CN208092179U - GIS device photoelectric arc on-Line Monitor Device based on photoelectric detecting technology - Google Patents

Abstract

The GIS device photoelectric arc on-Line Monitor Device based on photoelectric detecting technology that the utility model discloses a kind of, photosensitive sensor including mounting plate and positioned at mounting plate bottom, the bottom of the mounting plate is opened up there are two mounting groove, the both sides of photosensitive sensor are installed with mounting blocks, two mounting blocks are mutually clamped with two mounting grooves respectively, the shifting chute that bottom is set as opening is offered on the side inner wall that two mounting grooves are located remotely from each other, it is slidably fitted with movable plate in the shifting chute, the bottom of movable plate extends to the lower section of mounting plate, two movable plate sides close to each other are installed with fixture block, the side that two mounting blocks are located remotely from each other offers card slot, fixture block is mutually clamped with corresponding card slot.The utility model is simple in structure convenient for being replaced in time to photosensitive sensor when photosensitive sensor breaks down convenient for being dismounted to photosensitive sensor, easy to use.

Description

GIS device photoelectric arc on-Line Monitor Device based on photoelectric detecting technology

Technical field

The utility model is related to on-Line Monitor Device technical field more particularly to a kind of GIS based on photoelectric detecting technology Equipment photoelectric arc on-Line Monitor Device.

Background technology

GIS is the English abbreviation of gas-insulating and fully-enclosed combined electrical apparatus, GIS by breaker, disconnecting switch, earthing switch, The compositions such as mutual inductor, arrester, busbar, connector and outlet terminal, these equipment or component are all enclosed in metallic ground In shell, the SF6 insulating gas filled with certain pressure inside it, therefore also referred to as SF6 fully closed combined electric units, arc discharge refer to Arcuation white light is presented and generates the gas discharge phenomenon of high temperature, no matter in low density gas, metal vapors or air, when power supply work( Rate is larger, can provide sufficiently large electric current (several peaces arrive dozens of Ann), make gas breakdown, send out strong radiance, it is (thousands of to generate high temperature To degree up to ten thousand), the form of this gas self-maintained discharge is exactly arc discharge, and existing GIS device can all install photosensitive biography mostly Sensor, photosensitive sensor are one of most common sensors, its type is various, mainly has：Photoelectric tube, photomultiplier, light Quick resistance, phototriode, solar cell, infrared sensor, UV sensor, optical fiber type photoelectric sensor, color There are OTRON brands etc. in sensor, CCD and cmos image sensor etc., domestic leading firm.Optical sensor be current production rate most More, most widely used one of sensor, it plays a very important role automatically controlling in non-electrical quantity measurement technology, passes through Photosensitive sensor monitors photoelectric arc on-line, to understand in time the operating condition of GIS device, but photosensitive sensor is inconvenient In being dismounted, when breaking down, it is not easy to be replaced in time, therefore we have proposed based on photoelectric detecting technology GIS device photoelectric arc on-Line Monitor Device, for solving the above problems.

Utility model content

Purpose of the utility model is to solve disadvantage existing in the prior art, and propose based on Photoelectric Detection skill The GIS device photoelectric arc on-Line Monitor Device of art.

To achieve the goals above, the utility model uses following technical solution：

GIS device photoelectric arc on-Line Monitor Device based on photoelectric detecting technology, including mounting plate and be located at mounting plate bottom The photosensitive sensor in portion, the bottom of the mounting plate open up that there are two mounting grooves, and the both sides of photosensitive sensor are installed with Mounting blocks, two mounting blocks are mutually clamped with two mounting grooves respectively, are opened up on the side inner wall that two mounting grooves are located remotely from each other There is bottom to be set as the shifting chute of opening, is slidably fitted with movable plate in the shifting chute, the bottom of movable plate extends to installation The lower section of plate, two movable plate sides close to each other are installed with fixture block, and the side that two mounting blocks are located remotely from each other is equal Card slot is offered, fixture block is mutually clamped with corresponding card slot, is installed on the side inner wall that two shifting chutes are located remotely from each other Fixed plate offers first through hole on the movable plate, and two fixed plates are connect with the side walls of two first through hole respectively, It opens up fluted in the bottom interior wall of the first through hole, slide plate is slidably fitted in groove, is installed at the top of slide plate The bottom of limited block, the fixed plate offers limiting slot, and limited block is mutually clamped with corresponding limiting slot.

