JP2011183775A - Fluid jet apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fluid jet apparatus capable of reducing time until a moisture retention space reaches saturation. <P>SOLUTION: In a printer 1 having a recording head 2 for jetting ink, and a moisture retention unit 11 configured to form the moisture retention space S surrounding a nozzle formation face 21A on which the ink adheres and also volatilize a predetermined liquid in the moisture retention space S to moisturize the nozzle formation face 21A, the moisture retention unit 11 adopts a configuration including a first moisture retention liquid supply device 50 for supplying a first moisture retention liquid L1 higher in volatility than water as the predetermined liquid in the moisture retention space S and a second moisture retention liquid supply device 60 for supplying a second moisture retention liquid L2 lower in volatility than the first moisture retention liquid L1 other than the first moisture retention liquid L1 as the predetermined liquid in the moisture retention space S. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a fluid ejecting apparatus.

As a fluid ejecting apparatus that ejects fluid, for example, an ink jet printer described in Patent Document 1 is known.
This printer includes a moisturizing unit that prevents adverse effects caused by ink thickening, such as clogging of nozzles that eject ink, and in a standby state where printing processing is not performed, the nozzle forming surface is surrounded by a moisturizing cap device and A predetermined liquid is supplied to a space (moisturizing space) in the moisture retaining cap device, and the liquid is volatilized to retain the nozzle. In addition to the nozzles, the moisture retention target of the moisture retention unit includes a preliminary ejection cap device that receives preliminary ejection of ink and an ink adhesion portion (fluid adhesion portion) such as a wiper that wipes ink adhered to the nozzle surface.

JP 2009-101634 A

  By the way, as a liquid used for moisturizing a conventional moisturizing unit, a liquid obtained by adding a preservative to pure water has been used. However, in this liquid, it takes time until the moisture retention space reaches a saturated state due to the volatile components, and there is a concern that the viscosity of the ink may increase during that time.

  The present invention has been made in view of the above problems, and an object thereof is to provide a fluid ejecting apparatus that can reduce the time required for the moisture retention space to reach a saturated state.

In order to solve the above-described problems, the present invention provides a fluid ejecting head that ejects fluid and a nozzle forming surface to which the fluid adheres to form a moisturizing space and a predetermined liquid in the moisturizing space. A fluid ejecting apparatus having a moisturizing unit that volatilizes and moisturizes the nozzle forming surface, wherein the moisturizing unit is a first moisturizing liquid having higher volatility than water as the predetermined liquid in the moisturizing space. In addition to the first moisturizing liquid as the predetermined liquid, a second moisturizing liquid having a lower volatility than the first moisturizing liquid is supplied into the moisturizing space and the first moisturizing liquid supply unit that supplies the liquid. The second moisturizing liquid supply unit is employed.
By adopting such a configuration, in the present invention, the first moisturizing liquid having higher volatility than water is supplied into the moisturizing space and volatilized, so that the moisturizing space is quickly saturated. In addition, the second moisturizing liquid, which is less volatile than the first moisturizing liquid, is supplied into the moisturizing space and volatilized, thereby maintaining a saturated state in the moisturizing space for a long period of time. Can do. That is, since only the first moisturizing liquid volatilizes and disappears immediately, it is difficult to maintain the interior of the moisturizing space in a saturated state for a long time, but this is less volatile than the first moisturizing liquid. By supplementing with 2 moisturizing liquids, it is possible to achieve both the immediate effect of quickly saturating the moisturizing space and the sustainability of maintaining the saturated state of the moisturizing space over a long period of time.

In the present invention, the first moisturizing liquid is ethanol.
By adopting such a configuration, in the present invention, ethanol having higher volatility than water is used as the first moisturizing liquid.

Moreover, in this invention, the structure that the said 2nd moisturizing liquid is water is employ | adopted.
By adopting such a configuration, water is used as the second moisturizing liquid in the present invention.

