JP4710066B2 - High voltage supply circuit in electrostatic spraying equipment - Google Patents

Description

  The present invention relates to a high voltage supply circuit in an electrostatic spraying device that sprays a liquid such as a chemical solution using static electricity.

  As a prior art, the high voltage generator in the electrostatic spray apparatus described in patent document 1 is illustrated. The electrostatic spraying device includes a high voltage generator 56 that supplies a high voltage to the electrode 69 for charging droplets ejected from the spray nozzle 67. The high voltage generator 56 is configured as shown in FIG. The DC supply electricity of the storage battery 57 is modulated to a high frequency by the oscillation circuit 85 and is raised by the booster circuit 86. A rectifier circuit 87 is provided to restore the direct current from the booster circuit 86 again. In addition, if a high voltage leak occurs, a function of stopping the operation of the high voltage generator 56 (hereinafter referred to as “high voltage leak stop function”) is provided.

Japanese Patent Laying-Open No. 2004-122091 (paragraph 0035, FIG. 2)

  By the way, in general, the high-voltage leak stop function stops high-voltage generation when a high-voltage leak state continues for a predetermined time or more in order to prevent malfunction. A leak current I flows for a predetermined time. Therefore, in order to suppress the amount of the leakage current I, for example, as shown in FIG. 7, the high voltage generator 56 is preferably configured to supply a high voltage via the protective resistor R. However, particularly in the case of a multi-head type electrostatic spraying device having a plurality of sets of spray nozzles 67 and electrodes 69 as shown in FIG. As I, all electrode currents flow intensively. In this case, the leak current I is larger than that of the single head type equipped with the spray nozzle 67 and the electrode 69 even though the protective resistance R is interposed. For this reason, for example, when a high voltage leak occurs due to another object coming into contact with the electrode 69 or the like, there is a problem that this large leak current I flows through the other object. Further, when the leak current I flows, not only the electrode 69 in which the high voltage leak has occurred but also the potential of the other electrode 69 is lowered, and there is a problem that the electrostatic function does not work in the entire electrostatic spraying device.

In order to solve the above problems, the high voltage supply circuit in the electrostatic spraying device of the present invention is:
While supplying a high voltage from a high voltage generating unit to a plurality of electrostatic spray units that eject a countless number of charged droplets ,
A high voltage in an electrostatic spraying device, in which a protective resistor for limiting a leakage current is inserted into a wiring branched in parallel to supply a high voltage to the electrostatic spraying unit for each or a plurality of electrostatic spraying units A supply circuit,
A bus, a bus connecting plug attached to one end of the bus, a bus connecting jack attached to the other end of the bus, the protective resistor having one end connected to a middle portion of the bus, and the protection It is driven by a branch line connecting plug or jack connected to the other end of the resistor and a power line wired together with the bus line, and detects that the voltage on the branch line side of the protective resistor has dropped below a predetermined voltage. Including a plurality of branch units with a leakage sensor that indicates the occurrence of leakage,
The plurality of branch units constitutes a daisy chain in which one of the bus connecting plugs of a pair of adjacent branch units and the other bus connecting jack are connected to each other.
A bus connecting jack or plug in the last branch unit of the daisy chain is connected to the high voltage generator,
Each of the branch line connecting plugs or jacks is connected to the electrostatic spraying unit individually or in plurality.

According to this configuration, even if leakage occurs in the electrostatic spraying unit individually or in plurality, the leakage current is suppressed by the protective resistance, and the influence on the electrostatic spraying unit where leakage is not generated Can be reduced.
In addition, since the branch unit is provided, operations such as connection, replacement, and expansion of the high voltage supply circuit can be simplified.
Moreover, since the said earth leakage sensor is provided, the said electrostatic spraying part which the earth leakage has generate | occur | produced can be specified easily.

  According to the high voltage supply circuit in the electrostatic spraying apparatus according to the present invention, even if a leakage occurs in some electrostatic spraying portions, the leakage current can be suppressed and no leakage occurs. There is an excellent effect that the influence on the electrostatic spraying portion can be reduced.

