CN206024215U - A kind of anti-electric shock exchange ion bar - Google Patents
A kind of anti-electric shock exchange ion bar Download PDFInfo
- Publication number
- CN206024215U CN206024215U CN201621017383.4U CN201621017383U CN206024215U CN 206024215 U CN206024215 U CN 206024215U CN 201621017383 U CN201621017383 U CN 201621017383U CN 206024215 U CN206024215 U CN 206024215U
- Authority
- CN
- China
- Prior art keywords
- ion bar
- connection device
- electric shock
- voltage connection
- discharge electrode
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Elimination Of Static Electricity (AREA)
Abstract
A kind of anti-electric shock exchange ion bar, category electrostatic equipment field.The discharge electrode electrically connected including the high-voltage connection device in ion bar housing and with high-voltage connection device, is characterized in that each discharge electrode is connected after a resistance, then is electrically connected with high-voltage connection device;Described anti-electric shock exchange ion bar, between discharge electrode and high-voltage connection device, using RC structure, realizes the electrical connection between discharge electrode and high-voltage connection device.The discharge energy of its discharge electrode is limited, the loss of electrode needle is greatly reduced, so that electrode needle is disappeared substantially to the creeping discharge phenomenon of barred body, galvanic corrosion scaling loss is not easily caused, during operating personnel's touching electrode pin, electric shock pain will not be produced, safety production efficiency is improved, and the overall static elasticity eliminating effect of ion bar is unaffected.Can be widely used for design and the manufacture field of all size exchange ion bar.
Description
Technical field
The utility model belongs to electrostatic equipment field, more particularly to a kind of active exchange static eraser.
Background technology
Electrostatic ionic rod is a kind of active static eraser.
Effective part in electrostatic ionic rod, is to be integrated in transmitting pin (also known as spray point or electrode, electrode by high pressure
Pin) on, transmitting needle tip electric discharge, ionized air, produced substantial amounts of ion stream, the material of ion stream quick washing static electrification,
Electrostatic is rapidly neutralized.
Electrostatic ionic rod is generally broadly divided into two kinds:One be using Alternating Current Power Supply pattern AC type ion rod (referred to as
Exchange ion bar), generally in thousands of volt left and right, power frequency is identical with civil power for the output voltage of AC type ion rod;This kind of electrostatic disappears
Except being used in the industries such as cutting, printing, pharmacy device, or being assembled into ion air knife with air knife, used in industries such as vehicle spray paintings more.Two are
Using the DC type ion rod (abbreviation direct-current ion rod) of direct current supply pattern, this kind of ion bar is generally used for electrostatic on a large scale and disappears
Remove, more universal in the plastic manufacturing sector application such as printing film industry, plastic bottle, molded item.
Power supply used by exchange ion bar in the market is ac step-up transformer power supply, and output voltage is in 3500V
To between 7000V, output current is between 3.5mA to 5mA;Exchange ion bar electrode needle directly by high-voltage conducting wires with fact
Now electrically connect.
Authorized announcement date is on October 29th, 2014, and Authorization Notice No. is the Chinese invention patent of CN 101835332B, public
A kind of " integrated static electricity eliminator " is opened, which mainly includes electrostatic discharging rod and stainless steel discharge pin, the electrostatic discharging rod
It is to adopt center hole, the conductive Cu-AL pipe of interpolation connection output high-tension circuit, the top of electrostatic discharging rod is provided with terraced groove, terraced groove
The stainless steel discharge pin of surface time arrangement conducting output high pressure Cu-AL pipe, the stainless steel discharge pin connect through electrostatic discharging rod
It is connected to conductive Cu-AL pipe.In the energized state, positive and negative ion effectively can be discharged.
The technical scheme can be regarded as a kind of typical structure for exchanging ion bar structure in prior art.
In prior art, the discharge energy because exchanging ion bar is excessive, easily causes problems with:
1st, cause electrode needle loss too fast;
2nd, the easy galvanic corrosion scaling loss of ambroin on barred body;
3rd, operating personnel's imprudence touching electrode pin, is electrically shocked, and produces pain.
How the service life of electrode needle is extended, it is to avoid ambroin is by galvanic corrosion scaling loss, and then extends whole exchange ion
The whole service life of rod, it is to avoid operating personnel get shocked and its caused secondary injury, be in real work in the urgent need to
The problem of solution.
Utility model content
Technical problem to be solved in the utility model is to provide a kind of anti-electric shock exchange ion bar.Which adopts resistance to couple
Formula electrically connects pattern, to limit the discharge energy of electrode needle, improving product reliability and security, so extend entirely exchange from
The whole service life of sub- rod.
