CN203881837U - Supporting insulator type high voltage induction sensor - Google Patents

Abstract

The utility model discloses a supporting insulator type high voltage induction sensor. The supporting insulator type high voltage induction sensor is fixed in high-voltage electrical equipment, and comprises an insulator, an upper flange is arranged at the upper end of the insulator, a lower flange is arranged at the lower end of the insulator, a printed circuit board is arranged in the insulator, a shielding cover is arranged on the face, opposite to the lower flange, of the printed circuit board, and the printed circuit board and the shielding cover are fixed with the lower flange through a connecting piece. The other face of the printed circuit board is opposite to a high-voltage electrified body, and a signal line for outputting voltage signals is further arranged on the other face of the printed circuit board. Due to the fact that the printed circuit board is adopted to replace two pieces of existing copper foil to induct electric field signals, industrial production of the sensor can be achieved, and the production efficiency of the sensor is greatly improved. Meanwhile, due to the fact that the high-voltage electrified body can be fixed to the upper flange in the insulator, the high-voltage electrified body can be fixed conveniently, the distance between the high-voltage electrified body and the printed circuit board is fixed, the electric field signals in the high-voltage electrified body can be detected accurately and reliably, and wrong instructions and misoperations can be avoided.

Description

A kind of induction high pressure sensor of supports insulative minor

Technical field

The utility model relates to the high voltage induction device in high voltage electric equipment, relates in particular to the induction high pressure sensor of the supports insulative minor in high voltage electric equipment.

Background technology

High-voltage hot-line work is dangerous large, therefore needs to indicate the whether charged display device of high-tension apparatus.Conventional HV live displaying equipment comprises sensor and controller two parts conventionally, and the sensor of current domestic high voltage display device is divided into contact and contactless two kinds conventionally.Contact inductor adopts electric capacity to carry out dividing potential drop to high pressure and extracts signal, thereby judges that whether measurand is charged, and this sensor electric capacity easily occurs and punctures, and causes the accident.

And the non-contacting sensor (being inductosyn) occurring at present adopts the principle of induction high-voltage electric field signal, sensor is contained in to electrified body below or the dead astern in high-tension apparatus, receive the electric field signal of electrified body, then the voltage signal of reception is sent to controller.In existing induction-type high-voltage sensor, people generally adopt two parallel Copper Foils to receive the electric field signal of electrified body.Because two Copper Foils are parallel fixing, be equivalent to the two ends of electric capacity, can accurately respond to the electric field signal of the high-voltage charged body in high-tension apparatus.When the position of two Copper Foils deviation slightly, in the time of cannot keeping parallelism, whether the high-voltage charged body that the electric capacity being formed by two Copper Foils cannot accurately be responded in high-tension apparatus be charged, often causes mistake indication.Meanwhile, because the processing of Copper Foil need to be carried out the special operations such as cutting, also standardized commercial production be cannot carry out at present, industrialization and the popularization of sensor greatly affected.Adopt existing inductosyn also to there is following shortcoming: 1, because sensor is in induced voltage signal process, require the distance of sensor and high-voltage charged body (for example high-voltage busbar) accurately and to fix, also require the strict parallel and center in sensor sensing face and electrification in high voltage surface over against, in order to meet above-mentioned mounting condition, often need to increase extra sensor fixture, therefore increased production cost.2, high-voltage charged body generally also needs to adopt special stationary installation (for example support insulator) to be fixed, and increases the production cost of switch cubicle; 3, because the space in switch cubicle is less, the sensor fixture of increase will take the space in switch cubicle, inconvenient time-consuming taking a lot of work is not only installed, and causes some cabinet type there is no this inductosyn of suitable space mounting at all; 4,, when high-voltage charged body is three-phase bus bar, because high-voltage charged body need will equate over against centre distance between sensor and electrified body, increased design and the installation difficulty of three-phase bus bar.

The support insulator that has had at present the belt sensor of contact, normal and the high-tension switch cabinet of the support insulator of the belt sensor of this contact and high pressure components and parts product support the use, play and support and induced voltage signal effect, the controller of high voltage display device is responsible for the induced voltage signal of high-voltage charged body to pass to by sensor, the block signal of controller output electromagnetic lock, reaches reflection high tension loop electriferous state and realizes the object that prevents mistakenly entering charged chamber and maloperation.But the support insulator that does not also have contactless belt sensor at present.

Summary of the invention

The purpose of this utility model be to provide a kind of safe and reliable, cost is low, the induction high pressure sensor of the supports insulative minor can be mass.

