CN204481329U

CN204481329U - Negative oxygen ion generating device

Info

Publication number: CN204481329U
Application number: CN201520232532.8U
Authority: CN
Inventors: 杨运海
Original assignee: Individual
Current assignee: Healthy Science And Technology Ltd Of Shanghai Vis Medicatrix Naturae
Priority date: 2015-04-16
Filing date: 2015-04-16
Publication date: 2015-07-15
Anticipated expiration: 2025-04-16

Abstract

The utility model relates to negative oxygen ion generating device, disclose a kind of generating means producing high-quality negative oxygen ion, comprise shell, anion generation cavity, be arranged on the emission electrode frame in anion generation cavity and be arranged on the main body panel emitter window in emission electrode frame front, emission electrode frame is or/and main body panel emitter window is moveable main body; Emission electrode frame is arranged by the activity of electrode guide rail; Main body panel emitter window is arranged by the activity of panel guide rail.Emission electrode frame of the present utility model can adjust position in front and back by electrode guide rail in anion generation cavity, main body panel emitter window can adjust position by panel guide rail before and after emission electrode frame front, in use, user can be as required, by regulating the distance between emission electrode frame and main body panel emitter window, thus adjusting conductivity and the fail safe of the front end of negative oxygen ion, comprehensive like this negative oxygen ion generating device that solves produces in the process of negative oxygen ion because of the problems apart from generation.

Description

Negative oxygen ion generating device

Technical field

The utility model relates to negative oxygen ion generating device, particularly relates to a kind ofly to regulate emission electrode frame, main body panel emitter window position thus can produce the generating means of high-quality negative oxygen ion at any time.

Background technology

Negative oxygen ion instrument traditional in the market all adopts the fixing output system of electrode terminal and panel, after obtaining unified metric by plant experiment, electrode and positions of panels are fixed, arrange the position that this is stable, when dispatching from the factory, electrode and panel are fixed by screw, irremovable, the negative oxygen ion optimum now produced.But along with the use of product, emitter is covered by control of dust, the interference of the external environment conditions such as the contaminated or wet weather of product surface, surface of shell forms conductor under the effect of ion current, etc. reason make original experimental index change, so inevitable generation quality problems, now just may cause causing negative oxygen ion not export in use procedure comprehensively, dangerous, be not easy to the shortcoming such as children and strange librarian use.

And above-mentioned because electrode is charged, between emission electrode and panel because all solving by adjustment apart from improper caused problem, can ensure that product can Long-Time Service, and more stable, be more suitable for marketing.

Summary of the invention

The utility model in prior art along with service index change, cause negative oxygen ion not export comprehensively, dangerous, the shortcoming that is not easy to children and strange librarian use etc., provide a kind of in use can the negative oxygen ion generating device of adjustment index at any time.

In order to solve the problems of the technologies described above, the utility model is solved by following technical proposals:

Negative oxygen ion generating device, comprise shell, arrange anion generation cavity in the enclosure, be arranged on the emission electrode frame in anion generation cavity and be arranged on the main body panel emitter window in emission electrode frame front, emission electrode frame is or/and main body panel emitter window is moveable main body.

As preferably, emission electrode frame is movably arranged in anion generation cavity by electrode guide rail.

As preferably, main body panel emitter window is movably arranged on emission electrode frame front by panel guide rail.

As preferably, electrode guide rail is two, is separately positioned on anion generation cavity upper end and anion generation cavity lower end, and electrode guide rail is all arranged along the fore-and-aft direction of anion generation cavity.

As preferably, the upper and lower two ends of emission electrode frame are equipped with the slide block coordinated with electrode guide rail.

As preferably, case nose is provided with mounting groove, and main body panel emitter window is arranged in mounting groove; Panel guide rail is two, is separately positioned on mounting groove upper end and mounting groove lower end, and panel guide rail is all arranged along the fore-and-aft direction of anion generation cavity.

