CN218378589U - Electrical equipment operation monitoring device - Google Patents

Abstract

The utility model provides an electrical equipment operation monitoring device, which relates to the technical field of electrical monitoring devices and comprises a bracket component and a monitoring mechanism, wherein the top side of the bracket component is provided with an adjusting component assembled by bolts; the utility model discloses mainly, the utilization sets up electronic lead screw on the bracket component, make electronic lead screw can drive the elevator and carry out the operation of going up and down, lift operation through the elevator, make hydraulic rod on the cooperation of the articulated base in both ends, fall electronic damping axle, make the bayonet joint of the last control box of monitoring mechanism break away from the socket, like this under the effect through electronic damping axle and hydraulic rod, make the staff can carry out quick maintenance of examining and repairing in the low level, and under electronic damping axle side operation on lead screw and hydraulic rod cooperation, carry out effectual reseing with the bayonet joint with the control box, thereby the staff complex operation is in the situation has been solved, simultaneously because large-scale machinery need not be operated after that, the cost is reduced like this.

Description

Electrical equipment operation monitoring device

Technical Field

The utility model relates to an electrical monitoring technical field especially relates to an electrical equipment operation monitoring devices.

Background

The electrical equipment is a general name for equipment such as a generator, a transformer, a power line, a circuit breaker and the like in a power system, the important role played by the power in our life and production is not ignored, great convenience is brought to us, the electrical equipment becomes an important energy source in our production and life, the most critical factor for normal operation and transmission of the power in a power plant is the electrical equipment, and therefore reasonable and safe monitoring needs to be carried out on the electrical equipment in the operation process so as to transmit data to a control department in real time, so that the safety is improved, and the operation stability is guaranteed.

Current electrical monitoring device is when using, and the environment of using usually is not fixed, receives the influence of objects such as topography and building, can cause the place of installation also different, therefore when equipment replacement maintenance, is a challenge to the staff, and installation environment to the difference is complex operation both easily, and the complicacy of environment also easily produces the potential safety hazard moreover, consequently, the utility model provides an electrical equipment operation monitoring device is in order to solve the problem that exists among the prior art.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides an electrical equipment operation monitoring devices, this electrical equipment operation monitoring devices mainly utilizes to set up electronic lead screw on the bracket component, make electronic lead screw can drive the elevator and carry out the operation of going up and down, through the operation of the elevator, make hydraulic rod on the cooperation of both ends articulated base, fall electronic damping axle, make the bayonet joint of the control box on the monitoring mechanism break away from the bayonet socket, like this under the effect through electronic damping axle and hydraulic rod, make the staff can carry out quick maintenance of examining and repairing in the low position, and under electronic damping axle side operation on lead screw and hydraulic rod cooperation, carry out effectual reseing with the bayonet joint with the control box, thereby the staff complex operation in the situation has been solved, simultaneously because large-scale machine need not operate after that, the cost is reduced like this and the security has promoted.

For realizing the purpose of the utility model, the utility model discloses a following technical scheme realizes: an electrical equipment operation monitoring device comprises a support assembly and a monitoring mechanism, wherein a regulating assembly assembled by bolts is arranged on the top side of the support assembly, an assembling assembly assembled by bolts is arranged at one end of the regulating assembly, and the monitoring mechanism connected with the assembling assembly in an inserting manner is arranged on the inner side of the support assembly;

the monitoring mechanism comprises an electric screw rod, a lifting block, a bolt sleeve disc, a first hinged seat, a hydraulic push rod, a hinge base, an electric damping shaft, a connecting frame strip, a clamping seat, a control box and a plug connector, wherein the electric screw rod is arranged on the inner side of the support component, the electric screw rod is in bolted connection with the lifting block, one side of the lifting block is in bolted connection with the first hinged seat through the bolt sleeve disc, the hydraulic push rod is arranged on one side of the first hinged seat, the hinge base is arranged at one end of the hydraulic push rod, the electric damping shaft is arranged on the inner side of one end of the hinge base, the connecting frame strip is arranged on one side of the electric damping shaft, the clamping seat is arranged at one end of the connecting frame strip, the control box is arranged on the top side of the clamping seat, and the plug connector in plug connection with the assembling component is arranged on the top side of the control box.

The improved structure is characterized in that the first hinge seat and the hinge base are distributed in parallel, the connecting frame strip and the clamping seat are distributed in a mutually perpendicular mode, and the plug-in connectors are symmetrically distributed on the central axis of the control box.

The support assembly comprises a bolt base, an insulating base plate, a screw rod shell and a partition plate group, wherein the insulating base plate is arranged on the top side of the bolt base, the screw rod shell is arranged on the top side of the insulating base plate, and the partition plate group is arranged on the top side of the screw rod shell.