For achieving the above object, the technical solution of the utility model is: a kind of induction high pressure sensor of supports insulative minor, it is fixed in high voltage electric equipment, it is arranged in insulator, described insulator upper end is provided with the upper flange of the high-voltage charged body in fixing high voltage electric equipment, insulator lower end is provided with the lower flange being connected with high voltage electric equipment, between upper flange in insulator and lower flange, be provided with the printed circuit board (PCB) of induction field signal, the one side that printed circuit board (PCB) is relative with lower flange is provided with radome, printed circuit board (PCB) and radome are together fixed with lower flange by web member, printed circuit board (PCB) another side is relative with upper flange, and this face is also provided with the signal wire of output voltage signal, and signal wire end is fixed in the signal output interface of insulator lower sides setting.

The utility model adopts above structure, the electric field signal of printed circuit board (PCB) induction high-voltage charged body is set in insulator, because printed board assembly both ends of the surface are respectively Copper Foil, the two ends that are equivalent to electric capacity, by the Copper Foil of printed board assembly both ends of the surface, respond to the electric field signal of high-voltage charged body, and the electric field signal sensing is sent to the controller that passes to high voltage display device by signal wire, controller output electromagnetic lock block signal, reaches reflection high tension loop electriferous state and realizes the object that prevents mistakenly entering charged chamber and maloperation.Because the production technology of printed circuit board (PCB) is ripe, standardized commercial production can be carried out, thereby the suitability for industrialized production of sensor can be realized, greatly reduce the production cost of sensor.

The utility model is set to printed circuit board (PCB) in insulator, can facilitate fixed printed circuit board.Meanwhile, make printed circuit board (PCB) not be subject to the impact of environmental factor, such as air humidity etc., can accurately detect the electric field signal of high-voltage charged body.

The utility model arranges upper flange in insulator, utilize the fixedly high-voltage charged body in high voltage electric equipment of upper flange, thereby not only solved the defect of current high-voltage charged body installation site harshness, also can accurately control printed circuit board (PCB) in insulator and the distance of high-voltage charged body.At printed circuit board (PCB), towards one end of lower flange, radome is set, the electric field signal that maskable disturbs simultaneously.

Described insulator outer wall interval arranges several full skirts, thereby can increase creepage distance.

The upper flange of described insulator upper end comprises the more than one cylindrical bore that is arranged on insulator upper end, and is embedded the down part in cylindrical bore.Being embedded down part in cylindrical bore and the fixed orifice in high-voltage charged body is fixed.

The lower flange of described insulator lower end comprises the cylindrical bore that is arranged on insulator lower end, and is embedded the down part in cylindrical bore.When installing, this down part is butted on the inwall of high voltage electric equipment.

Described printed circuit board (PCB) is connected with the down part in lower flange by screw with radome.

High-voltage charged body in described high voltage electric equipment is high-voltage busbar.

The induction high pressure sensor of supports insulative minor of the present utility model, owing to adopting printed circuit board (PCB) to substitute existing two Copper Foils, carry out induction field signal, make sensor can realize suitability for industrialized production, greatly improve the production efficiency of sensor, reduce production costs.Meanwhile, due to the fixing high-voltage charged body of the upper flange in insulator, make high-voltage charged body convenient fixing, high-voltage charged body and printed circuit board (PCB) distance are fixing, can prepare to detect reliably the electric field signal in high-voltage charged body, avoid mistake indication and maloperation.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail:

Fig. 1 is the cut-open view of the induction high pressure sensor of the utility model supports insulative minor;

Fig. 2 is the structural representation of the induction high pressure sensor of the utility model supports insulative minor.

Embodiment

Below in conjunction with embodiment, the utility model is described in further detail:

As shown in Figure 1 or 2, the induction high pressure sensor of a kind of supports insulative minor of the utility model, it is fixed in high voltage electric equipment, it is arranged in insulator 1, described insulator 1 upper end is provided with the upper flange 2 of the high-voltage charged body in fixing high voltage electric equipment, insulator 1 lower end is provided with the lower flange 3 being connected with high voltage electric equipment, between upper flange 2 in insulator 1 and lower flange 3, be provided with the printed circuit board (PCB) 4 of induction field signal, the one side that printed circuit board (PCB) 4 is relative with lower flange 3 is provided with radome 5, printed circuit board (PCB) 4 is together fixing with lower flange 3 by web member 6 with radome 5, printed circuit board (PCB) 4 another sides are relative with upper flange 2, and this face is also provided with the signal wire 41 of output voltage signal, and signal wire 41 ends are fixed in the signal output interface 11 of insulator 1 lower sides setting.