In the present invention, the moisturizing unit includes a first reservoir that stores the first moisturizing liquid in the moisturizing space, and a second reservoir that stores the second moisturizing liquid in the moisturizing space. The structure of having is adopted.
By adopting such a configuration, in the present invention, by separately storing the first moisturizing liquid and the second moisturizing liquid in the moisturizing space, both can be volatilized simultaneously without mixing them. Moreover, according to this structure, since the 1st moisturizing liquid and the 2nd moisturizing liquid do not mix, the fall of volatility by ethanol mixing with water can be suppressed, for example.

In the present invention, the moisturizing space extends in a predetermined direction, and the first storage portion and the second storage portion extend in parallel in the predetermined direction. Is adopted.
By adopting such a configuration, in the present invention, when the moisturizing space extends in a predetermined direction, the first storage portion and the second storage portion extend in parallel in the extending direction. By doing so, it is possible to reduce variations in the time to reach the saturation state in the extending direction.

Moreover, in this invention, the structure that at least one part of the said 1st storage part and at least one part of the said 2nd storage part are alternately arrange | positioned in the said moisture retention space is employ | adopted.
By adopting such a configuration, in the present invention, if at least a part of the first storage part and at least a part of the second storage part are alternately arranged in the moisturizing space, saturation occurs in the moisturizing space. Variations in the time to reach the state can be reduced.

Further, in the present invention, the first moisturizing liquid supply unit is configured so that the timing for supplying the first moisturizing liquid to the moisturizing space and the timing for supplying the second moisturizing liquid to the moisturizing space are different. And the structure which has a control apparatus which controls the drive of a 2nd moisturizing liquid supply part is employ | adopted.
By adopting such a configuration, in the present invention, the first moisturizing liquid is more consumed by volatilization than the second moisturizing liquid, so if two types of moisturizing liquids with different volatility can be supplied at different timings, It becomes possible to control the humidity according to the situation of the humidity inside the moisturizing space.

1 is a perspective view illustrating a configuration of a printer according to an embodiment of the present invention. FIG. 3 is a diagram illustrating an arrangement of nozzles provided in a recording head according to an embodiment of the present invention. FIG. 2 is a partial cross-sectional view illustrating an internal configuration of a recording head according to an embodiment of the invention. It is a block diagram which shows the moisturizing unit in embodiment of this invention. It is a top view which shows the structure of the cap member in embodiment of this invention. It is a figure which shows the moisture retention by the moisture retention unit in embodiment of this invention in time series. It is a top view which shows the structure of the cap member in another embodiment of this invention. It is a top view which shows the structure of the cap member in another embodiment of this invention. It is a block diagram which shows the cap member in another one Embodiment of this invention.

  Hereinafter, each embodiment of the fluid ejection device according to the present invention will be described with reference to the drawings. In each drawing used for the following description, the scale of each member is appropriately changed to make each member a recognizable size. In this embodiment, an ink jet printer (hereinafter referred to as a printer) is illustrated as the fluid ejecting apparatus according to the invention.

FIG. 1 is a perspective view illustrating a configuration of a printer 1 according to an embodiment of the present invention.
As shown in FIG. 1, the printer 1 includes a recording head 2 that is a kind of fluid ejecting head, and a carriage 4 on which an ink cartridge 3 is detachably mounted, and a recording paper 6 disposed below the recording head 2. Is configured to include a platen 5 to which the recording paper 6 is conveyed, a carriage moving mechanism 7 for moving the carriage 4 in the paper width direction of the recording paper 6, and a paper feeding mechanism 8 for conveying the recording paper 6 in the paper feeding direction. In addition, the printer 1 includes a control device CONT that controls the operation of the entire printer 1. The paper width direction is the main scanning direction (head scanning direction). The paper feeding direction is a sub-scanning direction (a direction orthogonal to the main scanning direction).

  The ink cartridge 3 is not limited to the cartridge mounted on the carriage 4 as in the present embodiment, but a cartridge mounted on the housing side of the printer 1 and supplied to the recording head 2 via the ink supply tube is employed. May be. The ink cartridge 3 contains ink of different colors such as yellow (Y), magenta (M), cyan (C), and black (Bk). These different color inks are composed of different types of materials for each ink.

