Device for insulating high-voltage power supply of electrostatic liquid spray gun in using electrica

专利摘要:
A method and a device for insulating the spray liquid source from the high tension voltage of an electrostatic spray gun (13) when using an electrically conductive spray liquid. The spray liquid supply line (12) comprises an insulating device (14) in the form of a closed vessel (16; 26; 36) containing an electrically non-conductive liquid which is not mixable with the spray liquid and which has a density different from that of the latter. A sprinkler nozzle (21; 31; 41) is arranged to disintegrate the spray liquid into drops which are transported through the insulating liquid (17; 27; 35) by the influence of the difference in gravity acting on the two liquids. The spray liquid drops form a discontinuation of the electrical lead through which the high tension voltage propagates upstreams through the supply line (12). Thereby, the upstream parts of the supply line (12) including the spray liquid feed pump (11) and the spray liquid receptacle (10) are not reached by the high tension voltage. A pump (30; 40) and passages (27, 28; 37, 38) are arranged to forcibly circulate the insulating liquid (17; 27) within the vessel (16; 26; 36) such that a movement is superimposed upon the spray liquid transportation movement such that the spray liquid flow capacity through the insulating device is thereby increased.
公开号:SU1655295A3
申请号:SU874202378
申请日:1987-03-16
公开日:1991-06-07
发明作者:Торе-Спон Рольф
申请人:Атлас Копко Аб (Фирма)；
IPC主号:

专利说明:

The invention relates to a device for isolating parts of a spray liquid supply line, a spray liquid receiver, a delivery pump, etc. from the high voltage of an electrostatic spray gun when using an electrically conductive liquid sprayed material, such as a paint mixed with water or a paint containing metal particles.
The purpose of the invention is to eliminate the impact on the high pump. ypee
filing.
FIG. Figure 1 shows a schematic of a spray liquid supply system with an electrostatic spray gun containing an isolation device; in fig. 2 is the same as the embodiment; in fig. 3 is the same, another embodiment.
Each of the spray liquid supply systems (Figs. 1-3) includes a reservoir 1, a source of the sprayed liquid, a feed pump 2, a spray liquid supply line 3 connecting the pressure pump 2 and the electrostatic atomizer 4, and a device 5 isolation, included in line 3 supply.
The isolation device 5 includes a hermetic reservoir 6 (FIG. 1) of a high pressure made of electrically non-conducting material, such as plastics, filled, installed in the supply line 3 to form a vertical section. A barrier-forming, non-conducting medium in the form of a liquid that has a density different from that of the sprayed liquid.
FIG. 1 and 2 two alternative constructions of the hermetic tank 6 and, respectively, 7 (Fig. 2) each contain a barrier-forming liquid 8, which has a lower density than the sprayed liquid, while a sealed
0
Capacity 9 (Fig. 3) contains a barrier-forming liquid 10, which has a higher density than the sprayed liquid. The hermetic container 9 shown in FIG. 3 is identical to the capacitance shown in FIG. 2, but located upside down.
As a barrier-forming fluid that has a density lower than the density of a paint mixed with water, any suitable part of the oil can be used, such as diesel fuel, which has a density of
5 about 0.8 g / cm3. Suitable liquids having a higher density than a water-soluble paint are chlorinated hydrocarbons, like trichloroethane, which has a density of i, 43 g / cm3. In all the embodiments, the feed pump 2 is installed in the latter in front of the entrance to the sealed tank to maintain the supply pressure in the supply line 3. In all variants, in each hermetic reservoir 6,7,9 there is a means 11,12, 13, respectively, for spraying the liquid in discrete quantities. Sealed tank 6 has an outlet 14.
The device works as follows.
In the spray system, an aqueous liquid paint is supplied from reservoir 1 to an electrostatic atomizer 4 via a supply line 3 of a spray liquid, in which the insulation device 5 is embedded. The electrostatic spray gun 4 is connected to a high voltage source (not shown) to supply electric charges to the paint sprayed by the spray gun 4. A conductive water soluble paint allows the high voltage potential to spread more (through the process) through-1 - cut the feed line 3 back to the isolation device 5. This means that the electrostatic sprayer 4, and
five
0
five
0
five
Also, the supply line 3 below (during the process 1) the isolation devices 5 are subjected to high voltage and form a high voltage section 15 of the system. The electrical conduction through the paint is interrupted by a non-conductive barrier-forming liquid in tank 6. With the aid of a means 11 for spraying a liquid in the form of a spray nozzle, which is installed in the upper part of the tank 6, the paint is broken up into small amounts in the form of droplets 16, which are forced to fall into the barrier liquid I under the force of gravity. In the lower part of the tank 6, the droplets are collected together to form a continuous flow of paint through the outlet 14. As the paint is transported through the barrier-forming liquid 8 as separate drops 16, it is not possible for high voltage to spread above (through the process) through the paint. Thereby, the supply line 3 above (along the process) the isolation device 5, as well as the feed pump 2 and the paint reservoir 1, are effectively protected from high voltage. This, in turn, means that the above (during the process) parts of the paint supply system can be connected to the ground potential and do not need to be built in, for example, in a booth.
If pump 2 is located below (along the process) the isolation device 5, then it will be exposed to high voltage and must be protected with a grounded insulating cover.
In the paint supply system (FIG. 2) of the device 5, the insulation, the sealed tank 7 is divided into two vertically directed channels (or pipelines) 1 / and 18. The sealed tank is also equipped with a pump 19 for forced piercing of the barrier fluid 8 through channels 17 and 18 One of the channels 17 is located at its upper (along the process) end directly under the spray nozzle, which is the means 12 for
ten
15
20
25
thirty
35
40
45
50
6
end of tank. This lower part of the tank 7 forms an outlet (discharge) section 21, which has a cross-sectional area several times larger than that of the channel 17. This means that the circulation rate of the barrier-forming liquid 8 is several times lower in this part of the tank 7 than in channel 17. This allows the ink drops 16 to be safely separated under the force of gravity from the barrier-forming fluid 8 and accumulate in the outlet section 21. After the delivery of the ink drops 16, the barrier-forming liquid 8 circulates upward from the outlet section 21 through the canal 18 and pump 19 and further onto the spray unit 21 and channel 17.
As a result of the circulation of the barrier-forming liquid, the downward movement is superimposed on the movement of the droplets 16 falling in the barrier-forming liquid 8, which means that the transport speed of the ink droplets 16 through the reservoir 7 increases significantly, and accordingly the ink penetration ability into the insulation device 5 increases.
In the isolation device 5 (FIG. 3), the barrier-forming liquid 10 filling the vessel 9 has a higher density than the paint. This means that, due to the difference in gravity, the paint tends to rise in the barrier-forming liquid 10. In the tank 9, the means 13 for spraying the liquid with discrete quantities in the form of a nozzle is placed in its lower part, and the outlet 22 is made in the upper end of the tank 9. Sealed the reservoir 9 contains two vertical channels (or pipelines) 23, 24 and a pump 24 for circulating the barrier-forming fluid in the reservoir 9. The internal circulation of the barrier-forming fluid serves to impose movement on the force tin, associated with the transport of droplets of paint, in order to increase the flow of paint through the device 5 of the insulation. The pump 24 generates an upward movement of the barrier fluid through the channel 23 to increase the speed
sprinkling neither liquid discrete transporting droplets of paint from
| nozzle 13 to the outlet-. 22. At its outlet end of the tank, the tank 9 contains an outlet section 25, which has much pain
in quantities and intended to direct paint droplets through the barrier working liquid 8 down to the outlet 2M on the bottom
transporting paint drops from
| nozzle 13 to the outlet-. 22. At its outlet end, reservoir 9 contains an outlet section 25, which has much pain
the neck is cross-section than the channel 23, in order to reduce the circulation rate and to ensure the safe separation of the paint droplets from the barrier liquid.
The invention is not limited to the examples described and may freely vary within the scope of the claims.

