CN215087996U - Split type electrostatic field - Google Patents

Abstract

A split type electrostatic field comprises a high-voltage ionizer and a low-voltage collector which are adjacently arranged, wherein the high-voltage ionizer comprises first frames, frame corner protectors, a ceramic insulator, tensioning springs, discharge electrodes and negative plates, the two first frames are arranged in parallel, the frame corner protectors are arranged at four corners of the two first frames, the two frame corner protectors at the top and the two frame corner protectors at the bottom are used for fixing a plurality of first negative plates which are arranged in parallel through upper fixing rods and lower fixing rods respectively, the discharge electrodes are arranged between the two adjacent first negative plates, the tensioning springs are connected with two ends of the discharge electrodes respectively, and the tensioning springs are fixed on the ceramic insulator through supports; the low pressure collector includes a second frame, a second cathode plate, and an anode plate. The utility model discloses high pressure ionizer and low pressure collector components of a whole that can function independently set up, and the collection area, the insulating distance that not only increase the collector are long, and job stabilization is reliable for a long time moreover.

Description

Split type electrostatic field

Technical Field

The utility model belongs to the technical field of electrostatic field technique and specifically relates to a split type electrostatic field.

Background

A plurality of plate-type electrostatic electric fields in the market adopt an integrated electric field, and the integrated electric field has the characteristics of heavy structure, small effective area, short insulation distance, poor insulation performance, poor working stability and the like.

Accordingly, the prior art is subject to improvements and enhancements.

SUMMERY OF THE UTILITY MODEL

To the weak point among the prior art, the utility model aims at providing a long, the reliable split type electrostatic field of job stabilization of insulation distance.

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

a split type electrostatic field comprises a high-voltage ionizer and a low-voltage collector which are adjacently arranged, wherein the high-voltage ionizer comprises first frames, frame corner protectors, ceramic insulators, tensioning springs, discharge electrodes and negative plates, the two first frames are arranged in parallel, the frame corner protectors are arranged at four corners of the two first frames, the two frame corner protectors at the top and the two frame corner protectors at the bottom are used for fixing a plurality of first negative plates which are arranged in parallel through upper fixing rods and lower fixing rods respectively, the discharge electrodes are arranged between the two adjacent first negative plates, the tensioning springs are connected to two ends of the discharge electrodes respectively, the tensioning springs are fixed on the ceramic insulators through supports, and the ceramic insulators are fixed on the first frames; the low-voltage collector comprises second frames, second cathode plates and anode plates, the two second frames are arranged in parallel, a plurality of second cathode plates and anode plates which are arranged in parallel are arranged between the two second frames, and the second cathode plates and the anode plates are arranged in a staggered mode; the second cathode plates are fixed on the two second frames through four cathode plate connecting screw rods, the anode plates are fixed on the insulating plates on the outer sides of the two second frames through four anode plate connecting screw rods, and the insulating plates are fixed on the second frames through three fixing columns.

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

due to the adoption of the structural design, the high-voltage ionizer and the low-voltage collector are arranged in a split manner, so that the collecting area of the collector is increased, the insulation distance is long, and the high-voltage ionizer and the low-voltage collector can work stably and reliably for a long time.

Drawings

FIG. 1 is a side view of the high voltage ionizer of the present invention;

FIG. 2 is a front view of the high-voltage ionizer of the present invention;

fig. 3 is a side view of the low pressure collector of the present invention;

fig. 4 is a front view of the low pressure collector of the present invention.

The reference numbers in the figures are respectively: (1) the device comprises a first frame, (2) a frame corner protector, (3) a ceramic insulator, (4) a tensioning spring, (5) a discharge electrode, (6) a first cathode plate, (7) an upper fixing rod, (8) a lower fixing rod, (9) a second frame, (10) a second cathode plate, (11) an anode plate, (12) a cathode plate connecting screw, (13) an anode plate connecting screw, (14) an insulating plate, (15) a fixing column and (16) a support.

Detailed Description

The invention will be described in further detail with reference to the accompanying drawings:

referring to fig. 1-4, the present invention relates to a split electrostatic field, which comprises a high voltage ionizer and a low voltage collector arranged adjacently, the high-voltage ionizer comprises first frames 1, frame corner protectors 2, ceramic insulators 3, tensioning springs 4, discharge electrodes 5 and cathode plates 6, wherein the two first frames 1 are arranged in parallel, the frame corner protectors 2 are arranged at four corners of the two first frames 1, the two frame corner protectors at the top and the two frame corner protectors at the bottom fix a plurality of first cathode plates 6 which are arranged in parallel through upper fixing rods 7 and lower fixing rods 8 respectively, the discharge electrodes 5 are arranged between the two adjacent first cathode plates 6, the two ends of the discharge electrode 5 are respectively connected with the tension spring 4, the tension spring 4 is fixed on the ceramic insulator 3 through a bracket 16, and the ceramic insulator 3 is fixed on the first frame 1; the low-voltage collector comprises second frames 9, second cathode plates 10 and anode plates 11, the two second frames 9 are arranged in parallel, a plurality of second cathode plates 10 and anode plates 11 which are arranged in parallel are arranged between the two second frames 9, and the second cathode plates 10 and the anode plates 11 are arranged in a staggered manner; the second cathode plates 10 are fixed on the two second frames 9 through four cathode plate connecting screw rods 12, the anode plates 11 are fixed on insulating plates 14 on the outer sides of the two second frames through four anode plate connecting screw rods 13, and the insulating plates 14 are fixed on the second frames through three fixing posts 15; by foretell structural design, not only simple structure is light, and insulating nature is good, and insulating distance is long moreover, and job stabilization is reliable.

To sum up, the utility model discloses an foretell structural design solves the weak point among the prior art, has characteristics such as simple structure, insulating distance are long, job stabilization is reliable.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. It will be apparent to those skilled in the art that other variations and modifications can be made on the basis of the foregoing description, and it is intended to cover in the appended claims all such modifications and variations as fall within the true spirit and scope of the invention.

Claims (1)

1. A split electrostatic field, characterized in that: the high-voltage ionizer comprises a high-voltage ionizer and a low-voltage collector which are adjacently arranged, wherein the high-voltage ionizer comprises first frames, frame corner protectors, ceramic insulators, tensioning springs, discharge electrodes and first negative plates, the two first frames are arranged in parallel, the frame corner protectors are arranged at four corners of the two first frames, the two frame corner protectors at the top and the two frame corner protectors at the bottom are respectively used for fixing a plurality of first negative plates which are arranged in parallel through upper fixing rods and lower fixing rods, the discharge electrodes are arranged between the two adjacent first negative plates, the tensioning springs are respectively connected with two ends of the discharge electrodes, the tensioning springs are fixed on the ceramic insulators through brackets, and the ceramic insulators are fixed on the first frames; the low-voltage collector comprises second frames, second cathode plates and anode plates, the two second frames are arranged in parallel, a plurality of second cathode plates and anode plates which are arranged in parallel are arranged between the two second frames, and the second cathode plates and the anode plates are arranged in a staggered mode; the second cathode plates are fixed on the two second frames through four cathode plate connecting screw rods, the anode plates are fixed on the insulating plates on the outer sides of the two second frames through four anode plate connecting screw rods, and the insulating plates are fixed on the second frames through three fixing columns.

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