  1 to 3 show a high voltage supply circuit 2 in an electrostatic spraying apparatus 1 according to a first embodiment embodying the present invention. As shown in FIGS. 1 and 2, the electrostatic spraying device 1 is connected in parallel to a high voltage generating unit 3 that generates a high voltage and to the high voltage generating unit 3 via a high voltage supply circuit 2. And a plurality of electrostatic spraying sections 4 for spraying spray S composed of innumerable droplets D charged by the high voltage.

  In this example, the high voltage generator 3 is configured such that a high voltage generator 6 using a storage battery 5 as a power source is connected to the high voltage supply circuit 2 via a protective resistor Ra for limiting a leakage current. Yes. The high voltage generator 6 of this example generates a voltage of +6 KV. The high voltage supply circuit 2 is connected via a bus connection plug 11.

  As shown in FIGS. 1 and 2, the high voltage supply circuit 2 includes a bus 2a connected to the high voltage generator 3, a branch line 2b connected to each electrostatic spray unit 4, and a protective resistor Rb. And a branch unit 10 for connecting the branch line 2b to the bus 2a. In this way, the protective resistance Rb for limiting the leakage current is inserted in the branch line 2b as a wiring branched in parallel so as to supply a high voltage to each electrostatic spray unit 4.

  As shown in FIG. 3, the branch unit 10 includes a bus 2a, a bus connecting plug 11 attached to one end of the bus 2a, a bus connecting jack 12 attached to the other end of the bus 2a, A protection resistor Rb having one end connected to the middle portion of the bus 2a and a branch line connecting plug 13 connected to the other end of the protection resistor Rb, a bus connecting plug 11, a protection resistor Rb, and a branch A line connecting plug 13 is accommodated in the case body 15. A plurality of branch units 10 are provided corresponding to each electrostatic spraying section 4, and the bus connection jack 12 of the first branch unit 10 is connected to the bus connection plug 11 of the second branch unit 10. By connecting the bus connection jack 12 of the third branch unit 10 to the bus connection plug 11 of the third branch unit 10, etc., the connection is made in a daisy chain. The bus connecting jack 12 of the last branch unit 10 is connected to the bus connecting plug 11 of the high voltage generating unit 3. Further, the branch line connecting plug 13 of the branch unit 10 is connected to the branch line 2b connected to the electrostatic spraying section 4 via a branch line connecting jack 14 attached to the tip of the branch line 2b. Yes. Needless to say, a configuration in which the plug and the jack are interchanged with each other can be adopted for this example.

  As shown in FIG. 2, the electrostatic spray unit 4 includes a spray nozzle unit 20 configured to spray a chemical solution for controlling diseases and insects of a crop as a spray S composed of countless droplets D, and the spray An injection tube 21 for supplying a pressurized chemical to the nozzle unit 20, an annular electrode 23 as an electrode disposed so as to be close to the outside of the diffusion range of the droplet D, and an annular shape with respect to the spray nozzle unit 20 An electrode holder 24 that supports the electrode 23 and has electrical insulation is provided, and the branch line 2 b is connected to the annular electrode 23. In this example, the jet tube 21 is made of a conductive material and is grounded (grounded), whereby the chemical solution is grounded. The mode of grounding the chemical liquid is not limited to this, and an example of grounding another conductive part (spray nozzle unit 20 or the like) in contact with the chemical liquid or an electrode immersed in the chemical liquid is exemplified.

  According to the high voltage supply circuit 2 of the present example configured as described above, the leakage current is limited to the branch line 2b as a wiring branched in parallel so as to supply a high voltage to each electrostatic spray unit 4. Since the protective resistance Rb is inserted, even if leakage occurs in the individual electrostatic spraying parts 4, the leakage resistance is suppressed by the protective resistance Rb, and the electrostatic spraying in which no leakage occurs The influence on the part 4 can be reduced.

  The high voltage supply circuit 2 branches to the bus 2a via the bus 2a connected to the high voltage generator 3, the branch 2b connected to each electrostatic spray unit 4, and the protective resistor Rb. Since the branch unit 10 for connecting the line 2b is provided, operations such as connection, replacement, and expansion of the high voltage supply circuit 2 can be simplified.