As preferably, the upper and lower two ends of main body panel emitter window are equipped with the slide block coordinated with panel guide rail.

As preferably, electrode guide rail upper end is provided with the strip draw-in groove arranged along electrode rail length direction, emission electrode frame is provided with the fixture block coordinated with strip draw-in groove, fixture block top is flexibly connected with emission electrode frame by screw thread, and fixture block and strip draw-in groove interference fit erect positioning action to emission electrode.

As preferably, panel guide rail upper end is provided with the strip draw-in groove arranged along panel rail length direction, main body panel emitter window is provided with the fixture block coordinated with strip draw-in groove, fixture block top is flexibly connected with main body panel emitter window by screw thread, and fixture block and strip draw-in groove interference fit play positioning action to main body panel emitter window.

As preferably, fixture block is elastic clamping block.

The utility model is owing to have employed above technical scheme, there is significant technique effect: emission electrode frame can adjust position in front and back by electrode guide rail in anion generation cavity, main body panel emitter window can adjust position by panel guide rail before and after emission electrode frame front, in use, user can be as required, by regulating the distance between emission electrode frame and main body panel emitter window, thus adjust conductivity and the fail safe of the front end of negative oxygen ion, comprehensive like this negative oxygen ion generating device that solves produces in the process of negative oxygen ion because of the problems apart from generation.

Accompanying drawing explanation

Fig. 1 is the partial cross sectional side view of the utility model embodiment 1.

Fig. 2 is the part-structure figure of electrode guide rail and slide block.

The toponym that in accompanying drawing, each number designation refers to is as follows: wherein 1-shell, 2-operation push-button dish, 3-main body panel, 4-power suppling part divide, 5-anion generation cavity, 6-emission electrode frame, 7-main body panel emitter window, 8-electrode guide rail, 9-panel guide rail, 10-slide block, 11-strip draw-in groove, 12-fixture block.

Embodiment

Below in conjunction with accompanying drawing and embodiment, the utility model is described in further detail.

Embodiment 1

Negative oxygen ion generating device, as shown in Figure 1 to Figure 2, comprise shell 1, be arranged on the operation push-button dish 2 on shell 1 top, be arranged on the main body panel 3 of operation push-button dish 2 front end, the power suppling part be arranged in shell 1 divides 4, be arranged on the anion generation cavity 5 in shell 1, be arranged on the emission electrode frame 6 in anion generation cavity 5 and the main body panel emitter window 7 being arranged on emission electrode frame 6 front, in the present embodiment, emission electrode frame 6 and main body panel emitter window 7 are moveable main body, emission electrode frame 6 is movably arranged in anion generation cavity 5 by electrode guide rail 8, main body panel emitter window 7 is movably arranged on emission electrode frame 6 front by panel guide rail 9.

Electrode guide rail 8 is two, is separately positioned on anion generation cavity 5 upper end and anion generation cavity 5 lower end, and electrode guide rail 8 is all arranged along the fore-and-aft direction of anion generation cavity 5.

Emission electrode frame about 6 two ends are equipped with the slide block 10 coordinated with electrode guide rail 8.

Shell 1 front end is provided with mounting groove, and main body panel emitter window 7 is arranged in mounting groove; Panel guide rail 9 is two, is separately positioned on mounting groove upper end and mounting groove lower end, and panel guide rail 9 is all arranged along the fore-and-aft direction of anion generation cavity 5.

Main body panel emitter window about 7 two ends are equipped with the slide block 10 coordinated with panel guide rail 9.

Electrode guide rail 8 upper end is provided with the strip draw-in groove 11 arranged along electrode guide rail 8 length direction, emission electrode frame 6 is provided with the fixture block 12 coordinated with strip draw-in groove 11, fixture block 12 top is flexibly connected with emission electrode frame 6 by screw thread, and fixture block 12 and strip draw-in groove 11 interference fit play positioning action to emission electrode frame 6.