Preferably, spring, the top of two springs are installed on side inner wall of the groove far from slot opening It is mutually welded with the bottom of two slide plates respectively.

Preferably, the bottom of the slide plate is installed with mobile bar, and spring pocket is set in corresponding mobile bar.

Preferably, sliding slot is offered on side inner wall of the groove far from slot opening, the bottom end of mobile bar extends to In corresponding sliding slot.

Preferably, the bottom end of the mobile bar is installed with pull lever, one end difference that two pull lever are located remotely from each other The outside of two movable plates is extended to, and two pull lever are respectively positioned on the lower section of mounting plate.

Preferably, the side that two movable plates are located remotely from each other offers the second through-hole, and two the second through-holes are respectively with two A sliding slot is connected, and one end that two pull lever are located remotely from each other extends through two the second through-holes.

Compared with prior art, the beneficial effects of the utility model：

By mounting plate, photosensitive sensor, mounting groove, mounting blocks, shifting chute, movable plate, fixture block, card slot, fixed plate, recessed Slot, slide plate, limited block, limiting slot, mobile bar, spring and pull lever match, first when needing to dismantle photosensitive sensor First two pull lever is pulled to be moved downwards, drives two mobile bars to be moved by two pull lever, moved by two Lever drives two slide plates to be moved downwards, drives two limited blocks to be moved by two slide plates, makes two limited blocks Two limiting slots are detached from, then two movable plates is pulled to be moved towards the direction being located remotely from each other, passes through two movable plate bands It moves two fixture blocks to be moved, so that two fixture blocks is detached from two card slots, unclamp pull lever at this time, finally pull downward on light sensor Device, makes two mounting blocks be detached from two mounting grooves, and the utility model works as photosensitive sensor convenient for being dismounted to photosensitive sensor It is simple in structure convenient for being replaced in time to photosensitive sensor when failure, it is easy to use.

Description of the drawings

Fig. 1 be the utility model proposes the GIS device photoelectric arc on-Line Monitor Device based on photoelectric detecting technology knot Structure schematic diagram；

Fig. 2 be the utility model proposes the GIS device photoelectric arc on-Line Monitor Device based on photoelectric detecting technology the portions A The structural schematic diagram divided.

In figure：1 mounting plate, 2 photosensitive sensors, 3 mounting grooves, 4 mounting blocks, 5 shifting chutes, 6 movable plates, 7 fixture blocks, 8 card slots, 9 fixed plates, 10 first through hole, 11 grooves, 12 slide plates, 13 limited blocks, 14 limiting slots, 15 mobile bars, 16 springs, 17 pull lever.