  Next, FIG.4 and FIG.5 has shown 2nd embodiment which actualized this invention. The high voltage supply circuit 32 in the electrostatic spraying device 31 is mainly different from the first embodiment in the following points. Accordingly, portions common to the embodiment are given the same reference numerals, and redundant description is omitted.

  The branch unit 33 in the high voltage supply circuit 32 of this example includes a leakage sensor 34 that detects the occurrence of leakage on the branch line 2b side in this example. This earth leakage sensor 34 is driven by a power line 35 wired together with the bus 2a of the high voltage supply circuit 32, detects that the voltage on the branch line 2b side of the protective resistance Rb has dropped below a predetermined voltage, and causes an earth leakage. A lamp 36 for indicating that the event has occurred is turned on.

  According to the high voltage supply circuit 32 of this example, in addition to the effect similar to 1st embodiment, the individual electrostatic spraying part 4 in which the electric leakage has generate | occur | produced can be specified easily.

In addition, this invention is not limited to the said embodiment, For example, it can also be suitably changed and embodied as follows, for example in the range which does not deviate from the meaning of invention.
(1) The electrostatic spraying unit 4 is grouped into a plurality of groups, and a protective resistor Rb for limiting the leakage current is inserted into the wiring branched in parallel with the electrostatic spraying unit 4 for each group. .
(2) The protective resistance Ra in the high voltage generating unit 3 is omitted.

BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows the whole structure of the electrostatic spraying apparatus provided with the high voltage supply circuit which concerns on 1st embodiment which actualized this invention. It is a circuit diagram of the high voltage supply circuit in the electrostatic spraying apparatus. It is a circuit diagram of the branch unit in the electrostatic spraying apparatus. It is a figure which shows the whole structure of the electrostatic spraying apparatus provided with the high voltage supply circuit which concerns on 2nd embodiment which actualized this invention. It is a circuit diagram of the branch unit in the electrostatic spraying apparatus. It is a block diagram which shows the structure of the high voltage generator in the conventional electrostatic spraying apparatus as background art. It is a circuit diagram which shows a state when a high voltage leak generate | occur | produces, when the electrostatic spraying apparatus is comprised by the multi-head mouth type, for example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Electrostatic spray apparatus 2 High voltage supply circuit 2a Bus line 2b Branch line 3 High voltage generation part 4 Electrostatic spray part 5 Storage battery 6 High voltage generation apparatus 10 Branch unit 11 Bus connection plug 12 Bus connection jack 13 Branch connection connection Plug 14 Branch line connection jack 15 Case body 20 Spray nozzle portion 21 Jet tube 23 Annular electrode 24 Electrode holder 31 Electrostatic spray device 32 High voltage supply circuit 33 Branch unit 34 Earth leakage sensor 35 Power line 36 Lamp Ra Protection resistance Rb Protection resistance D Droplet S Spray

Claims (1)

While supplying a high voltage from a high voltage generating unit to a plurality of electrostatic spray units that eject a countless number of charged droplets ,
A high voltage in an electrostatic spraying device, in which a protective resistor for limiting a leakage current is inserted into a wiring branched in parallel to supply a high voltage to the electrostatic spraying unit for each or a plurality of electrostatic spraying units A supply circuit,
A bus, a bus connecting plug attached to one end of the bus, a bus connecting jack attached to the other end of the bus, the protective resistor having one end connected to a middle portion of the bus, and the protection It is driven by a branch line connecting plug or jack connected to the other end of the resistor and a power line wired together with the bus line, and detects that the voltage on the branch line side of the protective resistor has dropped below a predetermined voltage. Including a plurality of branch units with a leakage sensor that indicates the occurrence of leakage,
The plurality of branch units constitutes a daisy chain in which one of the bus connecting plugs of a pair of adjacent branch units and the other bus connecting jack are connected to each other.
A bus connecting jack or plug in the last branch unit of the daisy chain is connected to the high voltage generator,
A high voltage supply circuit in an electrostatic spraying device in which each of the branch line connecting plugs or jacks is connected to the electrostatic spraying unit individually or in plurality.

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