  The guide rod 9 is a support member installed in the main scanning direction. The carriage 4 is attached while being supported by the guide rod 9. The carriage 4 is moved in the main scanning direction along the guide rod 9 by a carriage moving mechanism 7. The linear encoder 10 detects the position of the carriage 4 in the main scanning direction. This detection signal is transmitted to the control device CONT as position information. The control device CONT recognizes the scanning position of the recording head 2 based on the position information from the linear encoder 10 and controls the recording operation (ejection operation) and the like by the recording head 2.

FIG. 2 is a diagram illustrating the arrangement of the nozzles 17 provided in the recording head 2 according to the embodiment of the present invention.
As shown in the figure, the recording head 2 has a nozzle forming surface (ejection surface) 21A provided with a plurality of nozzles 17 for ejecting ink. A nozzle row 16 is formed for each of the plurality of nozzles 17 on the nozzle forming surface 21A. In each nozzle row 16, for example, different color inks can be ejected. In this embodiment, four rows (16 (Bk), 16 (M), 16 (C), and 16 (Y)) are provided corresponding to the color of the ink. One nozzle row 16 is composed of, for example, 180 nozzles 17.

FIG. 3 is a partial cross-sectional view showing the internal configuration of the recording head 2 in the embodiment of the present invention.
As shown in the figure, the recording head 2 includes a head main body 18 and a flow path forming unit 22 connected to the head main body 18. The flow path forming unit 22 includes a vibration plate 19, a flow path substrate 20, and a nozzle substrate 21, and forms a common ink chamber 29, an ink supply port 30, and a pressure chamber 31. Further, the flow path forming unit 22 includes an island portion 32 that functions as a diaphragm portion, and a compliance portion 33 that absorbs pressure fluctuation in the common ink chamber 29. The head main body 18 is formed with an accommodation space 23 for accommodating the drive unit 24 together with the fixing member 26, and an internal flow path 28 for guiding ink to the flow path forming unit 22.

  According to the recording head 2 configured as described above, when a drive signal is input to the drive unit 24 via the cable 27, the piezoelectric element 25 expands and contracts. As a result, the diaphragm 19 is deformed (moved) in a direction toward and away from the cavity. For this reason, the volume of the pressure chamber 31 changes and the pressure of the pressure chamber 31 containing ink fluctuates. Ink is ejected from the nozzles 17 due to this pressure fluctuation.

  Returning to FIG. 1, a home position serving as a scanning start point of the recording head 2 is set in an area outside the platen 5 in the moving range of the recording head 2. A moisturizing unit 11 is provided at this home position. The moisturizing unit 11 surrounds the nozzle forming surface 21A of the recording head 2 with the cap member 12, and is configured to prevent evaporation of the ink solvent. The moisturizing unit 11 is arranged so as to surround the nozzle forming surface 21A of the recording head 2 during the standby time of the printing process and the power-off time, for the following reason. After a printing process or a flushing process (a process of ejecting a predetermined amount of ink from the nozzle 17 to remove the thickened ink and the like separately from the printing process), etc., ink droplets adhered to the nozzle forming surface 21A and the nozzle 17 inside. May remain. In this case, when the adhered ink droplets are dried and thickened, the nozzles 17 are blocked, which may cause ejection failure. Therefore, the moisturizing unit 11 surrounds the nozzle forming surface 21A of the recording head 2 during the printing process standby time and power-off time so that the ink droplets attached to the nozzle forming surface 21A and the like are not dried.

Next, with reference to FIG.4 and FIG.5, the characteristic structure of the moisture retention unit 11 in this embodiment is demonstrated.
FIG. 4 is a configuration diagram showing the moisturizing unit 11 in the embodiment of the present invention.
FIG. 5 is a plan view showing the configuration of the cap member 12 in the embodiment of the present invention.