Panel guide rail 9 upper end is provided with the strip draw-in groove 11 arranged along panel guide rail 9 length direction, main body panel emitter window 7 is provided with the fixture block 12 coordinated with strip draw-in groove 11, fixture block 12 top is flexibly connected with main body panel emitter window 7 by screw thread, and fixture block 12 and strip draw-in groove 11 interference fit play positioning action to main body panel emitter window 7.

In the present embodiment, fixture block 12 is elastic clamping block.

After device uses a period of time, by the distance between adjustment emission electrode frame 6 and main body panel emitter window 7, after experiment obtains uniform data, fixture block 12 is snapped in strip draw-in groove 11, emission electrode frame 6 and main body panel emitter window 7 are positioned; When needing the distance adjusting emission electrode frame 6 and main body panel emitter window 7 again, fixture block 12 of back-outing, mobile emission electrode frame 6 and main body panel emitter window 7.Simple to operation.

In a word, the foregoing is only preferred embodiment of the present utility model, all equalizations done according to the utility model claim change and modify, and all should belong to the covering scope of the utility model patent.

Claims

1. negative oxygen ion generating device, comprise shell (1), the anion generation cavity (5) be arranged in shell (1), be arranged on the emission electrode frame (6) in anion generation cavity (5) and be arranged on the main body panel emitter window (7) in emission electrode frame (6) front, it is characterized in that: emission electrode frame (6) is or/and main body panel emitter window (7) is moveable main body.

2. negative oxygen ion generating device according to claim 1, is characterized in that: emission electrode frame (6) is movably arranged in anion generation cavity (5) by electrode guide rail (8).

3. negative oxygen ion generating device according to claim 1, is characterized in that: main body panel emitter window (7) is movably arranged on emission electrode frame (6) front by panel guide rail (9).

4. negative oxygen ion generating device according to claim 2, it is characterized in that: electrode guide rail (8) is two, be separately positioned on anion generation cavity (5) upper end and anion generation cavity (5) lower end, electrode guide rail (8) is all arranged along the fore-and-aft direction of anion generation cavity (5).

5. negative oxygen ion generating device according to claim 2, is characterized in that: emission electrode frame (6) is equipped with the slide block (10) coordinated with electrode guide rail (8) in two ends up and down.

6. negative oxygen ion generating device according to claim 3, is characterized in that: shell (1) front end is provided with mounting groove, and main body panel emitter window (7) is arranged in mounting groove; Panel guide rail (9) is two, is separately positioned on mounting groove upper end and mounting groove lower end, and panel guide rail (9) is all arranged along the fore-and-aft direction of anion generation cavity (5).

7. negative oxygen ion generating device according to claim 3, is characterized in that: main body panel emitter window (7) is equipped with the slide block (10) coordinated with panel guide rail (9) in two ends up and down.

8. negative oxygen ion generating device according to claim 2, it is characterized in that: electrode guide rail (8) upper end is provided with the strip draw-in groove (11) arranged along electrode guide rail (8) length direction, emission electrode frame (6) is provided with the fixture block (12) coordinated with strip draw-in groove (11), fixture block (12) top is flexibly connected with emission electrode frame (6) by screw thread, and fixture block (12) and strip draw-in groove (11) interference fit play positioning action to emission electrode frame (6).

9. negative oxygen ion generating device according to claim 3, it is characterized in that: panel guide rail (9) upper end is provided with the strip draw-in groove (11) arranged along panel guide rail (9) length direction, main body panel emitter window (7) is provided with the fixture block (12) coordinated with strip draw-in groove (11), fixture block (12) top is flexibly connected with main body panel emitter window (7) by screw thread, and fixture block (12) and strip draw-in groove (11) interference fit play positioning action to main body panel emitter window (7).

10. negative oxygen ion generating device according to claim 8 or claim 9, is characterized in that: fixture block (12) is elastic clamping block.