The technical solution of the utility model is:A kind of anti-electric shock exchange ion bar is provided, including in ion bar housing
High-voltage connection device and the discharge electrode electrically connected with high-voltage connection device, it is characterized in that:
Each discharge electrode is connected after a resistance, then electrically connects with high-voltage connection device;
Described anti-electric shock exchange ion bar, between discharge electrode and high-voltage connection device, using RC structure,
Realize the electrical connection between discharge electrode and high-voltage connection device.
Specifically, described ion bar housing includes aluminum oxide barred body and is arranged on the insulating arthropleura of barred body both sides.
Specifically, described high-voltage connection device, resistance and discharge electrode, the affixed insulating arthropleura for being arranged on barred body both sides it
Between.
Further, described high-voltage connection device is high voltage power supply split conductor, contact rod or is arranged on wiring board
Printed circuit.
Further, described high-voltage connection device, through higfh-tension ceramics plate resistor, is arranged on higfh-tension ceramics chip electricity
The electrode sleeve of resistance upper end, is electrically connected with described discharge electrode.
Specifically, described electrode sleeve is fixed in the upper end of the higfh-tension ceramics plate resistor;The higfh-tension ceramics chip
The lower end of resistance, is electrically connected with described high-voltage connection device.
Further, described electrode sleeve is fixed as one by sleeve connected structure with described discharge electrode.
The resistance of its higfh-tension ceramics plate resistor be 100M Ω to 200M Ω, the work of resistance of higfh-tension ceramics plate resistor
Rate is 1 to 3W.
Further, between described ion bar housing and the insulating arthropleura of both sides, filling is filled with high-pressure electronic
Casting glue, the insulating arthropleura of ion bar housing and both sides, high-voltage connection device, high-tension resistive and discharge electrode consolidation is integrated.
Specifically, at the opening of ion bar housing, the fill level of the high-pressure electronic casting glue, higher than discharge electrode with
The connecting portion of higfh-tension ceramics plate resistor.
Compared with the prior art, the utility model has the advantages that:
1., between discharge electrode and high voltage power supply, using RC electric connection structure, the discharge energy of discharge electrode is obtained
To limiting, the loss of electrode needle is greatly reduced, 1 to 2 times of the life longer of electrode needle;
2. using insulating arthropleura structure and high-pressure electronic casting glue embedding so that creeping discharge phenomenon of the electrode needle to barred body
Basic disappearance, does not easily cause galvanic corrosion scaling loss;
3. after the discharge energy of discharge electrode reduces, during operating personnel's touching electrode pin, electric shock pain will not be produced, safety
Production efficiency is improved;
4., using after said structure, the overall static elasticity eliminating effect of ion bar is unaffected.
Description of the drawings
Fig. 1 is horizontal cross section structure diagram of the present utility model;
Fig. 2 is longitudinal cross section structure diagram of the present utility model;
Fig. 3 is the horizontal cross section structure diagram of the utility model one embodiment;
Fig. 4 is the horizontal cross section structure diagram of another embodiment of the utility model.
In figure, 1 is discharge electrode, and 2 is insulating arthropleura, and 3 is electrode sleeve, and 4 is higfh-tension ceramics plate resistor, and 5 is wiring board, and 6 are
High-pressure electronic casting glue, 7 is aluminum oxide barred body, and 8 is high-voltage connection device split conductor, and 9 is contact rod.
Specific embodiment
With reference to the accompanying drawings and examples the utility model is described further.
In Fig. 1, the technical solution of the utility model provides a kind of anti-electric shock exchange ion bar, including positioned at ion bar shell
High-voltage connection device in body and the discharge electrode electrically connected with high-voltage connection device, is characterized in that:
Each discharge electrode 1 is connected after a higfh-tension ceramics plate resistor 4, then with high-voltage connection device (with line in figure
Road plate 5 is representing) electrical connection;
Described anti-electric shock exchange ion bar, between discharge electrode and high voltage power supply, using RC structure, realizes
Electrical connection between discharge electrode and high voltage power supply.
Specifically, described ion bar housing includes aluminum oxide barred body 7 and is arranged on the insulating arthropleura 2 of barred body both sides.
Specifically, described high-voltage connection device, high-tension resistive and discharge electrode, the affixed insulation sides for being arranged on barred body both sides
Between plate.
Further, described high-voltage connection device is high voltage power supply split conductor 8, contact rod 9 or is arranged on wiring board 5
Printed circuit.