  The cap member 12 has a substantially bowl shape that opens on the side facing the recording head 2. The opening edge portion of the cap member 12 is formed of an elastic member such as a rubber member, and is configured to be able to form the moisturizing space S by contacting the recording head 2 or the carriage 4 so as to surround the nozzle forming surface 21A. ing. The cap member 12 is configured to be movable in the vertical direction by a lifting device (not shown). As the lifting device, for example, a known lifting means such as a mechanism in which a motor and a screw screw are combined, a cam mechanism, a rack and pinion mechanism, or the like can be used.

A partition 13 is provided inside the cap member 12 of the present embodiment (see FIGS. 4 and 5). The partition 13 is erected at a predetermined height from the bottom portion of the cap member 12 and bisects the bottom portion, so that the first storage portion 14A and the second storage portion 14A store liquids having different volatility (humidity retention liquid (described later)). A reservoir 14B is formed.
The first reservoir 14A and the second reservoir 14B are provided with an absorbent material 15 that absorbs liquid. As the absorbent material 15, for example, an arbitrary member capable of absorbing and holding a liquid such as urethane, PVA (polyvinyl alcohol) sponge, and nonwoven fabric can be used. Further, the liquid stored in the first storage part 14A and the second storage part 14B can be removed by suction from each bottom by the pump 40, and the liquid suctioned and removed by the pump 40 is transferred to the waste liquid tank 41. It has become.

The moisturizing unit 11 includes a first moisturizing liquid supply device 50 that supplies a moisturizing liquid (hereinafter referred to as a first moisturizing liquid L1) having higher volatility than water to the first reservoir 14A.
The first moisturizing liquid supply device 50 stores the first moisturizing liquid tank 51 for storing the first moisturizing liquid L1 and the first moisturizing liquid L1 stored in the first moisturizing liquid tank 51 toward the first reservoir 14A. And a pump 52 for pumping.
The first moisturizing liquid tank 51 of the present embodiment stores ethanol having higher volatility than water as the first moisturizing liquid L1.

The moisturizing unit 11 includes a second moisturizing liquid supply device 60 that supplies a moisturizing liquid having a lower volatility than the first moisturizing liquid L1 (hereinafter referred to as a second moisturizing liquid L2) to the second reservoir 14B.
The second moisturizing liquid supply device 60 stores the second moisturizing liquid tank 61 for storing the second moisturizing liquid L2, and the second moisturizing liquid L2 stored in the second moisturizing liquid tank 61 toward the second reservoir 14B. And a pump 62 for pumping.
The second moisturizing liquid tank 61 of the present embodiment stores water having a lower volatility than the first moisturizing liquid L1 (including a liquid obtained by adding a preservative to pure water) as the second moisturizing liquid L2.

Next, with reference to FIG. 6, a description will be given of a moisturizing operation by the moisturizing unit 11 configured as described above and its operational effects.
FIG. 6 is a diagram showing time-series moisturization by the moisturizing unit 11 in the embodiment of the present invention. In the figure, the illustration of the absorbent 15 is omitted to improve visibility. Moreover, in the same figure, a white dot shows the volatile component of 1st moisturizing liquid L1, and a black dot shows the volatile component of 2nd moisturizing liquid L2.

The moisturizing unit 11 raises the cap member 12 to form the moisturizing space S in order to keep the recording head 2 located at the home position moisturized.
Then, the moisturizing unit 11 gives a command to the first moisturizing liquid supply device 50, drives the pump 52 to pump the first moisturizing liquid L1 from the first moisturizing liquid tank 51, and supplies the first moisturizing liquid 14A to the first reservoir 14A. Supply liquid L1. At the same time, the moisturizing unit 11 gives a command to the second moisturizing liquid supply device 60 to drive the pump 62 to pump the second moisturizing liquid L2 from the second moisturizing liquid tank 61 and to the second reservoir 14B. Supply moisturizing liquid L2.

  As shown in FIG. 6A, the first moisturizing liquid L1 (ethanol) stored in the first reservoir 14A is more volatile than the second moisturizing liquid L2 (water) stored in the second reservoir 14B. Therefore, it volatilizes more than the second moisturizing liquid L2, and the volatile component quickly fills the moisturizing space S and makes it saturated. Thereby, it is possible to quickly prevent the solvent of the ink droplets adhering to the nozzle forming surface 21A of the recording head 2 from volatilizing in the moisture retention space S.