The adjusting assembly comprises a bolt cushion frame, a cross beam, a pneumatic telescopic rod and a front block, the bolt cushion frame is connected to the top side of the partition plate group through bolts, the cross beam is arranged on the top side of the bolt cushion frame, the pneumatic telescopic rod is arranged at one end of the cross beam, and the front block is arranged at one end of the pneumatic telescopic rod.

The assembly component comprises a bolt connecting seat, a hanging rod, a camera, a connecting grid frame, a variable pressure block and a socket, wherein the bolt connecting seat is connected with the side of the front block through a bolt, and the front side of the bolt connecting seat is connected with the hanging rod for installing the camera through a bolt.

The improved bolt connecting seat is characterized in that connecting grids are arranged at two ends of the bolt connecting seat, variable pressure blocks are arranged on the inner side of the connecting grids, and inserting seats are arranged on the bottom sides of the connecting grids.

The beneficial effects of the utility model are that:

the utility model discloses mainly, the utilization sets up electronic lead screw on the bracket component, make electronic lead screw can drive the elevator and carry out the operation of going up and down, lift operation through the elevator, make hydraulic rod on the cooperation of the articulated base in both ends, fall electronic damping axle, make the bayonet joint of the last control box of monitoring mechanism break away from the socket, like this under the effect through electronic damping axle and hydraulic rod, make the staff can carry out quick maintenance of examining and repairing in the low level, and under electronic damping axle side operation on lead screw and hydraulic rod cooperation, carry out effectual reseing with the bayonet joint with the control box, thereby the staff complex operation is in the situation has been solved, simultaneously because large-scale machinery need not be operated, the cost is reduced like this and the security has been promoted.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic side view of the three-dimensional structure of the present invention;

fig. 3 is a schematic perspective view of the assembly of the present invention;

fig. 4 is a schematic view of the three-dimensional structure of the monitoring mechanism of the present invention.

Wherein: 1. a bracket assembly; 101. a bolt base; 102. an insulating substrate; 103. a screw housing; 104. a group of separator plates; 2. an adjustment assembly; 201. a bolt washer frame; 202. a cross beam; 203. a pneumatic telescopic rod; 204. a front block; 3. assembling the components; 301. a bolt connecting seat; 302. a boom; 303. a camera; 304. connecting a framework; 305. a variable pressure block; 306. a socket; 4. a monitoring mechanism; 401. an electric screw rod; 402. a lifting block; 403. a bolt sleeve disc; 404. a first hinge mount; 405. a hydraulic push rod; 406. a hinge base; 407. an electric damping shaft; 408. a frame connecting bar; 409. a clamping seat; 4010. a control box; 4011. a plug-in connector.

Detailed Description

In order to deepen the understanding of the present invention, the following embodiments will be combined to make the present invention do further details, and the present embodiment is only used for explaining the present invention, and does not constitute the limitation of the protection scope of the present invention.

According to fig. 1-4, the embodiment provides an electrical equipment operation monitoring device, which includes a bracket assembly 1 and a monitoring mechanism 4, wherein a top side of the bracket assembly 1 is provided with an adjusting assembly 2 assembled by bolts, one end of the adjusting assembly 2 is provided with an assembling assembly 3 assembled by bolts, and an inner side of the bracket assembly 1 is provided with the monitoring mechanism 4 connected with the assembling assembly 3 in an inserting manner;

the monitoring mechanism 4 comprises an electric screw rod 401, a lifting block 402, a bolt sleeve disc 403, a first hinge seat 404, a hydraulic push rod 405, a hinge base 406, an electric damping shaft 407, a connecting frame strip 408, a clamping seat 409, a control box 4010 and a plug 4011, wherein the electric screw rod 401 is arranged on the inner side of the support assembly 1, the electric screw rod 401 is connected with the lifting block 402 through a bolt, one side of the lifting block 402 is connected with the first hinge seat 404 through the bolt sleeve disc 403, the hydraulic push rod 405 is arranged on one side of the first hinge seat 404, the hinge base 406 is arranged at one end of the hydraulic push rod 405, the electric damping shaft 407 is arranged on the inner side of one end of the hinge base 406, the connecting frame strip 408 is arranged on one side of the electric damping shaft 407, the clamping seat 409 is arranged at one end of the connecting frame strip 408, the control box 4010 is arranged on the top side of the clamping seat 409, and the plug 4011 connected with the assembling assembly 3 in a plugging manner is arranged on the top side of the control box 4010.

The first hinge base 404 and the hinge base 406 are parallel to each other, the frame connecting bar 408 and the holder 409 are perpendicular to each other, and the plug 4011 is symmetrically distributed on the central axis of the control box 4010.

