JP2005125225A - Method of discharging liquid drop and cartridge for it - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method of discharging liquid drops which permits discharging a liquid, e.g. a liquid chemical-communication substance of an insect, stably as liquid drops without changing of the viscosity of the liquid even when the liquid is left outdoors for a long period and a cartridge for liquid-drop-discharging apparatuses used in the method. <P>SOLUTION: The method of discharging liquid drops through a liquid-drop-discharging apparatus 1 is related to discharging of a liquid 9 composed of a single composition as liquid drops. Alternatively, the method is related to discharging a mixture of a liquid composed of a single composition and a solvent having the same viscosity as that of the liquid, as liquid drops, by the apparatus 1. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  TECHNICAL FIELD The present invention relates to a droplet discharge method, and in particular, discharges and sprays insect pheromones and insect feeding inhibitors that have an insect communication disrupting action for agricultural chemical-free or low agricultural chemical cultivation, and discharges deodorizers and the like. The present invention relates to a droplet discharge method for performing the above and a cartridge of a droplet discharge device used in the droplet discharge method.

  In a conventional insect attracting device, an insect attracting substance, which is a chemical communication material of an insect, is accommodated in an attracting substance holding body attached to the superstructure of the insect attracting apparatus, and the insect attracting substance is naturally vaporized, so that the insect is attracted. The insect attracting device is attracted to the inside (see, for example, Patent Document 1).

In addition, in the conventional insect communication disturbing substance discharge device, an automatic sprayer or the like is used to discharge a communication disturbing substance that causes sexual communication disruption of a specific insect, and to disperse the communication disturbing substance in the air. Insect mating was inhibited to prevent the outbreak of insects.
JP 2000-50 (4th page, FIG. 1)

  In the conventional insect attracting apparatus (see, for example, Patent Document 1), the insect attracting substance is naturally vaporized and diffused in the air. For example, when the outside air is hot, the insect attracting substance is There is a problem in that it is excessively vaporized and the expensive insect attractant is wasted. Further, when the insect attractant is naturally vaporized, there is a problem that the insect attractant cannot be diffused to a desired place (for example, farmland where the crop is cultivated) due to the influence of the wind.

  In addition, since conventional insect communication disrupting device discharges using an automatic sprayer, there is no problem like the insect killing device described above, but generally the communication disrupting material is mixed with a solvent. Therefore, for example, when only the solvent is vaporized, there is a problem that the viscosity of the mixture of the communication disturbing substance and the solvent becomes high, and the liquid cannot be normally discharged from an automatic sprayer or the like. In particular, since the insect communication disrupting apparatus is left in the field for a long time, the problem is that the solvent vaporizes and the viscosity of the mixture of the communication disrupting substance and the solvent increases. In addition, when the viscosity of the mixture of the communication disturbing substance and the solvent becomes high, it is necessary to add a solvent or use an additional pressure device, which takes time and makes the discharge device complicated. There was a problem.

  The present invention relates to a droplet discharge method and a droplet discharge method capable of stably discharging these liquids as droplets without changing the viscosity of liquids such as insect chemical communication substances even when left outdoors. An object of the present invention is to provide a cartridge of a droplet discharge device used in a method. An object of the present invention is to provide a droplet discharge method capable of diffusing an insect chemical communication substance or the like in a desired place without changing the amount of the liquid such as the insect chemical communication substance depending on the temperature of the outside air.

The droplet discharge method according to the present invention is a method of discharging a droplet using a droplet discharge device, and discharges a liquid composed of a single composition as a droplet.
Since droplets are ejected using the droplet ejection device, most of the insect attractant is not wasted, such as an insect killing device that naturally vaporizes the insect attractant. In addition, since the liquid composed of a single composition is ejected as droplets, even when the liquid composed of a single composition is vaporized, the viscosity does not change and the liquid droplet ejection device is stably used. Can be discharged. In particular, when ejecting insect pheromones, it is common to leave the droplet ejection device in the field for a long period of time, so liquid vaporization cannot be ignored, and the viscosity remains constant and ejection failure does not occur. It is important to do so. In addition, since the viscosity of the liquid discharged as droplets is kept constant, no recovery means such as a pressure device is required.