As shown in FIG. 6B, when a predetermined time has elapsed from the start of moisturizing, the second moisturizing liquid L2 also volatilizes, and the volatile component of the first moisturizing liquid L1 and the volatile component of the second moisturizing liquid L2 cooperate. The moisture retaining space S is filled and saturated.
In addition, since the 1st moisturizing liquid L1 has higher volatility than the 2nd moisturizing liquid L2, the decrease over time is more severe than the second moisturizing liquid L2.

  As shown in FIG. 6C, when a further time elapses from the start of moisturizing, the first moisturizing liquid L1 is volatilized and disappears completely, and the volatile component of the second moisturizing liquid L2 fills the moisturizing space S and is saturated. To maintain. Since the second moisturizing liquid L2 is less volatile than the first moisturizing liquid L1, the moisturizing space S can be maintained in a saturated state for a long period of time.

  Therefore, according to the above-described embodiment, the recording head 2 that ejects the ink and the nozzle forming surface 21A to which the ink adheres are formed to form the moisturizing space S, and a predetermined liquid is supplied in the moisturizing space S. A printer 1 having a moisturizing unit 11 that volatilizes and moisturizes the nozzle forming surface 21A. The moisturizing unit 11 is a first moisturizing liquid having higher volatility than water as the predetermined liquid in the moisturizing space S. By adopting the configuration of having the first moisturizing liquid supply device 50 for supplying the liquid L1, the inside of the moisturizing space S can be quickly saturated, and problems due to ink thickening can be prevented quickly. .

  In the present embodiment, the moisturizing unit 11 has the second moisturizing liquid L2 having a lower volatility than the first moisturizing liquid L1 in addition to the first moisturizing liquid L1 as the predetermined liquid in the moisturizing space S. By adopting the configuration of having the second moisturizing liquid supply device 60 that supplies water, the first moisturizing liquid L1 having higher volatility than water is supplied into the moisturizing space S and volatilized, so that the moisturizing space. The inside of S can be quickly saturated, and further, the second moisturizing liquid L2 having a lower volatility than the first moisturizing liquid L1 can be supplied into the moisturizing space S and volatilized for a long period of time. Thus, the saturated state in the moisturizing space S can be maintained. That is, since only the first moisturizing liquid L1 is volatilized and disappears immediately, it is difficult to maintain the inside of the moisturizing space S in a saturated state for a long time, but this is more volatile than the first moisturizing liquid L1. By supplementing with the low second moisturizing liquid L2, it is possible to achieve both the immediate effect of quickly saturating the moisturizing space S and the sustainability of maintaining the saturated state of the moisturizing space S over a long period of time. it can.

  In the present embodiment, the moisturizing unit 11 includes a first reservoir 14A that stores the first moisturizing liquid L1 in the moisturizing space S, and a second reservoir that stores the second moisturizing liquid L2 in the moisturizing space S. By adopting the configuration of having the storage portion 14B, mixing of the first moisturizing liquid and the second moisturizing liquid can be prevented and volatilized at the same time. Moreover, according to this structure, since the 1st moisturizing liquid L1 and the 2nd moisturizing liquid L2 do not mix, the fall of volatility by mixing ethanol with water can be suppressed.

  As mentioned above, although preferred embodiment of this invention was described referring drawings, this invention is not limited to the said embodiment. Various shapes, combinations, and the like of the constituent members shown in the above-described embodiments are examples, and various modifications can be made based on design requirements and the like without departing from the gist of the present invention.