In this embodiment, when the maintenance is required, the lifting block 402 is driven to descend by starting the electric lead screw 401 to output power, so that the descending force of the lifting block 402 separates the plug 4011 from the plug seat 306, and the hydraulic push rod 405 is started to output power, so that the hinge base 406 runs the electric damping shaft 407 to a position suitable for adjustment in cooperation with the first hinge seat 404, and then the electric damping shaft 407 is started to output power to drive the connecting frame 408 to replace the control box 4010 on the clamping seat 409, and then the electric lead screw 401 and the hydraulic push rod 405 are started, and the electric damping shaft 407 is matched to output power, so that the plug 4011 on the top side of the control box 4010 is inserted into the plug seat 306 again to achieve the detection effect.

The bracket assembly 1 comprises a bolt base 101, an insulating base plate 102, a screw rod shell 103 and a partition plate group 104, wherein the insulating base plate 102 is arranged on the top side of the bolt base 101, the screw rod shell 103 is arranged on the top side of the insulating base plate 102, and the partition plate group 104 is arranged on the top side of the screw rod shell 103.

In the present embodiment, by selecting the mounting position, at the mounting position, the insulating substrate 102 is bolt-fitted through the bolt base 101, and the screw housing 103 is provided on the top side of the insulating substrate 102, so that the electric screw 401 is supported by the screw housing 103 and the spacer group 104 is supported by the bolt jigs 201 on the top side of the screw housing 103.

The adjusting assembly 2 comprises a bolt pad frame 201, a cross beam 202, a pneumatic telescopic rod 203 and a front block 204, the bolt pad frame 201 is connected to the top side of the isolation plate group 104 through bolts, the cross beam 202 is arranged on the top side of the bolt pad frame 201, the pneumatic telescopic rod 203 is arranged at one end of the cross beam 202, and the front block 204 is arranged at one end of the pneumatic telescopic rod 203.

In this embodiment, the bolt pad frame 201 is used to bolt the upper isolation plate set 104, so as to effectively support the cross beam 202, such that the cross beam 202 is aligned to the direction to be loaded, and the length of the pneumatic telescopic rod 203 is adjusted by activating the pneumatic telescopic rod 203 at one end of the cross beam 202 to output power, so that the front block 204 at one end of the pneumatic telescopic rod 203 runs to the loading position.

The assembly component 3 comprises a bolt connecting seat 301, a suspension rod 302, a camera 303, a grid connecting 304, a transformation block 305 and an insertion seat 306, wherein the bolt connecting seat 301 is connected to the side of the front block 204 in a bolt mode, and the suspension rod 302 for installing the camera 303 is connected to the front side of the bolt connecting seat 301 in a bolt mode.

In this embodiment, when the front block 204 is moved to the loading position, the bolt socket 301 is bolted to the outer end side of the front block 204, and the camera 303 is hoisted by using the boom 302 at one end side of the bolt socket 301, so that the camera 303 can effectively observe the surrounding situation.

Two ends of the bolt connecting seat 301 are provided with connecting grids 304, the inner side of each connecting grid 304 is provided with a variable pressure block 305, and the bottom side of each connecting grid 304 is provided with an inserting seat 306.

In this embodiment, the two ends of the bolt socket 301 are fixedly connected to the upper grid 304, so that the upper grid 304 passes through a cable to be monitored and is connected to the transformer block 305 inside the lower grid 304 to detect the operation status, after the transformer block 305 transforms the power, the power signal is transmitted to the socket 306 at the bottom side of the grid 304, and the socket 306 is plugged in through the plug 4011 at the top side of the control box 4010 to achieve the purpose of detecting the operation status of the electrical line in real time by using the control box 4010.

