds the worker in time, when more dust is attached to the hemispherical transparent cover 13, the PLC 22 controls the motor 17 to rotate, the output shaft of the motor 17 drives the driven gear 15 to rotate through the driving gear 16, the driven gear 15 drives the rotating shaft 9 to rotate, the rotating shaft 9 drives the arc movable plate 14 to rotate, the arc movable plate 14 drives the sliding column 12 to rotate, the sliding column 12 drives the arc cleaning plate 24 to rotate along the hemispherical transparent cover 13, the arc cleaning plate 24 is tightly attached to the hemispherical transparent cover 13 under the action of the spring 10, after the arc movable plate 14 rotates to a position contacting the limiting strip 19, the PLC 22 detects that the output shaft of the motor 17 can not rotate, the PLC 22 controls the output shaft of the motor 17 to reversely rotate, the arc cleaning plate 24 is driven to reversely rotate along the hemispherical transparent cover 13, so that dust attached to the hemispherical transparent cover 13 is scraped and cleaned in a reciprocating mode, after cleaning is completed, the monitoring camera 21 transmits a shot clear picture to the PLC 22, after the PLC 22 judges that the current dust is cleaned, the PLC 22 drives the arc movable plate 14 to rotate to a position contacted with the limiting strip 19 through the motor 17, and accordingly the arc cleaning plate 24 is prevented from staying on the hemispherical transparent cover 13 to shield the sight.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (9)

1. An automatic change power supply inspection monitoring device which characterized in that: including slide rail (5), drive assembly (6), fixed disc (8), rotation axis (9), spring (10), stopper (11), traveller (12), hemisphere translucent cover (13), arc fly leaf (14), motor (17), surveillance camera head (21), PLC controller (22) and arc clearance board (24), slidable mounting has drive assembly (6) on slide rail (5), drive assembly (6) below is provided with fixed disc (8), fixed disc (8) lower surface is provided with surveillance camera head (21) and PLC controller (22), and surveillance camera head (21) are located the lower surface central point of fixed disc (8), fixed disc (8) lower surface is provided with hemisphere translucent cover (13), radial run through on fixed disc (8) is provided with rotation axis (9), the both ends of rotation axis (9) are connected with the inboard rotation of both ends of arc fly leaf (14), the side equiangular level of arc fly leaf (14) is run through and is provided with three traveller (12), and the inner of three traveller (12) is provided with surveillance camera head (21) and PLC controller (22), and the lower surface of fixed disc (21) is located the lower surface central point of fixed disc (8), radial clearance board (24) is provided with hemisphere translucent cover (13), and spring (10) are in between arc fly leaf (14) and arc clearance board (24), the one end that arc clearance board (24) were kept away from to traveller (12) is provided with stopper (11), fixed disc (8) upper surface level is provided with motor (17), and the output shaft and the rotation axis (9) transmission of motor (17) are connected.

2. An automated power inspection and monitoring device according to claim 1, wherein: the end part of the output shaft of the motor (17) is provided with a driving gear (16), and the rotating shaft (9) is provided with a driven gear (15) meshed with the driving gear (16).

3. An automated power inspection and monitoring device according to claim 1, wherein: limiting strips (19) which are correspondingly matched with the arc-shaped movable plates (14) are arranged at two ends of the upper surface of the fixed disc (8).

4. An automated power inspection and monitoring device according to claim 1, wherein: the center of the lower surface of the fixed disc (8) is fixedly connected with the monitoring camera (21) through an extension column (20).

5. An automated power inspection and monitoring device according to claim 1, wherein: the lower surface of the fixed disc (8) is provided with a wireless transmission module (23).

6. An automated power inspection and monitoring device according to claim 1, wherein: the upper surface of the fixed disc (8) is fixedly connected with a motor (17) through a motor supporting plate (18).

7. An automated power inspection and monitoring device according to claim 1, wherein: the connecting block (7) is vertically arranged below the driving assembly (6), and the lower end of the connecting block (7) is fixedly connected with the fixed disc (8).

8. An automated power inspection and monitoring device according to claim 1, wherein: a plurality of transverse supporting rods (4) are uniformly arranged on the inner side of the sliding rail (5) at equal intervals.

9. The automated power inspection and monitoring device of claim 8, wherein: the novel horizontal support is characterized in that a vertical support column (3) is vertically arranged in the middle of the upper end of the horizontal support rod (4), a mounting plate (1) is arranged at the top of the vertical support column (3), and a plurality of mounting holes (2) are uniformly formed in the mounting plate (1) at equal angles.