For example, in the above-described embodiment, the moisturizing unit that moisturizes the scanning head has been described. However, the present invention may be applied to a moisturizing unit that moisturizes the fixed line head.
Since the line head has a configuration in which a plurality of nozzles are arranged in the paper width direction, in order to form a moisturizing space that collectively encloses the nozzle formation surface of the line head, the line head in the paper width direction as shown in FIG. It is preferable to use a cap member 12 that extends. The cap member 12 of FIG. 7 has a configuration in which the first storage portion 14A and the second storage portion 14B extend in parallel in the longitudinal direction of the line head. When moisturizing the line head, the moisturizing space extends in the longitudinal direction. If the first reservoir 14A and the second reservoir 14B extend in parallel in the extending direction, Compared with the arrangement shown in FIG. 5, it is possible to reduce variations in time to reach a saturated state in the extending direction.
In addition, as a structure of the cap member 12, a structure as shown in FIG. 8 may be sufficient. In the cap member 12 of FIG. 8, a part of the first storage part 14A and a part of the second storage part 14B are alternately arranged in the moisturizing space. More specifically, the extending portions 14A1 of the first storage portion 14A and the extending portions 14B1 of the second storage portion 14B are alternately arranged in the direction orthogonal to the longitudinal direction. According to this configuration, since the volatilization region of the first moisturizing liquid and the volatilization region of the second moisturizing liquid are alternately arranged, it is possible to further reduce variation in time to reach the saturated state in the moisturizing space.

In the above-described embodiment, ethanol is used as the first moisturizing liquid having higher volatility than water, but the present invention is not limited to this configuration.
For example, as the first moisturizing liquid, alcohols such as methanol and propanol, ethers such as diethyl ether and THF (tetrahydrofuran), ketones such as acetone and MEK (methyl ethyl ketone), saturated hydrocarbons such as pentane and hexane, and the like are used. Can do.
In addition, since polar solvents, such as alcohol, ether, and ketone, are easy to melt | dissolve in water, it is preferable to employ | adopt the form which isolate | separated the 1st storage part and the 2nd storage part like this embodiment.
On the other hand, since nonpolar solvents such as pentane and hexane are difficult to dissolve in water, they may be stored in common with water without providing the first reservoir and the second reservoir. As shown in FIG. 9, when the first moisturizing liquid L1 is smaller in specific gravity than the second moisturizing liquid L2 (water), the first moisturizing liquid L1 is separated so as to face the moisturizing space. Can volatilize only the first moisturizing liquid L1 to quickly saturate the moisturizing space, and if the first moisturizing liquid L1 is not volatilized, the lower second moisturizing liquid L2 becomes the moisturizing space. By facing and volatilizing, a saturated state can be maintained.

In the above-described embodiment, the case where the first moisturizing liquid and the second moisturizing liquid are supplied to the moisturizing space in the same amount has been described. However, the first moisturizing liquid represented by ethanol is more expensive than water. There is a configuration in which the supply amount of the first moisturizing liquid is smaller than the supply amount of the second moisturizing liquid because the effect is immediate effect for forming a saturated state of the moisturizing space at the start of moisturizing. .
Further, since the time during which the moisturizing space is saturated depends on the humidity of the outside air, the moisturizing unit may be configured to adjust the supply amount of the first moisturizing liquid according to this humidity. For example, the moisturizing unit may be configured to control the supply amount of the first moisturizing liquid when the humidity is 90% to be smaller than the supply amount of the first moisturizing liquid when the humidity is 50%.

  In the above-described embodiment, the description has been given with the nozzle formation surface raised as a moisture retention target (fluid adhesion portion) of the moisture retention unit. For example, a preliminary recording head as shown in the prior art document (Japanese Patent Application Laid-Open No. 2009-101634). The cap member that receives the discharge, the cap member that forcibly sucks ink from the nozzle, and the wiper that wipes the nozzle forming surface may be combined to keep the moisture.

Moreover, although the case where the first moisturizing liquid and the second moisturizing liquid are supplied at the same timing has been described in the above embodiment, the present invention is not limited to this configuration.
For example, in the control device CONT, the timing of supplying the first moisturizing liquid to the moisturizing space and the timing of supplying the second moisturizing liquid to the moisturizing space are different from each other. The structure which controls the drive of a supply apparatus may be sufficient.
According to this configuration, the first moisturizing liquid is consumed more rapidly by volatilization than the second moisturizing liquid. Therefore, if two types of moisturizing liquids having different volatility can be supplied at different timings, the humidity inside the moisturizing space can be reduced. Accordingly, the humidity can be controlled. For example, it is possible to increase the humidity increase rate of the moisturizing space by additionally supplying the first moisturizing liquid separately at a predetermined timing in a state where only the second moisturizing liquid is volatilized.