The utility model arranges upper flange 2 in insulator, utilizes the fixedly high-voltage charged body in high voltage electric equipment of upper flange 2, thereby can accurately control the distance of printed circuit board (PCB) 4 in insulator 1 and high-voltage charged body.At printed circuit board (PCB) 4, towards one end of lower flange 3, radome 5 is set, the electric field signal that maskable disturbs simultaneously.

Described insulator 1 outer wall interval arranges several full skirts 12, thereby can increase creepage distance.

The upper flange 2 of described insulator 1 upper end comprises the more than one cylindrical bore 21 that is arranged on insulator upper end, and is embedded the down part 22 in cylindrical bore.The down part 22 being embedded in cylindrical bore 21 is fixed with the fixed orifice in high-voltage charged body.

The lower flange 3 of described insulator 1 lower end comprises the cylindrical bore 31 that is arranged on insulator lower end, and is embedded the down part 32 in cylindrical bore 31.When installing, this down part 32 is butted on the inwall of high voltage electric equipment.

Described printed circuit board (PCB) 4 is connected with the down part 32 in lower flange 3 by screw with radome 5.

Described lower flange 3 is connected with high voltage electric equipment, realizes the ground connection of printed circuit board (PCB) 4.

High-voltage charged body in described high voltage electric equipment is high-voltage busbar.

During induction high pressure sensor work of the present utility model, the upper flange 2 of insulator 1 is fixed with the high-voltage busbar in high voltage electric equipment, and the lower flange 3 of insulator 1 lower end is butted on high voltage electric equipment inwall, thereby realizes the fixing of insulator 1 and high-voltage busbar.Because printed circuit board (PCB) 4, radome 5 are screwed with lower flange 3, lower flange 3 contacts with high voltage electric equipment inwall again, thereby realizes the ground connection of printed circuit board (PCB) 4.Because printed circuit board (PCB) 4 another sides are over against high-voltage busbar, thereby can accurately respond to the electric field signal of high-voltage busbar, and the electric field signal of induction is sent to the signal output interface 11 of insulator 1 by signal wire 41, because signal output interface 11 is connected with high voltage display device by other signal wires, so high voltage display device receives electric field signal, reach reflection high tension loop electriferous state and realize the object that prevents mistakenly entering charged chamber and maloperation.

When high-voltage charged body is three-phase high-voltage busbar, printed circuit board (PCB) 4 can Measurement accuracy over against the electric field signal of a phase high-voltage busbar, the current electric field signal of radome 5 other two-phase high pressure of shielding, makes voltage detecting result accurately and reliably.

Claims (6)

1. the induction high pressure sensor of a supports insulative minor, it is fixed in high voltage electric equipment, it is arranged in insulator, it is characterized in that: described insulator upper end is provided with the upper flange of the high-voltage charged body in fixing high voltage electric equipment, insulator lower end is provided with the lower flange being connected with high voltage electric equipment, between upper flange in insulator and lower flange, be provided with the printed circuit board (PCB) of induction field signal, the one side that printed circuit board (PCB) is relative with lower flange is provided with radome, and printed circuit board (PCB) and radome are together fixed with lower flange by web member; Printed circuit board (PCB) another side is relative with upper flange, and this face is also provided with the signal wire of output voltage signal, and signal wire end is fixed in the signal output interface of insulator lower sides setting.

2. the induction high pressure sensor of supports insulative minor according to claim 1, is characterized in that: described insulator outer wall interval arranges several full skirts.

3. the induction high pressure sensor of supports insulative minor according to claim 1, is characterized in that: the upper flange of described insulator upper end comprises the more than one cylindrical bore that is arranged on insulator upper end, and is embedded the down part in cylindrical bore.

4. the induction high pressure sensor of supports insulative minor according to claim 1, is characterized in that: the lower flange of described insulator lower end comprises the cylindrical bore that is arranged on insulator lower end, and is embedded the down part in cylindrical bore.

5. the induction high pressure sensor of supports insulative minor according to claim 4, is characterized in that: described printed circuit board (PCB) is connected with the down part in lower flange by screw with radome.

6. the induction high pressure sensor of supports insulative minor according to claim 1, is characterized in that: the high-voltage charged body in described high voltage electric equipment is high-voltage busbar.