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

Referring to Fig.1-2, the GIS device photoelectric arc on-Line Monitor Device based on photoelectric detecting technology, including mounting plate 1 and position The bottom of photosensitive sensor 2 in 1 bottom of mounting plate, mounting plate 1 is opened up there are two mounting groove 3, and the both sides of photosensitive sensor 2 are equal Be installed with mounting blocks 4, two mounting blocks 4 are clamped with two 3 phases of mounting groove respectively, two mounting grooves 3 be located remotely from each other one The shifting chute 5 that bottom is set as opening is offered on the inner wall of side, and movable plate 6 is slidably fitted in shifting chute 5, movable plate 6 Bottom extends to the lower section of mounting plate 1, and two movable plates 6 side close to each other is installed with fixture block 7, two mounting blocks 4 sides being located remotely from each other offer card slot 8, and fixture block 7 and 8 phase of corresponding card slot clamp, two shifting chutes 5 be located remotely from each other one Be installed with fixed plate 9 on the inner wall of side, offer first through hole 10 on movable plate 6, two fixed plates 9 respectively with two The side walls of one through-hole 10 connect, and open up fluted 11 in the bottom interior wall of first through hole 10, are slidably fitted in groove 11 Slide plate 12, the top of slide plate 12 are installed with limited block 13, and the bottom of fixed plate 9 offers limiting slot 14, limited block 13 with 14 phase of corresponding limiting slot clamp, by mounting plate 1, photosensitive sensor 2, mounting groove 3, mounting blocks 4, shifting chute 5, movable plate 6, Fixture block 7, card slot 8, fixed plate 9, groove 11, slide plate 12, limited block 13, limiting slot 14, mobile bar 15, spring 16 and pull lever 17 It matches, when needing to dismantle photosensitive sensor 2, pulls two pull lever 17 to be moved downwards first, pass through two Pull lever 17 drives two mobile bars 15 to be moved, and drives two slide plates 12 to be moved downwards by two mobile bars 15, It drives two limited blocks 13 to be moved by two slide plates 12, so that two limited blocks 13 is detached from two limiting slots 14, then draw It moves two movable plates 6 to be moved towards the direction being located remotely from each other, drives two fixture blocks 7 to be moved by two movable plates 6, So that two fixture blocks 7 is detached from two card slots 8, unclamp pull lever 17 at this time, finally pull downward on photosensitive sensor 2, makes two installations Block 4 is detached from two mounting grooves 3, and the utility model is convenient for dismounting photosensitive sensor 2, when photosensitive sensor 2 breaks down When, it is simple in structure convenient for being replaced in time to photosensitive sensor 2, it is easy to use.

In the utility model, spring 16, two bullets are installed on the side inner wall that groove 11 is open far from groove 11 The top of spring 16 is mutually welded with the bottom of two slide plates 12 respectively, and the bottom of slide plate 12 is installed with mobile bar 15, spring 16 It is sheathed in corresponding mobile bar 15, sliding slot is offered on the side inner wall that groove 11 is open far from groove 11, mobile bar 15 Bottom end extends in corresponding sliding slot, and the bottom end of mobile bar 15 is installed with pull lever 17, and two pull lever 17 are located remotely from each other One end extend respectively to the outsides of two movable plates 6, and two pull lever 17 are respectively positioned on the lower section of mounting plate 1, two movements The side that plate 6 is located remotely from each other offers the second through-hole, and two the second through-holes are connected with two sliding slots respectively, two pull lever 17 one end being located remotely from each other extend through two the second through-holes, by mounting plate 1, photosensitive sensor 2, mounting groove 3, mounting blocks 4, Shifting chute 5, movable plate 6, fixture block 7, card slot 8, fixed plate 9, groove 11, slide plate 12, limited block 13, limiting slot 14, mobile bar 15, Spring 16 and pull lever 17 match, when needing to dismantle photosensitive sensor 2, first pull two pull lever 17 downwards into Row movement, drives two mobile bars 15 to be moved by two pull lever 17, and two slide plates are driven by two mobile bars 15 12 are moved downwards, drive two limited blocks 13 to be moved by two slide plates 12, two limited blocks 13 is made to be detached from two Then limiting slot 14 pulls two movable plates 6 to be moved towards the direction being located remotely from each other, two are driven by two movable plates 6 A fixture block 7 is moved, and two fixture blocks 7 is made to be detached from two card slots 8, is unclamped pull lever 17 at this time, is finally pulled downward on photosensitive biography Sensor 2 makes two mounting blocks 4 be detached from two mounting grooves 3, and the utility model is convenient for dismounting photosensitive sensor 2, when photosensitive It is simple in structure convenient for being replaced in time to photosensitive sensor 2 when sensor 2 breaks down, it is easy to use.