The working principle of the electrical equipment operation monitoring device is as follows: firstly, by selecting an installation position, in the installation position, an insulating substrate 102 is bolt-assembled through a bolt base 101, a screw rod shell 103 is arranged on the top side of the insulating substrate 102, an electric screw rod 401 is supported on the screw rod shell 103, a bolt cushion frame 201 is supported on the top side of the screw rod shell 103, the bolt cushion frame 201 is used for bolt-connecting the isolation plate group 104, a cross beam 202 is effectively supported, the cross beam 202 is aligned to the direction needing loading, the length of the pneumatic telescopic rod 203 is adjusted by starting the pneumatic telescopic rod 203 at one end of the cross beam 202 to output power, the front block 204 at one end of the pneumatic telescopic rod 203 is operated to the loading position, when the front block 204 is operated to the loading position, a bolt connecting seat 301 is bolt-connected to the outer end side of the front block 204, and a camera 303 is hoisted by a suspender 302 by utilizing one end side of the bolt connecting seat 301, the camera 303 can effectively observe the surrounding situation, the two ends of the bolt connecting seat 301 are fixedly connected with the connection grillage 304, the connection grillage 304 at the upper end penetrates through a cable to be monitored and is connected with the voltage transformation block 305 on the inner side of the connection grillage 304 at the lower end to detect the operation situation, after the voltage transformation block 305 transforms the voltage, the power signal is transmitted to the plug socket 306 at the bottom side of the connection grillage 304, the plug socket 306 is plugged in the plug socket 4011 at the top side of the control box 4010 to achieve the purpose of detecting the operation situation of an electric circuit in real time by using the control box 4010, when the maintenance is needed, the lifting block 402 is driven to descend by starting the electric lead screw 401 to output power, so that the descending force of the lifting block 402 separates the plug socket 4011 from the plug socket 306, the hydraulic push rod 405 is started to output power, and the first hinge seat 404 is matched with the upper hinge base 406 to operate the electric damping shaft 407 to a position suitable for adjustment, then, the electric damping shaft 407 is started to output power to drive the connecting frame 408 to replace the control box 4010 on the clamping seat 409, then the electric screw 401 and the hydraulic push rod 405 are started, the electric damping shaft 407 is matched to output power, and the plug 4011 on the top side of the control box 4010 is plugged into the plug seat 306 again to achieve the detection effect.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. An electrical equipment operation monitoring device, includes bracket component (1) and monitoring mechanism (4), its characterized in that: an adjusting component (2) assembled by bolts is arranged on the top side of the support component (1), an assembling component (3) assembled by bolts is arranged at one end of the adjusting component (2), and a monitoring mechanism (4) connected with the assembling component (3) in an inserting manner is arranged on the inner side of the support component (1);

monitoring mechanism (4) include electronic lead screw (401), lift block (402), bolt sleeve dish (403), first articulated seat (404), hydraulic rod (405), hinge base (406), electronic damping axle (407), even frame strip (408), grip slipper (409), control box (4010) and bayonet joint (4011), electronic lead screw (401) set up the inboard of bracket component (1), electronic lead screw (401) bolted connection has lift block (402), one side of lift block (402) is passed through bolt sleeve dish (403) and is connected with first articulated seat (404) bolted connection, one side of first articulated seat (404) is provided with hydraulic rod (405), just the one end of hydraulic rod (405) is provided with hinge base (406), the one end inboard of hinge base (406) is provided with electronic damping axle (407), just one side of electronic damping axle (407) is provided with even frame strip (408), the one end of even frame strip (408) is provided with grip slipper (409), just the top side of grip slipper (408) is provided with control box (4010), the side of control box (4010) is provided with the grafting subassembly (4011) and the grafting joint (4011).

2. An electrical equipment operation monitoring device according to claim 1, characterized in that: first articulated seat (404) and hinge base (406) parallel distribution each other, link frame strip (408) and holder (409) mutually perpendicular distribute, bayonet joint (4011) is with the axis symmetric distribution of control box (4010).

3. An electrical equipment operation monitoring device according to claim 1, characterized in that: the support assembly (1) comprises a bolt base (101), an insulating base plate (102), a screw rod shell (103) and a partition plate group (104), wherein the insulating base plate (102) is arranged on the top side of the bolt base (101), the screw rod shell (103) is arranged on the top side of the insulating base plate (102), and the partition plate group (104) is arranged on the top side of the screw rod shell (103).

4. An electrical equipment operation monitoring device according to claim 3, characterized in that: the adjusting component (2) comprises a bolt pad frame (201), a cross beam (202), a pneumatic telescopic rod (203) and a front block (204), the bolt pad frame (201) is connected to the top side of the isolation plate group (104) through bolts, the top side of the bolt pad frame (201) is provided with the cross beam (202), one end of the cross beam (202) is provided with the pneumatic telescopic rod (203), and one end of the pneumatic telescopic rod (203) is provided with the front block (204).

5. An electrical equipment operation monitoring device according to claim 4, characterized in that: the assembly component (3) comprises a bolt connecting seat (301), a suspension rod (302), a camera (303), a grid connection frame (304), a transformation block (305) and an insertion seat (306), wherein the bolt connecting seat (301) is connected to the side of the front block (204) through a bolt, and the front side of the bolt connecting seat (301) is connected with the suspension rod (302) of the camera (303) through a bolt.

6. An electrical equipment operation monitoring device according to claim 5, characterized in that: two ends of the bolt connecting seat (301) are provided with connecting grillworks (304), the inner side of each connecting grillwork (304) is provided with a variable pressure block (305), and the bottom side of each connecting grillwork (304) is provided with an inserting seat (306).

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