Further, described high-voltage connection device, through higfh-tension ceramics plate resistor 4, is arranged on higfh-tension ceramics chip
The electrode sleeve 3 of resistance upper end, is electrically connected with described discharge electrode 1.
Specifically, described electrode sleeve is fixed in the upper end of the higfh-tension ceramics plate resistor;The higfh-tension ceramics chip
The lower end of resistance, is electrically connected with described high-voltage connection device.
Further, described electrode sleeve is fixed as one by sleeve connected structure with described discharge electrode.
The resistance of its higfh-tension ceramics plate resistor be 100M Ω to 200M Ω, the work of resistance of higfh-tension ceramics plate resistor
Rate is 1 to 3W.
Further, between described ion bar housing and the insulating arthropleura of both sides, filling is filled with high-pressure electronic
Casting glue 6, the insulating arthropleura of ion bar housing and both sides, high-voltage connection device, high-tension resistive and discharge electrode consolidation is integrated.
The technical program, there is provided a kind of resistance manifold type exchanges ion bar, to limit discharge energy, improving product reliability
Property and security.
In the technical program, each discharge electrode for exchanging ion bar is connected the resistance of a 100M Ω to 200M Ω
Afterwards, then with high voltage power supply electrically connect.
During actual fabrication, can follow these steps to carry out:
1st, two insulating arthropleuras are inserted in aluminum oxide barred body;
2nd, the high potential assembly being welded (including discharge electrode, electrode sleeve, higfh-tension ceramics plate resistor, electronic circuit board) is inserted
Enter on two insulating arthropleuras;
3rd, with high-pressure electronic casting glue by high potential assembly embedding, embedding surface exceeds electrode sleeve.
Concrete making requires as follows:
1st, tungsten alloy electrode is enclosed within copper metal sleeve, and metal sleeve is welded on the weldering of higfh-tension ceramics plate resistor side
On disk;
2nd, the resistance of higfh-tension ceramics plate resistor is that resistor power is between 1 to 3W between 100M Ω to 200M Ω;
3rd, the pad of higfh-tension ceramics plate resistor opposite side, on circuit boards, circuit board is electrically connected with high voltage power supply for welding;
4th, with high-pressure electronic casting glue by circuit board, higfh-tension ceramics plate resistor, metal sleeve glue envelope, consolidation is integrated.
In Fig. 2, at the opening of ion bar housing, the fill level of the high-pressure electronic casting glue 6, higher than discharge electrode 1
Connecting portion with higfh-tension ceramics plate resistor 4.
Specifically, the fill level of high-pressure electronic casting glue 6, exceeds the height on 3 top of electrode sleeve, less than discharge electrode pin
The height of apical segment.
In Fig. 3, high-voltage connection device be high voltage power supply split conductor 8, remaining same Fig. 1, Fig. 2.
In Fig. 4, high-voltage connection device be contact rod 9, remaining same Fig. 1, Fig. 2.
The technical program embodiment is contrasted with the measured data of prior art:
By above table:Using the exchange ion bar of the art of this patent, electric eliminating performance does not have any decrease, on the contrary
Power consumption is reduced, and operating personnel will not be made to produce electric-shock feeling, it is to avoid secondary injury.
Due to the technical solution of the utility model, between discharge electrode and high-voltage connection device, resistance manifold type is employed
Electrical connection pattern, limit the discharge energy of electrode needle, improve product reliability and security, and then extend whole exchange
The whole service life of ion bar.
The utility model can be widely used for the design of all size exchange ion bar and manufacture field.
Claims (10)
1. a kind of anti-electric shock exchanges ion bar, including high-voltage connection device and and high-voltage connection device in ion bar housing
The discharge electrode of electrical connection, is characterized in that:
Each discharge electrode is connected after a resistance, then electrically connects with high-voltage connection device;
Described anti-electric shock exchange ion bar, between discharge electrode and high-voltage connection device, using RC structure, realizes
Electrical connection between discharge electrode and high-voltage connection device.
2., according to the anti-electric shock exchange ion bar described in claim 1, it is characterized in that described ion bar housing includes aluminum oxide
Barred body and the insulating arthropleura for being arranged on barred body both sides.
3., according to the anti-electric shock exchange ion bar described in claim 2, it is characterized in that described high-voltage connection device, resistance and put
Electrode, between the affixed insulating arthropleura for being arranged on barred body both sides.
4., according to the anti-electric shock exchange ion bar described in claim 1, it is characterized in that described high-voltage connection device is high-tension electricity
Source split conductor, contact rod or the printed circuit being arranged on wiring board.