Operation principle：It when photosensitive sensor 2 breaks down, pulls two pull lever 17 to be moved downwards first, leads to Crossing two pull lever 17 drives two mobile bars 15 to be moved, and drives two slide plates 12 to carry out downwards by two mobile bars 15 It is mobile, it drives two limited blocks 13 to be moved by two slide plates 12, so that two limited blocks 13 is detached from two limiting slots 14, so It pulls two movable plates 6 to be moved towards the direction being located remotely from each other afterwards, drives two fixture blocks 7 to carry out by two movable plates 6 It is mobile, so that two fixture blocks 7 is detached from two card slots 8, unclamp pull lever 17, spring 16 is in contraction state, finally pulls down Dynamic photosensitive sensor 2, makes two mounting blocks 4 be detached from two mounting grooves 3, you can completes the dismounting to photosensitive sensor 2, then will Two mounting blocks 4 being fixedly mounted on new photosensitive sensor 2 snap fitted in two mounting grooves 3, pull two movable plates 6 towards Direction close to each other is moved, and two fixture blocks 7 is made to snap fitted in two card slots 8, at the same time, limited block 13 and limiting slot 14 positions correspond to, and spring 16 restores to the original state, and so that slide plate 12 is moved upwards by the elastic force of spring 16, is driven by slide plate 12 Limited block 13 snaps fitted in limiting slot 14, and the position of movable plate 6 is fixed at this time, and the installation completed to photosensitive sensor 2 is solid It is fixed.

The preferable specific implementation mode of the above, only the utility model, but the scope of protection of the utility model is not Be confined to this, any one skilled in the art within the technical scope disclosed by the utility model, according to this practicality Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1. the GIS device photoelectric arc on-Line Monitor Device based on photoelectric detecting technology, including mounting plate (1) and it is located at mounting plate (1) photosensitive sensor (2) of bottom, which is characterized in that the bottom of the mounting plate (1) is opened up there are two mounting groove (3), photosensitive The both sides of sensor (2) are installed with mounting blocks (4), and two mounting blocks (4) mutually clamp with two mounting grooves (3) respectively, The shifting chute (5) that bottom is set as opening, the shifting chute are offered on the side inner wall that two mounting grooves (3) are located remotely from each other (5) it is slidably fitted with movable plate (6) in, the bottom of movable plate (6) extends to the lower section of mounting plate (1), two movable plate (6) phases Mutually close side is installed with fixture block (7), and the side that two mounting blocks (4) are located remotely from each other offers card slot (8), card Block (7) is mutually clamped with corresponding card slot (8), and fixation is installed on the side inner wall that two shifting chutes (5) are located remotely from each other Plate (9), offers first through hole (10) on the movable plate (6), two fixed plates (9) respectively with two first through hole (10) Side walls connect, and are opened up fluted (11) in the bottom interior wall of the first through hole (10), are slidably fitted in groove (11) Slide plate (12) is installed with limited block (13) at the top of slide plate (12), and the bottom of the fixed plate (9) offers limiting slot (14), limited block (13) is mutually clamped with corresponding limiting slot (14).

2. the GIS device photoelectric arc on-Line Monitor Device according to claim 1 based on photoelectric detecting technology, feature exist In being installed with spring (16) on the side inner wall of, the groove (11) far from groove (11) opening, two springs (16) It mutually welds bottom of the top respectively with two slide plates (12).

3. the GIS device photoelectric arc on-Line Monitor Device according to claim 1 based on photoelectric detecting technology, feature exist In the bottom of the slide plate (12) is installed with mobile bar (15), and spring (16) is sheathed on corresponding mobile bar (15).

4. the GIS device photoelectric arc on-Line Monitor Device according to claim 1 based on photoelectric detecting technology, feature exist In the groove (11) offers sliding slot on the side inner wall far from groove (11) opening, and the bottom end of mobile bar (15) extends to In corresponding sliding slot.

5. the GIS device photoelectric arc on-Line Monitor Device according to claim 3 based on photoelectric detecting technology, feature exist In the bottom end of the mobile bar (15) is installed with pull lever (17), one end difference that two pull lever (17) are located remotely from each other The outside of two movable plates (6) is extended to, and two pull lever (17) are respectively positioned on the lower section of mounting plate (1).

6. the GIS device photoelectric arc on-Line Monitor Device according to claim 1 based on photoelectric detecting technology, feature exist In the side that two movable plates (6) are located remotely from each other offers the second through-hole, and two the second through-holes are connected with two sliding slots respectively Logical, one end that two pull lever (17) are located remotely from each other extends through two the second through-holes.