The liquid droplet ejection method according to the present invention is a method for ejecting liquid droplets using a liquid droplet ejection device, in which a liquid composed of a single composition is mixed with a solvent having the same viscosity as that of the liquid. The liquid is discharged as droplets.
In the same manner as the above-described droplet discharge method, since the droplet discharge device is used to discharge droplets, much of the insect attractant is wasted, such as an insect killer that naturally vaporizes the insect attractant. There is no. In addition, since a liquid mixture of a liquid composed of a single composition and a solvent having substantially the same viscosity as that of the liquid is ejected as droplets, the liquid or solvent composed of this single composition is Even when vaporized, the viscosity does not change and can be stably discharged from the droplet discharge device. This is the same whether the liquid composed of a single composition is vaporized first or the solvent is vaporized first. In addition, since the viscosity of the liquid discharged as droplets is kept constant, no recovery means such as a pressure device is required.

In the droplet discharge method according to the present invention, the liquid is an insect pheromone.
If you spray and disperse a kind of insect pheromone, such as a certain insect (pest), on the farmland, you can prevent the insects from mating without using pesticides. Insects can be prevented from being produced in large quantities, and pesticide-free or low pesticide cultivation can be realized.

In the droplet discharge method according to the present invention, the liquid is an insect attractant that attracts insects.
In farmland, it is a kind of insect pheromone. If you try to spray and spray insect attractant that attracts specific insects (pests, etc.) Therefore, pesticide-free or low pesticide cultivation can be realized.

In the droplet discharge method according to the present invention, the liquid is an insect feeding inhibitor that inhibits insect feeding.
In agricultural land, if an insect feeding inhibitor that inhibits the feeding of specific insects (for example, pests) is discharged and sprayed, this particular insect will die of starvation, so no pesticide-free or low-pesticide cultivation Can be realized.

In the droplet discharge method according to the present invention, the liquid is a deodorizer.
The above-described droplet discharge method can also be applied when a deodorizing agent is sprayed in a room or the like. For example, if a deodorant made of a single composition is discharged, no discharge failure will occur, and if a deodorant is discharged using an inkjet head as shown later, a small amount of deodorant will be discharged. An agent can be efficiently sprayed to a desired place.

In the droplet discharge method according to the present invention, the liquid is perfume.
The above-described droplet discharge method can be applied to the case where perfume is sprayed in a room or the like, similarly to the deodorizer. For example, if a perfume made of a single composition is discharged, no discharge failure will occur, and if a perfume is discharged using an inkjet head as shown later, a small amount of perfume can be efficiently used. Well can be sprayed to the desired place.

Further, in the droplet discharge method according to the present invention, the above-described droplet discharge device discharges droplets from an inkjet head.
Since the droplet discharge device discharges droplets from the inkjet head, most of the liquid discharged as droplets is not vaporized and wasted. In addition, if droplets are ejected from the inkjet head, the required amount can be dispersed with high accuracy at a desired location.

The cartridge according to the present invention is used in the above-described droplet discharge method, can be exchanged, and contains liquid discharged from the droplet discharge device.
Since this cartridge can be replaced, for example, when the liquid to be discharged is exhausted, the liquid can be easily replenished by replacing the cartridge.

A cartridge according to the present invention is mounted with the above-described inkjet head.
Since the ink-jet head is mounted on the replaceable cartridge, the ink-jet head is also replaced when the cartridge is replaced. As described above, the ink jet head is replaced relatively frequently, so that it is possible to further reduce the possibility of occurrence of a droplet ejection failure in the above-described droplet ejection method.

Embodiment 1. FIG.
FIG. 1 is a plan view showing a droplet discharge device used in a droplet discharge method according to Embodiment 1 of the present invention. 1A is a plan view showing a state in which the front surface portion 2 is attached to the droplet discharge device 1, and FIG. 1B shows a state in which the front surface portion 2 is removed from the droplet discharge device 1. FIG.
As shown in FIG. 1A, a front panel 2 of the droplet discharge device 1 is provided with an operation panel 3 including a power switch and the like. Further, as shown in FIG. 1B, when the front surface portion 2 is removed, a battery mounting portion 5 for mounting the battery 4, a drive circuit 6, and a cartridge mounting for mounting the cartridge 7 are installed inside the droplet discharge device 1. A part 8 is provided. The cartridge 7 contains a liquid 9 such as an insect disturbing substance having an insect communication disturbing action, and an ink jet head 10 is exposed at one end of the cartridge 7 so as to be exposed to the outside of the droplet discharge device 1. It is installed. For example, the inkjet head 10 is exposed from the lower surface of the droplet discharge device 1.
In order to discharge the liquid 9 from the droplet discharge device 1 as droplets, a spray type or the like may be used instead of the inkjet head 10.