权利要求:
Claims (4)
[1]
Invention Formula
one . A device for isolating a spraying fluid source from a high voltage electrostatic atomizer when using an electrically conducting sprayed liquid, comprising a supply line for the sprayed liquid, a feed pump for maintaining supply pressure in the supply line, installed in the supply line to form a vertical section, a sealed tank of electrically conducting of a material with liquid spraying means in it in discrete quantities, filled with a barrier uyuschey nonconductive medium with a density different from the density of the liquid is sprayed Vai distinguishing
g
T
I
five
Q
0
five
In order to eliminate the effect of a high-voltage pump transmitted along the supply line, the supply pump is installed in the latter before entering the pressurized tank to maintain the supply pressure in the supply line, and non-conductive liquid is used as a barrier-forming medium.
[2]
2. A device according to claim 1, characterized in that the non-conductive liquid has a density higher than that of the sprayed liquid, and the means for spraying the liquid is located in the lower part of the tank.
I
[3]
3. The device according to claim 1, wherein the non-conductive liquid has a density lower than the density of the sprayed liquid, and the means for spraying the liquid is placed in the upper part of the tank.
[4]
4. Device on PP. 1-3, about t - in that, in order to increase the penetrating power of the sprayed liquid, it is provided with means for forcing the non-conductive liquid to circulate.
Phi, r2

类似技术:

---

公开号 | 公开日 | 专利标题

---

SU1655295A3|1991-06-07|Device for insulating high-voltage power supply of electrostatic liquid spray gun in using electrically conducting liquid

---

KR950004145B1|1995-04-27|Method for supplying an electrically conductive floating medium and device for perforning the method

---

EP0150571B1|1988-07-13|Electrostatic coating system

---

EP0150590B1|1989-03-08|Electrostatic isolation apparatus

---

CA1260697A|1989-09-26|Electrostatic spraying

---

DE8107630U1|1984-04-05|DEVICE FOR FEEDING AN ELECTRICALLY CONDUCTIVE MEDIUM

---

CS235081B2|1985-04-16|Tank for liquid's electrostatic atomization

---

US4401274A|1983-08-30|Containers for use in electrostatic spraying

---

EP0174158A1|1986-03-12|Charge injection device

---

RU1826928C|1993-07-07|Device for isolating sprayed liquid source from high voltage of electrostatic spraying system when using electroconducting sprayed liquid

---

US4624764A|1986-11-25|Separation of dispersed phase from continuous fluid phase

---

JPS5766974A|1982-04-23|Fluid spray method

---

EP0063575A1|1982-11-03|Dust mitigation system

---

NZ199410A|1985-08-16|Emulsification and atomisation of immiscible liquids

---

SU1061847A1|1983-12-23|Electrostatic sprayer

---

US3896340A|1975-07-22|Apparatus and method for washing away an electrostatic charged mist in an oil tanker

---

US3893003A|1975-07-01|Method for reducing the strength of electrostatic fields in an oil tanker

---

JP2852788B2|1999-02-03|Paint insulation method and equipment in electrostatic coating

---

JP2788963B2|1998-08-20|Paint insulation method and equipment in electrostatic coating

---

GB2092025A|1982-08-11|Spraying emulsions

---

CA1280280C|1991-02-19|Contact charging by means of a rotary disk atomizer

---

US3893004A|1975-07-01|Apparatus for reducing the strength of electrostatic fields in an oil tanker

---

US3616815A|1971-11-02|Flow system having electrostatic charge reducer

---

SU939108A1|1982-06-30|Sprayer

---

Fujibayashi et al.1986|Spontaneous Electrification of Water Spray from a Nozzle Made of Insulator

同族专利:

---

公开号 | 公开日

---

CN87102146A|1987-11-04|

---

FI84325C|1991-11-25|

---

SE448213B|1987-02-02|

---

FI871145A0|1987-03-16|

---

FI871145A|1987-09-18|

---

EP0249586A2|1987-12-16|

---

EP0249586A3|1989-06-28|

---

SE8601229D0|1986-03-17|

---

DE3771589D1|1991-08-29|

---

EP0249586B1|1991-07-24|

---

US4884745A|1989-12-05|

---

SE8601229A|1987-02-02|

---

KR870008625A|1987-10-19|

---

CA1266400A|1990-03-06|

---

CN1005539B|1989-10-25|

---

FI84325B|1991-08-15|

---

BR8701199A|1988-01-05|

---

KR920007953B1|1992-09-19|

---

ES2025211B3|1992-03-16|

---

JPS62266153A|1987-11-18|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

DE4240328A1|1992-12-01|1994-06-09|Itw Oberflaechentechnik Gmbh|Electrostatic spray coating system using non-combustible electrically conducting coating liquids - has pressure container for coating liquid and spray gun for atomising and electrostatic high voltage charging of liquid|US3122320A|1958-03-20|1964-02-25|Ford Motor Co|Method for filling electrically charged receptacle|

---

US3864603A|1973-11-12|1975-02-04|Graco Inc|High voltage safety apparatus|

---

US3933285A|1973-12-03|1976-01-20|The Gyromat Corporation|Electrostatic paint spraying system with paint line voltage block|

---

US3934055A|1974-04-30|1976-01-20|Nordson Corporation|Electrostatic spray method|

---

US3905550A|1974-06-06|1975-09-16|Sota Inc De|Avoidance of spattering in the supply of conductive liquids to charged reservoirs|

---

US4128871A|1977-06-10|1978-12-05|Wahlco Inc.|High voltage DC power supply|

---

NL187613C|1978-01-11|1991-12-02|Akzo Nv|DEVICE FOR ELECTROSTATIC SPRAYING OF ELECTRICALLY CONDUCTIVE PAINT.|

---

DE2937890C2|1979-09-19|1981-12-17|Ransburg Gmbh, 6056 Heusenstamm|Device for supplying paint to an electrostatic paint generator|

---

DE3110148A1|1979-09-19|1982-09-23|Ransburg Gmbh, 6056 Heusenstamm|Device for feeding an electrically conductive medium|

---

US4629119A|1984-01-26|1986-12-16|Nordson Corporation|Electrostatic isolation apparatus and method|SE459322B|1987-11-04|1989-06-26|Atlas Copco Ab|DEVICE FOR INSULATING THE SPRAY MATERIAL CELL RELATIVELY HIGH VOLTAGE OF AN ELECTROSTATIC SPRAY SYSTEM|

---

FR2646106B1|1989-04-19|1991-07-19|Sames Sa|INSTALLATION FOR ELECTROSTATICALLY SPRAYING A CONDUCTIVE LIQUID PRODUCT AND ISOLATION DEVICE FOR A DISTRIBUTION CIRCUIT OF A CONDUCTIVE LIQUID PRODUCT|

---

FR2654365B1|1989-11-14|1992-02-21|Sames Sa|INSTALLATION OF APPLICATION OF CONDUCTIVE COATING PRODUCT, ELECTROSTATICALLY.|

---

FR2656460B1|1989-12-22|1994-02-11|Sames Sa|ELECTRICAL ISOLATION DEVICE FORMING A CONDUIT ELEMENT AND INSTALLATION COMPRISING SUCH A DEVICE.|

---

DE4315223A1|1993-05-07|1994-11-10|Abb Patent Gmbh|Method and device for potential isolation|

---

US5341990A|1993-06-11|1994-08-30|Nordson Corporation|Apparatus and method for dispensing electrically conductive coating material including a pneumatic/mechanical control|

---

US5944045A|1994-07-12|1999-08-31|Ransburg Corporation|Solvent circuit|

---

US5647542A|1995-01-24|1997-07-15|Binks Manufacturing Company|System for electrostatic application of conductive coating liquid|

---

US6423143B1|1999-11-02|2002-07-23|Illinois Tool Works Inc.|Voltage block monitoring system|

---

US20030175443A1|2002-03-14|2003-09-18|Ghaffar Kazkaz|Method and apparatus for dispensing coating materials|

---

US6918551B2|2003-07-17|2005-07-19|Illinois Tool Works Inc.|Dual purge manifold|

法律状态:

优先权:

---

申请号 | 申请日 | 专利标题

---

SE8601229A|SE8601229A|1986-03-17|1986-03-17|

---