  In the above-described embodiment, the case where the fluid ejecting apparatus is a fluid ejecting apparatus that ejects a fluid (liquid material) such as ink has been described as an example. However, the fluid ejecting apparatus according to the present invention is not limited to ink. The present invention can be applied to a fluid ejecting apparatus that ejects or discharges another fluid. The fluid that can be ejected by the fluid ejecting apparatus includes a fluid, a liquid material in which particles of a functional material are dispersed or dissolved, and a gel-like fluid.

Further, the fluid ejecting apparatus may be a fluid ejecting apparatus that ejects a bio-organic matter used for biochip manufacturing, or a fluid ejecting apparatus that ejects a fluid that is used as a precision pipette and serves as a sample.
In addition, transparent resin liquids such as UV curable resins to form fluid injection devices that inject lubricating oil onto precision machines such as watches and cameras, micro hemispherical lenses (optical lenses) used in optical communication elements, etc. May be a fluid ejecting apparatus that ejects a liquid onto the substrate, a fluid ejecting apparatus that ejects an etching solution such as acid or alkali to etch the substrate, or a fluid ejecting apparatus that ejects gel. The present invention can be applied to any one of these fluid ejecting apparatuses.

  DESCRIPTION OF SYMBOLS 1 ... Printer (fluid ejecting apparatus), 2 ... Recording head (fluid ejecting head), 21A ... Nozzle formation surface (fluid adhesion part), 11 ... Moisturizing unit, 12 ... Cap member, 14A ... 1st storage part, 14A1 ... Extension Existing part (part of the first reservoir), 14B ... second reservoir, 14B1 ... extended part (part of the second reservoir), 50 ... first moisturizer supply device (first moisturizer supply) 60, second moisturizing liquid supply device (second moisturizing liquid supply unit), L1, first moisturizing liquid, L2, second moisturizing liquid, S, moisturizing space.

Claims (7)

A fluid ejecting head that ejects a fluid; and a moisturizing unit that forms a moisturizing space surrounding the nozzle forming surface to which the fluid adheres and that moisturizes the nozzle forming surface by volatilizing a predetermined liquid in the moisturizing space. A fluid ejection device comprising:
The moisturizing unit is
A first moisturizing liquid supply unit configured to supply a first moisturizing liquid having higher volatility than water as the predetermined liquid in the moisturizing space;
In the moisturizing space, a second moisturizing liquid supply unit for supplying a second moisturizing liquid having a lower volatility than the first moisturizing liquid in addition to the first moisturizing liquid as the predetermined liquid. A fluid ejecting apparatus.   The fluid ejecting apparatus according to claim 1, wherein the first moisturizing liquid is ethanol.   The fluid ejecting apparatus according to claim 1, wherein the second moisturizing liquid is water.   The moisturizing unit has a first reservoir for storing the first moisturizing liquid in the moisturizing space, and a second reservoir for storing the second moisturizing liquid in the moisturizing space. The fluid ejection device according to any one of claims 1 to 3. The moisturizing space extends in a predetermined direction,
The fluid ejection device according to claim 4, wherein the first reservoir and the second reservoir extend in parallel in the predetermined direction.   6. The fluid ejecting apparatus according to claim 4, wherein at least a part of the first storage part and at least a part of the second storage part are alternately arranged in the moisturizing space. .   The first moisturizing liquid supply unit and the second moisturizing liquid supply unit are configured such that the timing for supplying the first moisturizing liquid to the moisturizing space and the timing for supplying the second moisturizing liquid to the moisturizing space are different. The fluid ejecting apparatus according to claim 1, further comprising: a control device that controls driving of the fluid.

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