FIG. 2 is a perspective view showing an example in which a droplet discharge method for discharging the liquid 9 is performed using the droplet discharge apparatus 1 shown in FIG.
As shown in FIG. 2, for example, a plurality of support columns 52 are installed on a farm land 51, and the droplet discharge device 1 is attached to a position at an appropriate height of each support column 52. At this time, a plurality of droplet discharge devices 1 may be attached to one column 52. From these droplet discharge devices 1, insect pheromones (for example, insect disturbing substances having insect communication disrupting action and insect attracting substances attracting insects), insect feeding inhibiting substances that inhibit insect feeding are used as droplets. Etc. are discharged. That is, a liquid made of the above-described substances is accommodated in the cartridge 7 and these substances (liquids) are ejected from the inkjet head 10 as droplets. As a result, these substances are discharged from the droplet discharge device 1, dispersed in the air, and diffused to a desired section.
In the first embodiment, a mixture of an insect disturbing substance made of a single composition or a substance (liquid) made of a single composition and a solvent having substantially the same viscosity as this liquid is discharged. The details will be described later.

Here, functions and operations of the droplet discharge device 1 shown in FIG. 1 will be described. The droplet discharge device 1 is driven by power supplied from the battery 4 attached to the battery attachment portion 5. Note that the droplet discharge device 1 is not necessarily driven by a battery, and may be driven using a household power source or the like. A cartridge 7 is attached to the cartridge attachment portion 8. As described above, the cartridge 7 contains a liquid 9 such as an insect disturbing substance inside, and an ink jet head 10 is mounted on one end thereof. The cartridge 7 can be exchanged. For example, when the liquid 9 in the cartridge 7 runs out or decreases, the cartridge 7 can be replaced with a new cartridge 7. At this time, since the inkjet head 10 is integrated with the cartridge 7, when the cartridge 7 is replaced, the inkjet head 10 is also replaced.
It is also possible to adopt a configuration in which only the tank portion of the cartridge 7 can be replaced by providing the inkjet head 10 in the main body of the droplet discharge device 1 instead of mounting it on the cartridge 7.

  The drive circuit 6 performs control when the liquid 9 is ejected from the inkjet head 10 as droplets, and includes a control plate (not shown in FIG. 1B). The drive circuit 6 controls, for example, at which time zone the droplets are discharged every day, and how much droplets are discharged during the period from month to month. The control conditions for performing this control may be preset in the drive circuit 6 with a ROM or the like in advance. However, for example, the control conditions can be appropriately changed by transmitting the control conditions to the drive circuit 6 by wireless communication. Also good. In addition, when ejecting droplets on the farm 51 as shown in FIG. 2 to spray insect disturbing substances, etc., the detector (not shown in FIG. 1B) detects the air volume and the wind direction in the drive circuit 6. ) And the droplet discharge amount and discharge direction may be controlled based on the data. In order to change the droplet discharge direction, it is necessary to provide a separate mechanism for changing the droplet discharge direction in the droplet discharge apparatus 1 shown in FIG.

Here, a droplet discharge method for discharging a liquid such as an insect disturbing substance as a droplet to the farmland 51, the green space, the forest or the like as shown in FIG. 2 using the droplet discharge device 1 as shown in FIG. 1 will be described. .
First, when an insect disturbing substance, which is a kind of insect pheromone, is ejected using the droplet ejection device 1 and sprayed into the air, the insect disturbing substance (liquid at room temperature) consisting of a single composition is dropped. To be discharged. Here, the insect disturbing substance composed of a single composition means a liquid of an insect disturbing substance having almost 100% purity without containing water or alcohol as a solvent. Insect disturbing substances are chemical communication substances of insects, and among insect pheromones, substances that have a communication disrupting action and attracting actions. As this insect disturbing substance, dodecyl acetate, Z8-didecenyl acetate, Z11-tetradecenyl acetate and the like can be used. When these substances are diffused into the air, they can attract and capture certain insects (especially pests), or the male cannot recognize the position of the female, Or can interfere with mating. In any case, since insect pests and the like can be controlled by controlling the behavior of insects, a large amount of pests and the like can be prevented with no pesticides or low pesticides. Also, environmental pollution can be reduced.

  Insect disturbing substances made of a single composition are not discharged from the droplet discharge device 1, but an insect disturbing substance made of a single composition and a solvent having the same viscosity as that of the insect disturbing substance. The mixed liquid may be discharged and dispersed in the air. Here, the same viscosity includes those having substantially the same viscosity, and the viscosity difference is within 40%. For example, when dodecyl acetate having a viscosity of about 3.2 mPa seconds at 25 ° C. is used as an insect disturbing substance, n-tetradecane having a viscosity of about 2.3 mPa seconds at 25 ° C. can be used. This n-tetradecane has high stability against dodecyl acetate and is suitable as a solvent.

  As described above, the insect disturbing substance composed of a single composition, or a mixed liquid of a single insect disturbing substance and a solvent having the same viscosity as that of the insect disturbing substance is ejected as droplets from the droplet ejecting apparatus 1. By doing so, even when the insect disturbing substance or the solvent is vaporized from the nozzle hole (not shown in FIG. 1B) of the ink jet head 10, the viscosity of the insect disturbing substance or the mixed solution is almost changed. In this case, the nozzle hole is not clogged and the discharge failure does not occur. For this reason, in the farm land 51 as shown in FIG. 2, even if the droplet discharge device 1 is left in the field for a long time (for example, one year), the viscosity of the insect disturbing substance or the mixed solution is kept constant, and the discharge performance is maintained. Can be maintained.

Next, a case where an insect attractant that attracts insects is discharged from the droplet discharge device 1 and dispersed in the air will be described. In addition, in the case of an insect attractant, an insect attractant consisting of a single composition (liquid at room temperature), or an insect attractant consisting of a single composition and a solvent having the same viscosity as this insect attractant The liquid mixture is discharged as droplets. By doing in this way, the change of the viscosity of an insect attractant or a liquid mixture can be suppressed similarly to the case of an insect disturbance substance. The definition that the viscosities are the same is the same as in the case of insect-disrupting substances.
When the insect attractant is discharged from the droplet discharge device 1 (see FIGS. 1 and 2) and sprayed with the insect attractant in the air, a specific insect (for example, a pest) is attracted and the insect attractant diffuses. Gather where you are. For example, a box with a roller for crushing insects is placed here, and the insects are guided into the box. As a result, the insects are guided into the box, and are crushed by the roller and die by pressure. For this reason, when discharging an insect attractant, it is desirable not to diffuse in a very wide range.
If the insect attractant is discharged from the droplet discharge device 1 as described above, for example, if the insect is crushed with a roller or the like, the insect (particularly pest) can be controlled, no pesticide or low pesticide Cultivation can be realized. Also, environmental pollution can be reduced.

Furthermore, a case where an insect feeding inhibitor that inhibits insect feeding is ejected from the droplet ejection device 1 and sprayed into the air will be described. In addition, in the case of an insect feeding inhibitor, an insect feeding inhibitor consisting of a single composition (liquid at room temperature), an insect feeding inhibitor consisting of a single composition, and this insect feeding inhibitor A liquid mixture with a solvent having the same viscosity is discharged as droplets. In this case, the viscosity of the insect feeding inhibitor or mixed solution is not substantially changed as in the case of the insect disturbing substance, and the definition of the viscosity and the like is the same as in the case of the insect disturbing substance.
Examples of insect feeding inhibitors include polygodial and azadirachtin. When these insect feeding inhibitory substances are discharged from the droplet discharge device 1 and sprayed in the air, the insects that eat them will not be able to be eaten by the insects, and the feeding of the insects will be inhibited. If food inhibitory activity is strong, starvation occurs. Inhibitors are harmless to the human body at a certain concentration, and are also harmless to soil-friendly animals such as carnivorous insects and earthworms that are natural enemies of insects, and have no environmental impact Therefore, pesticide-free or low pesticide cultivation can be realized. Also, environmental pollution can be reduced.

FIG. 3 is a partial perspective view showing a state in which the cartridge 7 is attached to the droplet discharge device 1 according to the first embodiment. In FIG. 3, the cartridge mounting portion 8 is partially shown in cross section. The upper surface side of the inkjet head 10 is shown in a transparent state.
As shown in FIG. 3, the cartridge 7 including the ink jet head 10 and the tank portion 11 is attached to the cartridge attachment portion 8. As described above, in the first embodiment, the ink jet head 10 and the tank portion 11 are integrated to form the cartridge 7, and the cartridge 7 can be replaced. A liquid 9 (not shown in FIG. 3) such as an insect disturbing substance is accommodated in the tank portion 11 of the cartridge 7. The tank portion 11 is made of, for example, a flexible rubber material that is resistant to the liquid 9 to be stored. In this way, if the tank portion 11 is made of a flexible rubber material or the like and a slight negative pressure is applied when the liquid 9 is not ejected, the liquid 9 contained in the tank portion 11 is transferred to the inkjet head. No leakage from 10 nozzle holes (described later). Further, the pressure changes appropriately according to the remaining amount of the liquid 9. As a flexible rubber material constituting the tank portion 11, for example, fluororubber can be used.

FIG. 4 is an enlarged exploded view in which a portion of the ink jet head 10 of the cartridge 7 is extracted. The ink jet head 10 employed in the first embodiment is of an electrostatic drive type.
As shown in FIG. 4, the inkjet head 10 is configured by joining a cavity substrate 21, an electrode substrate 22, and a cover glass 23 by anodic bonding or the like. The cavity substrate 21 is made of, for example, single crystal silicon, and has recesses that become the liquid supply port 25, the orifice 26, the discharge chamber 27, and the nozzle hole 28 by etching or the like. The bottom surface of the discharge chamber 27 is a diaphragm 29, and a common electrode 30 for applying a voltage is formed on the cavity substrate 21.
The electrode substrate 22 is made of, for example, borosilicate glass, and individual electrodes 31 and wirings 32 made of ITO or the like are provided in a recess formed by etching or the like.
The cover glass 23 is made of borosilicate glass, single crystal silicon, or the like.

  In the ink jet head 10 shown in FIG. 4, the liquid 9 such as the above-described insect disturbing substance is supplied from the tank portion 11 to the discharge chamber 27 from the liquid supply port 25 through the orifice 26. A voltage is applied between the vibration plate 29 and the individual electrode 31 via the common electrode 30 and the wiring 32, respectively, and the vibration plate 29 on the bottom surface of the discharge chamber 27 for discharging the liquid 9 and the same. When a voltage is applied to the corresponding individual electrode 31, the vibration plate 29 is bent and deformed toward the electrode substrate 22 side. At this time, the liquid 9 is sucked into the discharge chamber 27. When the voltage applied between the diaphragm 29 and the individual electrode 31 is removed, the diaphragm 29 returns to the original state and the pressure inside the discharge chamber 27 increases. Thereby, the liquid 9 is discharged from the nozzle hole 28 as a droplet.

The ink jet head 10 is smaller than an ink jet head used in a general ink jet printer or the like, and the size of the orifice 26, the discharge chamber 27, the nozzle hole 28, etc. is poorly discharged depending on the viscosity of the liquid 9. It is designed not to happen. Further, the gap (interval) between the diaphragm 29 and the individual electrode 31 is made to be precisely constant, and when the diaphragm 29 is deformed by applying a voltage to the diaphragm 29 and the individual electrode 31, the diaphragm 29 abuts on the individual electrode 31. By doing so, the ejected droplets can be made in a minute amount and a constant amount.
In the inkjet head 10 as shown in FIG. 4, one droplet of the above dodecyl acetate is generally about 100 pl.

In the first embodiment, since the liquid 9 made of a single composition is ejected as droplets, even when the liquid 9 made of this single composition is vaporized, the viscosity does not change and the droplets do not change. It is possible to discharge stably from the discharge device 1.
In addition, since a liquid mixture of a liquid composed of a single composition and a solvent having substantially the same viscosity as that of the liquid is ejected as droplets, the liquid or solvent composed of this single composition is Even when vaporized, the viscosity does not change and can be stably discharged from the droplet discharge device 1.

Embodiment 2. FIG.
In Embodiment 2 of the present invention, a deodorizing agent (liquid at normal temperature) or perfume (liquid at normal temperature) is discharged from a droplet discharge device. In addition, when discharging a deodorizing agent or perfume from a droplet discharge device, the deodorizing agent or perfume made of a single composition is discharged as in the first embodiment. Moreover, you may make it discharge the liquid mixture of the deodorizing agent or perfume which consists of a single composition, and the solvent with the same viscosity as a deodorizing agent or perfume as a droplet. By doing in this way, the change of the viscosity of a deodorizer, a perfume, or a liquid mixture can be suppressed similarly to the case of Embodiment 1. The definition that the viscosities are the same is the same as in the first embodiment.
The configuration, function, operation, etc. of the droplet discharge device are the same as those shown in FIGS. 1, 3, and 4 of the first embodiment. In general, deodorizers and perfumes are often discharged indoors, so that the appearance of the droplet discharge device can be matched to the design of the room, or can be a handy type configuration.

In this Embodiment 2, since the deodorizing agent or perfume consisting of a single composition is discharged as droplets, the viscosity changes even when the deodorizing agent or perfume consisting of this single composition is vaporized. Without being discharged from the droplet discharge device.
Further, since the liquid mixture of the deodorant or perfume made of a single composition and the solvent having substantially the same viscosity as the deodorant or perfume is discharged as droplets, the single composition Even when the deodorizing agent or the perfume or the solvent is vaporized, the viscosity does not change and can be stably discharged from the droplet discharge device 1.

  In Embodiment 1 and Embodiment 2 of the present invention, a liquid composed of a single composition or a mixed liquid of a liquid composed of a single composition and a solvent having the same viscosity as that of the liquid is ejected as droplets. However, a medicine or snuff is used as the liquid, and the droplet discharge device can be used for inhalation of the medicine or snuff.

FIG. 3 is a plan view showing a droplet discharge device used in the droplet discharge method according to the first embodiment. The perspective view which shows the example which implements the droplet discharge method which discharges a liquid with a droplet discharge apparatus. FIG. 7 is a partial perspective view showing a state where a cartridge is attached to the droplet discharge device. The enlarged exploded view which extracted the part of the inkjet head of a cartridge.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Droplet discharge device, 2 Front part, 3 Operation panel, 4 Battery, 5 Battery attachment part, 6 Drive circuit, 7 Cartridge, 8 Cartridge attachment part, 9 Liquid, 10 Inkjet head, 11 Tank part, 21 Cavity substrate, 22 Electrode substrate, 23 cover glass, 25 liquid supply port, 26 orifice, 27 discharge chamber, 28 nozzle hole, 29 diaphragm, 30 common electrode, 31 individual electrode, 32 wiring, 51 farmland, 52 prop.

Claims (10)

  A method for ejecting liquid droplets using a liquid droplet ejection apparatus, wherein a liquid comprising a single composition is ejected as liquid droplets.   A method of discharging droplets using a droplet discharge device, wherein a liquid mixture of a single composition and a liquid having the same viscosity as the liquid are discharged as droplets. Droplet discharging method.   The droplet discharging method according to claim 1, wherein the liquid is an insect pheromone.   The droplet discharge method according to claim 3, wherein the liquid is an insect attractant that attracts insects.   The droplet discharge method according to claim 1, wherein the liquid is an insect feeding inhibitor that inhibits insect feeding.   The droplet discharge method according to claim 1, wherein the liquid is a deodorizer.   The droplet discharge method according to claim 1, wherein the liquid is a perfume.   The droplet discharge method according to claim 1, wherein the droplet discharge device discharges droplets from an inkjet head.   9. A cartridge that is used in the droplet discharge method according to claim 8, is exchangeable, and contains a liquid discharged from the droplet discharge device. The cartridge according to claim 9, wherein the ink jet head is mounted.

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