5., according to the anti-electric shock exchange ion bar described in claim 1, described high-voltage connection device it is characterized in that, through high pressure
Ceramics water type resistance, the electrode sleeve for being arranged on higfh-tension ceramics plate resistor upper end, are electrically connected with described discharge electrode.
6., according to the anti-electric shock exchange ion bar described in claim 5, it is characterized in that described electrode sleeve is fixed in the high pressure
The upper end of ceramics water type resistance;The lower end of the higfh-tension ceramics plate resistor, is electrically connected with described high-voltage connection device.
7., according to the anti-electric shock exchange ion bar described in claim 5, described electrode sleeve and described discharge electrode it is characterized in that
Fixed as one by sleeve connected structure.
8., according to the anti-electric shock exchange ion bar described in claim 5, the resistance of the higfh-tension ceramics plate resistor it is characterized in that
For 100M Ω to 200M Ω, the resistor power of higfh-tension ceramics plate resistor is 1 to 3W.
9., according to the anti-electric shock exchange ion bar described in claim 2, it is characterized in that in described ion bar housing and both sides
Insulating arthropleura between, filling be filled with high-pressure electronic casting glue, by the insulating arthropleura of ion bar housing and both sides, high pressure connect
Device, high-tension resistive and discharge electrode consolidation is integrated.
10., according to the anti-electric shock exchange ion bar described in claim 9, it is characterized in that at the opening of ion bar housing, described
The fill level of high-pressure electronic casting glue, higher than discharge electrode and the connecting portion of higfh-tension ceramics plate resistor.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621017383.4U CN206024215U (en) | 2016-08-31 | 2016-08-31 | A kind of anti-electric shock exchange ion bar |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621017383.4U CN206024215U (en) | 2016-08-31 | 2016-08-31 | A kind of anti-electric shock exchange ion bar |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206024215U true CN206024215U (en) | 2017-03-15 |
Family
ID=58256738
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201621017383.4U Active CN206024215U (en) | 2016-08-31 | 2016-08-31 | A kind of anti-electric shock exchange ion bar |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN206024215U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110611984A (en) * | 2019-10-18 | 2019-12-24 | 上海安平静电科技有限公司 | Ion rod with detection function |
-
2016
- 2016-08-31 CN CN201621017383.4U patent/CN206024215U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110611984A (en) * | 2019-10-18 | 2019-12-24 | 上海安平静电科技有限公司 | Ion rod with detection function |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN206260128U (en) | A kind of anti-shock pulse direct-current ion rod | |
CN201001233Y (en) | Safety type ion stick | |
CN107660103A (en) | A kind of needle ring formula ion wind fin heat abstractor | |
CN107517573A (en) | A kind of pin net formula ion wind fin heat abstractor | |
CN206024215U (en) | A kind of anti-electric shock exchange ion bar | |
CN1564409A (en) | Integrated active and passive plasma lightning method and lightning arrester | |
CN212114035U (en) | Electron accelerator earthing device | |
CN204189705U (en) | A kind of ball switch | |
CN209767894U (en) | Dielectric barrier type anti-electric shock alternating current ion bar | |
CN105665137B (en) | A kind of ion wind air purifier | |
CN210404072U (en) | Conductive concrete joint floor | |
CN207993924U (en) | A kind of nickle sheet and the battery core group comprising the nickle sheet | |
CN209071624U (en) | A kind of long-effective corrosion combination covering of the fan ion earthing resistance-reducing device | |
CN201298667Y (en) | Shielded bushing | |
CN206211044U (en) | A kind of assembling structure grounding-for-lightning device | |
CN206775120U (en) | The circuit system that a kind of anti-electric current applied in vehicle switch assembly is struck back | |
CN203015257U (en) | High-voltage coupled ion bar | |
CN202057684U (en) | Pin applicable to electric energy meter automatic detection flow line | |
CN206533272U (en) | A kind of high-voltage power apparatus being directly welded on pcb board | |
CN215326937U (en) | High-voltage feeder for improving voltage resistance of plate-type ozone generator | |
CN201877238U (en) | SMT (surface mounting technology) inductor | |
CN107919593A (en) | A kind of novel secondary equipment test joint Terminal short-circuit structure | |
CN211719955U (en) | Bar-shaped corona electric spraying device with replaceable discharge electrode | |
CN212381617U (en) | 35kV is generating line sleeve pipe shielding sub-assembly for cubical switchboard | |
CN201298714Y (en) | Shielded contact box |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant |