CN100408199C - Liquid-like body-jetting adapter and liquid-like body feeder/container - Google Patents

Abstract

A liquid-like body-jetting adapter that is connected to a nozzle of compressed gas-feeding means, such as an air gun, and used for jetting a liquid-like body using a compressed gas from the compressed gas-feeding means. A liquid-like body-jetting adapter (2) that can be connected to a nozzle (101) of compressed gas-feeding means (100) is constituted of a connection mouth (4) removably connected to the nozzle (101), a liquid-like body nozzle portion (5) for jetting a liquid-like body, a liquid-like body container connection mouth(6) to which a liquid container (3) where the liquid-like body is received can be removably connected, a communication passage (7) communicating between the connection mouth (4) and the liquid-like body nozzle portion (5), and a liquid-like body-feeding passage (8) communicating between the communication passage (7) and the liquid container connection mouth (6), the liquid-like body-feeding passage being capable of sucking the liquid-like body in the liquid container (3) when a compressed gas is circulated in the communication passage.

Description

Liquid spray adaptor and liquid are supplied with liquid reservoir

Technical field

The present invention relates to be used to spray multiple liquid, for example cleaning solution, coating, paint solution, blowing agent, antirust agent and rust blackening liquid (rust-blackening liquid), and the liquid ejector tool of multiple oil in addition, multiple water or the aqueous solution.Particularly, the present invention relates to a kind of liquid spray adaptor, described liquid spray adaptor be connected to air cannon etc. the Compressed Gas feedway nozzle and utilize wherein Compressed Gas atomizing of liquids, and relate to and a kind ofly supply with liquid reservoir for this liquid spray adaptor provides the liquid of liquid.

Background technology

At present, in factory such as for example machine-building factory, plastics forming factory, Auto repair shop and industrial plants, the aerosol container that includes multiple liquid has obtained using widely.Although it is very easy to use that such aerosol container can carry out the liquid injection simply and have good portability, the aerosol container of using need be handled.In addition, handling aspect the aerosol container recently, the removal fully of seeking content, thus the aerosol container with mistake to a large amount of generations is treated as a problem in factory etc.

Therefore, the invention provides the liquid ejector tool that a kind of conduct can replace the new liquid ejector of aerosol container, described liquid ejector tool be connected to the Compressed Gas feedway for example air cannon etc. nozzle and utilize wherein Compressed Gas atomizing of liquids.

In the prior art, the liquid ejector tool of a kind of spray gun (the flat 11-28394 of Japanese Patent Application Laid-Open) of the sealing that is made of the resinousness wrinkle container that is used to spray with the container for paint of spray gun as this type disclosed; Yet its structure is different with liquid ejector tool of the present invention.

Summary of the invention

The present invention is directed to a kind of no matter homework type and be installed in a plurality of factories, industrial plants etc., for example plastics forming factory and Auto repair shop, in the Compressed Gas feedway of air cannon etc., and developed a kind of liquid ejector tool, thereby described liquid ejector tool has utilized directly existing Compressed Gas feedway to spray multiple liquid simply.

That is to say, liquid ejector tool of the present invention be provided be connected to the Compressed Gas feedway for example air cannon etc. nozzle and utilize the liquid spray adaptor of Compressed Gas atomizing of liquids wherein and supply with liquid reservoir for this liquid spray adaptor provides the liquid of liquid.

The aforesaid liquid spray adaptor is characterised in that, be provided with the interface on the nozzle that can be detachably connected to the Compressed Gas feedway, the liquid jet nozzle of atomizing of liquids, the liquid that can removably link receiving fluids is supplied with the liquid reservoir binding mouth of liquid reservoir, the communication paths that is communicated with interface and liquid jet nozzle, with be communicated with the liquid supply passageway that described communication paths and liquid reservoir link mouthful, described liquid supply passageway can imbitition when Compressed Gas flows be supplied with the liquid in the liquid reservoir in communication paths.

Aforesaid liquid supply with liquid reservoir (also can be known as " liquid reservoir ") be provided with one can receiving fluids and inflatable contractile reservoir part and one link mouth/liquid supply port, and it is characterized in that, a kind of structure is provided, wherein when aspirate by linking mouth/liquid supply port reservoir part inside, internal liquid is sent from linking mouth/liquid supply port, and reservoir part is shunk.

Because liquid ejector tool of the present invention is provided with above-mentioned structure, therefore on the nozzle of the Compressed Gas feedway by being connected to the air cannon that is installed in most of factories and the industrial plants etc., described liquid ejector can spray multiple liquid and can be by extremely cheap and use easily simply.In addition, if liquid is supplied to liquid reservoir, it can forever be used so.In addition, also might spray different liquid, the handling problem that can solve aerosol container simultaneously by changing liquid reservoir.In addition, owing to use from the Compressed Gas feedway Compressed Gas of air cannon for example, therefore compare with aerosol container, liquid ejector tool of the present invention can be used to wider range of application, and liquid ejector prodigiosin for example of the present invention is enough in aerosol container atomizing of liquids more strong.

Notice in the present invention, " Compressed Gas feedway " is intended to comprise various any equipment or the instrument (also can be known as " Compressed Gas supply arrangement or instrument ") of supplying with Compressed Gas, for example compressor, pump, air cannon and spray gun, and its " nozzle " for spraying the leading section by the spraycan of Compressed Gas supply arrangement or instrument compressed and supplied gas, for example the nozzle of air cannon etc. etc.

" air cannon " is a kind of compressed-air actuated spraycan that sprays from compressor etc., " air cannon " is typically provided with grip part, trigger, nozzle, pneumatic fitting etc., and be arranged so that compressed air is admitted to from pneumatic fitting, and compressed air sprayed from nozzle by the operation trigger.Be provided with the so-called spray gun that is connected to the joint that contains liquid such as coating or be connected to flexible pipe and by the liquid that blowing out pressurised air sprays from nozzle liquid such as coating atomized, described spray gun also is one type a air cannon; And in this example, must be provided with a kind of compressed air that only allows and pass through to wait the structure of switch valve from the nozzle ejection.

In the present invention, " liquid " is included in employed multiple liquid in the various application, and does not consider its form, for example cleaning solution, coating, paint solution, blowing agent, antirust agent and rust blackening liquid, and multiple oil in addition, multiple water or the aqueous solution.

" can (removably) be connected on the nozzle of Compressed Gas feedway " comprises that all can link and the syndeton that Compressed Gas leaks do not take place, and for example comprising in addition can be by structure that is threaded and the structure that is connected by accessory, and for example is pressed against the structure that makes Compressed Gas can not spill on the interface to connect etc. by the nozzle with the Compressed Gas feedway.

Description of drawings

Fig. 1 is the side view that is broken down into the liquid spray adaptor example of adapter main body and liquid reservoir according to an embodiment of the invention, also shows air cannon among the figure;

Fig. 2 is the cross-sectional view strength of adapter main body shown in Figure 1;

Fig. 3 shows the amplification cross-sectional view strength of adapter main body relevant portion, there is shown a modified example of the smaller-diameter path of communication paths;

Fig. 4 be show for the coupling position that liquid supply passageway and communication paths are described Compressed Gas in communication paths the cross-sectional view strength that flows and the amplification cross-sectional view strength of adapter main body relevant portion;

Fig. 5 shows the amplification cross-sectional view strength of adapter main body relevant portion, there is shown a modified example that links the liquid supply passageway;

Fig. 6 is the side view of liquid reservoir shown in Figure 1;

Fig. 7 is the side view of the effect of explanation liquid reservoir shown in Figure 6;

Fig. 8 is the partial cross-section side view that the method for the described according to one embodiment of present invention liquid spray adaptor of a kind of use example is shown;

Fig. 9 show be in decomposing state according to liquid of the present invention supply with liquid reservoir an example, liquid spray adaptor example and as the side view of the air cannon of an example of Compressed Gas feedway;

Figure 10 shows the amplification cross-sectional view strength that the liquid that is in decomposing state is supplied with the relevant portion of liquid reservoir and liquid spray adaptor linking portion;

Figure 11 shows the amplification cross-sectional view strength that the liquid that is in assembled configurations is supplied with the relevant portion of liquid reservoir and liquid spray adaptor linking portion;

Figure 12 shows the amplification cross-sectional view strength of relevant portion of configuration example that the liquid that is in decomposing state is supplied with the binding mouth/liquid supply port of liquid reservoir;

Figure 13 shows the enlarged perspective of relevant portion of configuration example that the liquid that is in decomposing state is supplied with the binding mouth/liquid supply port of liquid reservoir;

Figure 14 shows the partial cross-section view that liquid shown in the Fig. 9 that is in user mode is supplied with liquid reservoir and liquid spray adaptor;

Figure 15 is the side view that liquid is supplied with a modified example of liquid reservoir;

Figure 16 is the top view that liquid shown in Figure 15 is supplied with liquid reservoir;

Figure 17 is that liquid shown in Figure 15 is supplied with the side view that liquid reservoir is in an example of user mode;

Figure 18 shows the cross-sectional view strength according to an example of liquid spray adaptor of the present invention;

Figure 19 shows that inventor research and development and the liquid that be not disclosed that is in decomposing state is supplied with example of liquid reservoir and liquid spray adaptor and as the side view of the air cannon of an example of Compressed Gas feedway when submitting the application to;

Figure 20 shows the cross-sectional view strength of a modified example of liquid reservoir;

Figure 21 is the partial cross-section side view of the connecting structure of liquid reservoir shown in Figure 20 and liquid spray adaptor;

Figure 22 shows the cross-sectional view strength of a modified example of liquid reservoir;

Figure 23 is the cross-sectional view strength that liquid reservoir shown in Figure 22 is in an example of user mode;

Figure 24 is the cross-sectional view strength of a configuration example of liquid reservoir shown in Figure 23;

Figure 25 shows the composed component as another configuration example of liquid spray adaptor of the present invention, i.e. the front view of liquid spray adaptor, left and right sides view, top view and upward view;

Figure 26 is the cross-sectional view strength along Figure 25 center line A-A;

Figure 27 shows the composed component as another configuration example of liquid spray adaptor of the present invention, i.e. the surperficial cross section external view of half of liquid reservoir; With

Figure 28 is the amplification cross-sectional view strength of linking portion when liquid reservoir shown in Figure 27 is installed on the liquid spray adaptor shown in Figure 25.

The specific embodiment

Below, embodiments of the invention are described; Yet the present invention is not limited by the examples.

Liquid ejector tool of the present invention comprises liquid spray adaptor and liquid supply liquid reservoir, and it all can form according to following described mode.

The liquid spray adaptor

Liquid spray adaptor of the present invention as described above is provided with the interface on the nozzle that can be detachably connected to the Compressed Gas feedway, the liquid jet nozzle of atomizing of liquids, the liquid that can removably link receiving fluids is supplied with the liquid reservoir binding mouth of liquid reservoir, be communicated with the communication paths of interface and liquid jet nozzle and be communicated with described communication paths and the liquid supply passageway of liquid reservoir binding mouth.

In above structure, " communication paths and liquid supply passageway " preferably has following structure, and wherein when Compressed Gas flowed in communication paths, the liquid in the liquid reservoir was inhaled in the communication paths by the liquid supply passageway.For example its concrete structure can be shaped arbitrarily, described structure makes step portion be set on the mid portion of communication paths, the interface side of step portion is a smaller-diameter path, the liquid jet nozzle side of step portion is the larger-diameter path of diameter greater than smaller-diameter path, and forms connection near the step portion of liquid supply passageway in larger-diameter path.Utilize this structure, flow in communication paths by making compressed air, allow liquid to eject from the liquid jet nozzle, the liquid in the liquid reservoir can be inhaled in the communication paths by the liquid supply passageway.

Notice, in this case, mean a scope near the step portion as described below, make when the Compressed Gas that flows through smaller-diameter path enters in the larger-diameter path and spreads, this diffusion produces negative pressure.

The injection adjustment means that can regulate emitted dose, spray configuration etc. can be connected to the described liquid jet nozzle of the described liquid spray adaptor with above-mentioned structure.Owing to can use the injection adjustment means that emitted dose, spray configuration etc. is regulated, therefore, it is easy to use more, thereby has further enlarged its range of application.

In addition, can be provided with can the described liquid supply passageway of break-make selector switch, and if be provided with this selector switch, so just can freely change the injection of liquid and gases at high pressure, thereby further strengthen its workability.

Liquid is supplied with liquid reservoir

Liquid is supplied with the liquid reservoir binding mouth that liquid reservoir (being also called " liquid reservoir ") is linked to the liquid spray adaptor that is provided with above-mentioned structure.Though especially its structure is not limited, but for example preferably those liquid that are provided with a kind of structure are supplied with liquid reservoir structure, wherein be provided with one can receiving fluids and inflatable contractile reservoir part and one link mouth/liquid supply port (also can be known as " linking mouth "), and when reservoir part inside when described binding mouth aspirates, internal liquid is sent from linking mouth, and reservoir part is shunk.

If liquid reservoir is provided with this structure, can link mouth and make Compressed Gas flow into this communication paths from the Compressed Gas feedway by the liquid reservoir that is linked to the liquid spray adaptor simply so, the liquid that is held ejects from the liquid jet nozzle by the communication paths of liquid spray adaptor.In addition, because this structure makes that the liquid reservoir main body is shunk when drawing, so the liquid reservoir main body does not need to be provided with pore; Therefore, when using liquid reservoir at any angle, atomizing of liquids similarly so just can be inverted and use liquid reservoir.

In being provided with the liquid reservoir of above-mentioned structure, preferably, the described opening that links mouth can be opened inaccessible.

If in liquid is housed liquid reservoir brought and taken because reservoir part is inflatable contractile, therefore exist reservoir part to shrink, simultaneously the possibility that from link mouthful, spills of liquid.In addition, when liquid reservoir being linked to liquid supply adapter, unless very operate carefully, otherwise exist reservoir part to shrink, the possibility that while liquid spills from link mouth.Therefore, if linking the opening of mouth as mentioned above can open inaccessible, so because the opening of binding mouth is inaccessible in the normal state, even if therefore reservoir part is shunk, liquid can not leak yet, by opening obstruction as required, liquid can be supplied to liquid and supply with adapter simultaneously.Can also prevent simultaneously the volatilization of liquid.In addition, under the state of the described opening obturation that links mouthful, if for example liquid reservoir is linked to liquid and supplies with adapter, and Compressed Gas ejects from air cannon, so only make compressed gas flow just become possibility, thereby the inside of communication paths and liquid supply passageway is cleaned by the inside of communication paths and liquid supply passageway in the liquid supply adapter.

Do not limit especially being used for to open the inaccessible described structure that links the opening of mouth in ground.For example, can open the inaccessible described opening in ground by closing plastic sheet, film etc. (promptly by covering thin parts).In this case, though plastic sheet, film etc. can be integrally formed with liquid reservoir, described structure can also be the body that separates of the plastic sheet that covers described opening, film etc.

In addition, described binding mouth can also a kind of like this mode constitute, it is the described binding mouthful openable cover body that can removably attached its end face be formed, for example a kind of cover body, its top thickness approaches and is formed and can opens, and the described opening that links mouth can be opened the ground obturation by putting on this cover body.Yet, because this structure must be able to make that liquid reservoir can be connected with the liquid reservoir binding mouth of liquid spray adaptor when this cover body has worn and torn, therefore be necessary to provide a kind of liquid reservoir to link the structure that mouth is connected, for example on the outer peripheral face of described cover body, spiral part be set with the liquid spray adaptor.

If as previously described, the cover body that this structure makes shaping have openable end face is worn, and so owing to the obturation that can form described opening by the replacing cover body again, so the main body of liquid reservoir can be repeated to use.In addition, when described use has the purpose of above-mentioned clean adapter inside since needed be the described cover bodies of wearing and tearing, therefore be extremely simple.

Notice, although having the liquid reservoir of this structure also can be used by being connected with the liquid spray adaptor that is provided with liquid reservoir binding mouth, described liquid reservoir links a mouthful device that does not have the obturation of the binding mouth that is used to open on the liquid reservoir, but from the viewpoint that prevents to take place when linking to leak, it is preferred being connected with the liquid spray adaptor of the device of the obturation that is provided with the binding mouth that is used to open on the liquid reservoir.Particularly, preferably a kind of liquid spray adaptor, pointed siphon goes out portion before being provided with in the wherein said liquid reservoir binding mouth, and the inside of described protuberance has the liquid supply passageway.In this case, tubular outstanding quality award from the ministry choosing is arranged on and links in the recess.

Link mouth if liquid reservoir of the present invention is linked to the liquid reservoir of the liquid spray adaptor that is provided with this structure, so because the binding mouth of described liquid reservoir all is inaccessible when linking, so liquid that can not leaks out; In addition, owing to can therefore providing the supply possibility of liquid by when linking, tearing the obturation of opening liquid reservoir binding mouth with tubular protuberance to the liquid spray adaptor.

Example

Below, with reference to the accompanying drawings embodiments of the invention are described, yet, the invention is not restricted to these embodiment.

[embodiment 1]

As shown in Figure 1, liquid ejector tool 1 according to an embodiment of the invention is on a kind of nozzle 101 that is connected to air cannon 100 and is provided with the utensil of liquid spray adaptor 2 and liquid reservoir 3.

Liquid spray adaptor 2 shown in Figure 2 is provided with the interface 4 on the nozzle 101 that can be detachably connected to air cannon 100, the liquid jet nozzle 5 of atomizing of liquids, the liquid reservoir that can removably link liquid reservoir 3 links mouth 6, be communicated with the communication paths 7 of described interface 4 and described liquid jet nozzle 5 and be communicated with described communication paths 7 and the liquid supply passageway 8 of described liquid reservoir binding mouth 6.

The material of adapter main body part 2A that constitutes the main body of liquid spray adaptor 2 is not particularly limited and for example can be made by synthetic resin such as thermoplastic resin and thermosetting resin or metal, rubber, elastomer (having certain flexible resin) etc.

Also might be by integrally moulded shapings such as synthetic resin, metals; Yet, without limits to integrally moulded shaping.Under the situation of current embodiment, synthetic resin is injected into shape, and in the prismatic main part 2A of heavy wall, interface 4, liquid jet nozzle 5, liquid reservoir link mouth 6, communication paths 7 and liquid supply passageway 8 and be molded into one.Yet, in interface 4, liquid jet nozzle 5, liquid reservoir binding mouth 6, communication paths 7 and the liquid supply passageway 8 one or two or a plurality of can formation by the material that is different from main part 2A, and can be fixed to main part 2A subsequently upward to form one.

Notice that the shape of main part 2A is arbitrarily, and the rectangle that can be shaped, cylindrical, taper substantially, rectangular tubular, tubular or any other shape.

Interface 4 is formed, and makes interface 4 with detachable and can keep bubble-tight mode can be linked to the nozzle 101 of air cannon 100.For example, under the situation of current embodiment, protrude in the protuberance 2a of main part 2A by setting, on the outer peripheral face of protuberance 2a, be shaped and be screwed to threaded portion 4a on the threaded portion in the inner peripheral surface that is arranged on nozzle 101, simultaneously an opening 4b who is connected with communication paths 7 is set in protuberance 2a, thereby constructs interface 4.

As shown in Figure 2, liquid jet nozzle 5 can have the structure of directly opening or can different with it sizes being shaped arbitrarily and with the size of communication paths 7 (particularly, as described below larger-diameter path 7B).For example, it can be shaped by the shape and size according to its opening of shape appropriate change of atomizing of liquids.In addition, permission can also be set arbitrarily open barrier film mechanism with inaccessible opening, so that can regulate emitted dose, spray configuration etc.In addition, it for example can be shaped to be connected with other adapter with the injection adjustment means that can regulate emitted dose, spray configuration etc. by form threaded portion on the inner peripheral surface of described opening etc. or outer peripheral face.

By protuberance 2b is set on the bottom surface of main part 2A, in protuberance 2b, be provided with and insert the recess 6a that links mouth 14, and the threaded portion that can be screwed on the threaded portion that links mouth 14 is being set on the inner peripheral surface of recess 6a, and liquid reservoir links mouth 6 can be by indentation.Yet, can adopt to keep bubble-tight any connecting structure on the binding mouth 14 that can removably be attached to liquid reservoir 3 simultaneously.It can be shaped by be embedded in the cover body that is provided with threaded portion on the inner peripheral surface in recess 6a.

Communication paths 7 is shaped as the space of the hollow that is communicated with described interface 4 and described liquid jet nozzle 5.Particularly, as shown in Figure 2, communication paths 7 is shaped by in the pars intermedia office step portion 7C being set, 4 sides that connect of described step portion 7C are to comprise to have the more smaller-diameter path 7A of the hollow space of minor diameter, and liquid jet nozzle 5 sides of described step portion 7C are the larger-diameter path 7B that comprises the hollow space with larger diameter.

In this case, the size of step portion 7C, promptly the diameter difference between smaller-diameter path 7A and the larger-diameter path 7B preferably is about 5 millimeters or bigger.

As shown in Figure 3, smaller-diameter path 7A can by from the opening 4b of interface 4 gradually stenosis become minor diameter to be shaped.

Liquid supply passageway 8 is configured, and makes liquid supply passageway 8 be communicated with communication paths 7 and links mouth 6 with the liquid reservoir that is approximately perpendicular to described communication paths 7.Particularly, form near the described step portion 7C of described liquid supply passageway 8 in described larger-diameter path 7B and be communicated with, and when Compressed Gas flows, produce negative pressure in the liquid supply passageway 8, and the liquid in the liquid reservoir 3 can be sucked out in communication paths 7.

Notice, under the situation of present embodiment, connect the mode that the inner peripheral surface on 4 sides is rinsed, and in step portion 7C environs (thick line part X among the figure) as shown in Figure 4, form and be communicated with stepped surfaces and the liquid supply passageway 8 of step portion 7C.That is to say, when the Compressed Gas that flows through smaller-diameter path 7A enters larger-diameter path 7B and spreads immediately, internal corners zone (dotted portion) scope negative of this diffusing lines S for pressure becomes, and if liquid supply passageway 8 forms connection in this environs (thick line part X among the figure), pressure in the liquid supply passageway 8 becomes negative pressure when Compressed Gas flows in communication paths 7 so, and the liquid in the liquid reservoir 3 can be sucked out.

In this case, the angle [alpha] of supposing diffusing lines S is 45 degree, and this environs (thick line part X among the figure) can be configured to position that the inner peripheral surface than diffusing lines S and larger-diameter path 7B intersects more near the part of step portion 7C so.

In other words, in order to be shaped adapter main body part 2A in the following manner, promptly when compressed gas flow is passed through communication paths 7, liquid in the liquid reservoir 3 is inhaled in the communication paths 7, below a kind of structure be enough, wherein the diameter of communication paths 7 is done greatlyyer than liquid jet nozzle 5 sides by step portion 7C, and liquid supply passageway 8 be attached at step portion 7C in the larger-diameter path 7B of communication paths 7 with enlarged diameter near.

In this case, liquid supply passageway 8 is not particularly limited with the angle of cut that communication paths 7 intersects, and as described above among the embodiment generally perpendicularly or with the arbitrarily angled intersection that is formed obliquely.

The diameter dimension of liquid supply passageway 8 preferably is designed to enough appropriate sizes in order to the liquid in the sucking-off liquid reservoir 3.In general, for example when the diameter of larger-diameter path 7B was roughly 4 millimeters, the internal diameter of liquid supply passageway 8 preferably was roughly 1.5 millimeters.Yet described diameter dimension is not limited to this.

In addition, as shown in Figure 5, liquid supply passageway 8 also can be shaped by pushing in the described hole in main part 2A middle punch and with pipe component 9, in this case, liquid supply passageway 8 also can be shaped, it is outstanding to make that the end of pipe component 9 links in mouthfuls 6 at liquid reservoir, and is linked to liquid reservoir when linking mouthfuls 6 when the binding mouth 14 of liquid reservoir 3, and the end of pipe component 9 penetrates binding mouth 14.

As shown in Figure 6, liquid reservoir 3 forms by keeping liquid and inflatable contractile liquid reservoir main body 11 to be configured.

Liquid reservoir main body 11 is made by synthetic resin and is formed by the body part 12 that is shaped as retractable corrugated shape, linking portion 14 structure that protrudes in the pipe part 13 on the body part 12 and form in the upper end of pipe part 13, and can removably be linked to liquid reservoir and link mouthfuls 6.

Linking portion 14 is shaped with on the threaded portion 6b that can be screwed to liquid reservoir binding mouth 6.

This liquid reservoir 3, in the time of on being linked to liquid reservoir binding mouth 6, state in the body part 12 is a sealing state, but because it is inflatable contractile, therefore contain under the state of liquid when linking portion 14 is drawn in liquid reservoir main body 11, internal liquid flows out from the oral area of linking portion 14, and the body part 12 of liquid reservoir main body 11 shrinks simultaneously, as shown in Figure 7.

In addition, although not shown, because liquid reservoir 3 does not have pore, so liquid reservoir 3 can provide liquid equably for liquid spray adaptor 2, it can use under the arbitrarily angled condition in 360 °, even if for example also can use under the inverted condition of Fig. 7.

Notice that utilize a kind of like this structure of the linking portion 14 that has dismountable cover, when not being used, liquid reservoir 3 also can be used as liquid container.

Below, a kind of method of liquid ejector tool 1 of using is described.

Link on the mouth 6 by the liquid reservoir that linking portion 14 is attached to liquid spray adaptor 2, thereby the liquid reservoir 3 of interior dress liquid is installed on the liquid spray adaptor 2, thereby assemble liquid ejector tool 1.

Then, as shown in Figure 8, when interface 4 is connected on the nozzle 101 of air cannon 100, prepare to spray.

After this, by the trigger 102 of operation air cannon 100, Compressed Gas (compressed air) can eject from nozzle 101.In this case, compressed gas flow blows out by communication paths 7 and from liquid jet nozzle 5, draws the liquid in the liquid reservoir 3 simultaneously, thereby liquid is sprayed from liquid jet nozzle 5.

In this manner, the liquid ejector tool 1 of the application of the invention, use for example air cannon of the Compressed Gas supply arrangement be installed in factory and other industrial plants etc. or instrument, and do not need new clothes to utilize the equipment of pressure emission liquid, liquid can be ejected continuously; In addition, under the arbitrarily angled condition, even if under the inversion condition, liquid can be sprayed equably in 360 °.

[embodiment 2]

The embodiment 2 of liquid ejector tool is configured to by liquid spray adaptor 20 and liquid reservoir 31, as shown in Figure 9.

Liquid is supplied with liquid reservoir

Liquid reservoir 31 be configured to be provided with one can receiving fluids and inflatable contractile reservoir part 32 and one link mouth/liquid supply port 33 (also can be known as " linking mouth "), and when reservoir part 32 inside when described binding mouthfuls 33 is aspirated, internal liquid is sent from linking mouth 33, and reservoir part 32 is shunk.

Liquid reservoir 31 can be made by synthetic resin, and satisfies and can suitably select the kind of synthetic resin according to the kind of interior dress liquid, and does not have any restriction; Yet, the reservoir part 32 of shape retention to a certain degree preferably can be provided.For example, polyethylene, polypropylene, PETG etc. can be considered as preferred embodiment.

Reservoir part 32 has the structure that is provided with wrinkle part 34 on the side of the cylindrical body that comprises end face 32a and bottom surface 32b, described wrinkle part 34 has a kind of structure, two or more (being a plurality of ladders: show five ladders in the drawings) ladders comprising the ledge that is sandwiched in the folding part, mountain between the paddy folding part (in other words, " pleat trace ") 36 are provided with continuously along last-following direction (promptly connecting the direction that links mouth 33 and bottom surface 32b).

Each ledge 36 makes the outside outstanding folding part, mountain of shape triangular in shape (promptly, from the central vertical of reservoir part 32 in last-following direction and direction outward) last-below open closed upwards, and whole reservoir part 32 last-below extend upward and shrink.

Yet wrinkle part 34 preferably has conformality (certain shape keep degree), thereby even when in making liquid being housed, described wrinkle part is not extended along last-following direction yet.

As shown in figure 10, link mouth 33 and be configured, make pipe part 35 outstanding from the end face 32a of reservoir part 32, and the reduced thickness of the end face of this pipe part 35 is to form openable occlusive part 40.

Though occlusive part 40 can with integrally moulded shaping such as reservoir part 32, make this thickness attenuation, it also can be become by the body configuration of separating of the plastic sheet that covers described opening, film etc.

Preferably, as shown in figure 12, on the one hand, by making pipe part 41 outstanding and threaded portion 41a is set from the end face 32a of reservoir part 32 at the outer peripheral face of pipe part 41, and on the other hand, by preparing as a cylindrical cover body 43 from the cover that wherein separates body, described cover body 43 can be detachably mounted on pipe part 41 outsides and 42 shapings of its end face have thin thickness, and by this cover body 43 is installed on the above-mentioned pipe part 41, structure links mouth 33.

In this case, preferably described cover body 43 side face within it is provided with threaded portion 43a, and it can be screwed with the threaded portion 41a of above-mentioned pipe part 41, and described cover body 43 also is provided with threaded portion 43b on its outer peripheral face.

Notice, the end face 42 of cover body 43 can with integrally moulded shaping such as perimembranous, make that only the thickness of end face 42 approaches, it also can be configured, and makes the plastic sheet, film etc. 44 of the body that separates with cover body 43 cover the opening 43c of described cover body 43, as shown in figure 13.

Shown in Figure 15-17, the protuberance 36A that is positioned at lowest position in being configured to a plurality of protuberances 36 of fold part 34 can have a part, particularly, one radially outwards outstanding with provide protuberance 37 around the marginal portion.Like this, when when end face is observed, protuberance 37 can be configured as triangle, circular arc, square and other Any shape.

If protuberance 37 can be set on the protuberance 36A by this way, as shown in figure 17, by the enough big mid portion of protuberance 37, inner left liquid can be easy to be removed so, thereby allows liquid reservoir 31 to handle under the situation that liquid is discharged fully.

Notice,,, be pre-formed that line of cut 38 is feasible to be easy to cut more although use scissors, cutter etc. to be enough to excise for excision protuberance 37.For example, can form line of cut 38 in the place than minimal thickness cuts so that be easy to more.

In addition, can cut the tip of protuberance 37 fully, as shown in figure 17; Yet all right incised notch to a certain degree makes liquid be excluded, and it is not cut fully.

The liquid spray adaptor

Liquid spray adaptor 20 is provided with the interface 21 on the nozzle 101 that can be detachably connected to air cannon 100, the liquid jet nozzle 22 of atomizing of liquids, the liquid reservoir that can removably link liquid reservoir 31 links mouth 23, the communication paths 24 that is communicated with described interface 21 and described liquid jet nozzle 22, with the liquid supply passageway 25 that is communicated with described communication paths 24 and described liquid reservoir binding mouth 23, as Fig. 9 and shown in Figure 180.

The material of adapter main body part 20 that constitutes the main body of liquid spray adaptor 20 is not particularly limited and for example can be made by synthetic resin such as thermoplastic resin and thermosetting resin or metal, rubber, elastomer (having certain flexible resin) etc.

Also might be by integrally moulded shapings such as synthetic resin, metals; Yet, without limits to integrally moulded shaping.

Interface 21 is formed, and makes interface 21 with detachable and can keep bubble-tight mode can be linked to the nozzle 101 of air cannon 100.For example, under the situation of current embodiment, by tubular protuberance 21a being set for adapter main body part 20, on the outer peripheral face of protuberance 21a, be shaped and be screwed to threaded portion 21b on the threaded portion in the inner peripheral surface that is arranged on nozzle 101, simultaneously an opening 21c who is connected with communication paths 24 is set in protuberance 21a, thereby constructs interface 21.

Yet, if interface 21 can form its syndeton arbitrarily so with detachable and can keep bubble-tight mode can be linked to the nozzle 101 of air cannon 100.For example, though not shown, also can have a kind of structure, wherein the nozzle contact openings is provided with the surface of convergent, outwards open continuously from the open end of communication paths 24 on described surface, contacts the surface of convergent under roughly airtight condition with the end (nozzle 101) that allows air cannon 100.

Liquid jet nozzle 22 can have the structure of directly opening or can different with it sizes being shaped arbitrarily and with the size of communication paths 24 (particularly, as described below larger-diameter path 24B).For example, it can be shaped by the shape and size according to its opening of shape appropriate change of atomizing of liquids.In addition, permission can also be set arbitrarily open barrier film mechanism with inaccessible opening, so that can regulate emitted dose, spray configuration etc.In addition, it for example can be shaped to be connected with other adapter with the injection adjustment means that can regulate emitted dose, spray configuration etc. by form threaded portion on the inner peripheral surface of described opening etc. or outer peripheral face.

By protuberance 23a is set on the bottom surface of adapter main body 20A, be arranged on the binding recess 23b that opens in the protuberance 23a downwards, and on the inner peripheral surface of this binding recess 23b, threaded portion 23c is set, liquid reservoir is set links mouth 23, as Figure 10 and shown in Figure 180.

Tubular protuberance 26 has the terminal 26a that is configured as convergent (paracone shape), thereby allows the occlusive part 40 of the binding mouth 33 of liquid reservoir 31 to be penetrated by the internal liquid supply passageway 25 and the opening at 26a place endways.

Communication paths 24 is shaped as the space of the hollow that is communicated with described interface 21 and described liquid jet nozzle 22.Particularly, as Figure 10 and shown in Figure 180, communication paths 24 is shaped by in the pars intermedia office step portion 24C being set, interface 21 sides of described step portion 24C are to comprise to have the more smaller-diameter path 24A of the hollow space of minor diameter, and liquid jet nozzle 22 sides of described step portion 24C are the larger-diameter path 24B that comprises the hollow space with larger diameter.

In this case, the size of step portion 24C, promptly the diameter difference between smaller-diameter path 24A and the larger-diameter path 24B preferably is about 5 millimeters or bigger.

Notice, smaller-diameter path 24A can by from the opening 21c of interface 21 gradually stenosis become minor diameter to be shaped.

Liquid supply passageway 25 is configured, and makes liquid supply passageway 25 be communicated with communication paths 24 and links mouth 23 with the liquid reservoir that is approximately perpendicular to described communication paths 24.Particularly, form near the described step portion 24C of described liquid supply passageway 25 in described larger-diameter path 24B and be communicated with, and when Compressed Gas flows, produce negative pressure in the liquid supply passageway 25, and the liquid in the liquid reservoir 31 can be sucked out in communication paths 24.

Notice that under the situation shown in the figure, the mode that is rinsed with stepped surfaces and the inner peripheral surface on liquid supply passageway 25 interfaces 21 sides of step portion 24C is not even and if be rinsed and form and be communicated with in step portion 24C environs.That is to say, when the Compressed Gas that flows through smaller-diameter path 24A enters larger-diameter path 24B and spreads immediately, if becoming to form in the negative scope (aforementioned environs), the pressure of liquid supply passageway 25 in the internal corners zone of step portion 24C is communicated with, pressure in the liquid supply passageway 25 becomes negative pressure when Compressed Gas flows in communication paths 24 so, can be sucked out to allow the liquid in the liquid reservoir 31.

In other words, in order to be shaped adapter main body part 2A in the following manner, promptly when compressed gas flow is passed through communication paths 24, liquid in the liquid reservoir 31 is inhaled in the communication paths 24, below a kind of structure be enough, wherein the diameter of communication paths 24 is done greatlyyer than liquid jet nozzle 22 sides by step portion 24C, and liquid supply passageway 25 be attached at step portion 24C in the larger-diameter path 24B of communication paths 24 with enlarged diameter near.

In this case, liquid supply passageway 25 is not particularly limited with the angle of cut that communication paths 24 intersects, and might as in the present embodiment generally perpendicularly or with the arbitrarily angled intersection that is formed obliquely.

The diameter dimension of liquid supply passageway 25 preferably is designed to enough appropriate sizes in order to the liquid in the sucking-off liquid reservoir 31.In general, for example when the diameter of larger-diameter path 24B was roughly 4 millimeters, the internal diameter of liquid supply passageway 25 preferably was roughly 1.5 millimeters.Yet described diameter dimension is not limited to this.

Using method

Below, to a kind of with liquid reservoir 31 be installed on the liquid spray adaptor 20 so that the method for using describes.

The inside of the reservoir part 32 of liquid reservoir 31 is filled with required liquid A in advance, and the opening of binding mouth 33 can be coated with occlusive part 40 with opening.

Like this, in order to inject liquid under the situation of integrally moulded shapings such as occlusive part 40 and reservoir part 32, for example the suitable position place on reservoir part 32 opens an injection aperture, injects liquid thus, and after this closes described aperture, just has been enough to.

In addition, when use covered as the plastic sheet that separates body, film etc., it was enough to cover the opening that links mouth 33 with plastic sheet, film etc. after filling liquid.

In addition, in the structure that is attached with cover body 43, filling full liquid metapedes with attached described cover body 43.

The liquid reservoir 31 of receiving fluids A is linked to the liquid reservoir binding mouth 23 of liquid spray adaptor 20 by this way, shown in Figure 10 and 11.Like this, link mouthfuls 23 binding recess 23b at liquid reservoir as required and place filler, and link mouthfuls 33 pipe part 35 and be inserted into and link among the recess 23b and be torqued into, screw togather threaded portion 23c and threaded portion 33a simultaneously.In this course, the end of tubular protuberance 26 penetrates occlusive part 40 opening occlusive part 40, and the end of tubular protuberance 26 penetrates reservoir part 32.Be torqued into binding recess 23b to a precalculated position that liquid reservoir links mouth 23 by the pipe part 35 that further will link mouth 33, the binding mouth 33 of liquid reservoir 31 links mouth 23 with the liquid reservoir of liquid spray adaptor 20 and can keep the mode of airtight conditions to be connected.

By in this manner liquid reservoir 31 being attached on the liquid spray adaptor 20, since the binding mouth 33 of liquid reservoir 31 with the liquid reservoir of liquid spray adaptor 20 link mouthfuls 23 in the process that the pipe part 35 that will link mouthfuls 33 is inserted among the binding recess 23b that liquid reservoirs link mouths 23 and threaded portion 33a begins to be screwed on, can closely contact continuous, even if occlusive part 40 is opened subsequently, the leakage of liquid also can not take place.

Then, as shown in figure 14, when the nozzle 101 of air cannon 100 is connected on the binding mouth 21 of liquid spray adaptor 20, begin to spray.

After this, as shown in figure 14, by the operation air cannon 100 trigger 102 and from nozzle 101, eject Compressed Gas (compressed air), Compressed Gas can flow through communication paths 24 inside and blow out from liquid jet nozzle 22, flows through the inside of the Compressed Gas suction liquid reservoir 31 of communication paths 24 simultaneously.This moment, because the inside of the reservoir part 32 of liquid reservoir 31 is in sealing state, therefore when when linking mouth 33 and aspirate, reservoir part 32 is shunk, and internal liquid A flow to liquid supply passageway 25 (also can be expressed as: internal liquid flows out from linking mouthfuls 33, and reservoir part 32 contractions) and can blow out from liquid jet nozzle 22 with Compressed Gas (compressed air) by communication paths 24 (larger-diameter path 24B) from linking mouthfuls 33.

Because the mode of action of liquid reservoir 31 and liquid spray adaptor 20 is as mentioned above, therefore use for example air cannon of the Compressed Gas supply arrangement that has been installed in factory and other industrial plants etc. or instrument, liquid can be ejected continuously.Because the inside of liquid reservoir 31 is in sealing state, therefore just need not be inverted and to use, and in 360 ° under the arbitrarily angled condition, liquid can be sprayed equably by air cannon and liquid spray adaptor 20.

In addition, obviously when not being linked to liquid spray adaptor 20 and being linked to liquid spray adaptor 20, might prevent that also the liquid of liquid reservoir 31 inside from leaking.

Notice have the ability suitably to be shaped binding mouth 33 and the cover body 43 relevant with the linking portion of liquid spray adaptor 20; For example, on outer peripheral face, be provided with threaded portion, link mouth 33 so and must on inner peripheral surface, be provided with the threaded portion that can be connected thereto if the liquid reservoir of liquid spray adaptor 20 links mouth.For this purpose, for example, have the ability to construct the cover body 43 that on inner peripheral surface, is provided with threaded portion, so that be installed in the pipe part 41.

In addition, the connecting structure between the linking portion of the binding mouth of liquid reservoir 31 and liquid spray adaptor 20 is not limited to above-mentioned screw thread assembly structure; For example, can also adopt cooperation assembly structure or other connecting structure.

Although it is not shown, but a hole is set on the bottom surface of the protuberance 36A that is positioned at lowest position in being configured to a plurality of protuberances 36 of fold part 34 and constructs described hole can open the ground obturation, by opening this hole, also can be easy to be removed at left liquid in reservoir part after the use.

In addition, if the number that is configured to the protuberance 36 of fold part 34 is two ladders or a ladder, when fold part 34 was shunk, internal volume can be very little so, allows in the amount of left liquid in reservoir part after the use seldom.

In addition, also may the attached retainer member that can keep the contraction state of fold part 34.For example, on the one hand by a end at 32b place, the bottom surface of reservoir part 32 fixed retainer member, on the other hand by at the end face 32a place of reservoir part 32 or be shaped another terminal lock part of locking fixed retainer member, round tube part 35 places, and another end of retainer member locked onto fold part 34 is in shrink maximum state, it is possible can keeping the structure of the contraction maximum rating of fold part 34.

Like this, the retainer member can have linear, band shape, band shape or any other shape.This structure of lock part can also be shaped by any way, for example in order to the structure of coiling retainer member, in order to the structure of hooking the suspension hook part, carry out fastening structure, carry out fastening structure etc. with soft securing member with button.

In addition, with above opposite, an end of retainer part can be fixed on the end face of reservoir part 32 or be fixed on the round tube part 35 and be shaped the lock part on the 32b of bottom surface.

In addition, as shown in figure 20, also might there be a kind of structure, the threaded portion 38a that wherein is used to link is set in the round tube part 35 that links mouthful circumferential portion and sentences as linking 38, and is provided with from the upper edge portion 38b of this bindings 38 and is the upwards liquid receiving unit 39 of extension continuously of infundibulate.

In the present embodiment, the liquid reservoir of liquid spray adaptor 20 links mouth 23 and must be shaped by protuberance 26 is set on the bottom surface of adapter main body 20A, by described protuberance 26, liquid supply passageway 25 passes and can be inserted in the round tube part 35, threaded portion 27 is set on the outer peripheral face of protuberance 26, be connected to allow liquid reservoir binding 23 and to link 38, as shown in figure 21.

Adopt this structure, because liquid receiving unit 39 just plays the effect of funnel, so liquid can directly be poured in the reservoir part 32, and can not overflow.Thereby because the fluid low in the reservoir part 32, so liquid reservoir 31 can temporarily separate with liquid spray adaptor 20, and liquid can easily be introduced in the reservoir part 32, and liquid reservoir 31 can be easy to repeated use.

Notice, thisly in linking mouthful, be provided with the threaded portion 38a that is used to link, the structure that also is provided with liquid receiving unit 39 simultaneously also can be used to have the liquid reservoir of the structure that protuberance 37 is not set, and the liquid reservoir that protuberance 37 is not set can obtain the effect identical with the liquid reservoir that protuberance 37 is set.

Liquid is supplied with other embodiment of liquid reservoir

In addition, liquid reservoir can be constructed shown in Figure 22-23.

That is to say, if be provided with one can receiving fluids and inflatable contractile liquid reservoir main body and one link mouthful, liquid reservoir is not limited to the foregoing description so.For example, the liquid containing part 51 of receiving fluids also can be shaped with plastic film bag, rubber balloon bag etc., as shown in figure 22.In this case, preferred liquid holding portion 51 is set in the shaping maintenance container of being made by metal, plastics or other material 52, so that supporting liquid holding portion 51.In this structure keep the supporting of container 52 because liquid containing part 51 is subjected to being shaped, even if therefore under the condition that is squeezed also not overslaugh its play a role, as shown in figure 23.

In addition, linking portion 53 preferably is arranged on and be shaped keeps on the container 52, and liquid containing part 51 keeps container 52 preferably to be configured out removably with respect to being shaped, as shown in figure 24.

The modified example of liquid spray adaptor

In liquid spray adaptor of the present invention, have permission with detachable and can keep bubble-tight mode to be attached to structure on the nozzle 101 of air cannon 100 if link mouth, its syndeton can arbitrarily be shaped so.For example, interface also can be shaped as tapered shape.

Particularly, it can be constructed according to Figure 25-28.This structure example of liquid spray adaptor 62 comprises the whole resin body with the integrally moulded shaping of funnel-shaped piece, shown in Figure 25 and 26, and similar with the adapter with above-mentioned structure, this structure example of liquid spray adaptor 62 is respectively equipped with the nozzle receiving unit 64 of the surperficial 69a that has convergent in an one end and at the metal interface 65 of another end; Simultaneously, liquid reservoir links mouthfuls 66 and is shaped in its underpart, and nozzle receiving unit 64 is connected by communication paths 67 with metal interface 65; In addition, communication paths 67 and liquid reservoir link mouthfuls 66 and are connected by liquid supply passageway 68.

As shown in figure 26, communication paths 67 is at the smaller-diameter path 67a with little opening diameter of nozzle receiving unit 64 sides with at the larger-diameter path 67b with big opening diameter of metal interface 65 sides, step portion 67c is positioned at two paths that extend to larger-diameter path 67b end from smaller-diameter path 67a end and interconnects part, surperficial 67d with convergent, and liquid supply passageway 68 is from the inner extension downwards of the surperficial 67d of this convergent.

In addition, it can be assembled on the peripheral part of linking portion 81 of liquid reservoir 80 being assembled into one, and liquid reservoir links mouthfuls 66 and has definite shape, and perimembranous has the cylindrical cover shape of threaded portion in wherein being given in; At the bottom center of cylindrical cover parts place, tubular tongue piece portion 71 one with suitable length that are connected on the interior perimembranous of linking portion 81 of liquid reservoir 80 are outstanding, and the open end of liquid supply passageway 68 is arranged on the center of tongue piece portion 71.

As shown in figure 27, liquid reservoir 80 is configured to by liquid reservoir main body 84, described liquid reservoir main body 84 comprises retractable wrinkle shape body part 82, and described body part 82 can keep the liquid of a constant volume, from the outstanding pipe part 83 of the end face of described body part 82.The linking portion 81 that is carved with thread groove on the outer peripheral face its is set on the top of pipe part 83, and the inside of this linking portion 81 is configured to a cavity, and tongue piece portion 71 integral installations are also coupled therein.

The liquid spray adaptor that constructs in this manner links on the mouth 66 by linking portion 81 being attached to liquid reservoir, so that the liquid reservoir 80 of dress treatment fluid is installed on the liquid spray adaptor 62, and assembled good.In this state, as shown in figure 28, the liquid reservoir of liquid spray adaptor 62 links mouthfuls 66 and is assembled on the linking portion 81 of liquid reservoir 80 to cut out the opening of liquid reservoir 80; In addition, tongue piece portion 71 is inserted the interior side opening of linking portion 81 to link to each other with the inner peripheral surface of this opening.That is to say, because the open-ended double-walled face closure that is linked mouth 66 and tongue piece portion 71 by liquid reservoir of the pipe part 83 of liquid reservoir 80, the space of not installing as one in the bottom of liquid spray adaptor 62, therefore air pressure in the liquid reservoir 80 and the air pressure in the liquid supply passageway 68 keep constant, thereby when producing negative pressure at step portion 67c place, allow inner treatment fluid to flow out reposefully and flow in the communication paths 67, and be blown out to the outside by liquid supply passageway 68.Like this, can be from not leaking out treatment fluid with the bonding part of liquid reservoir binding mouth 66.

Claims (12)

1. a liquid ejector tool can be connected to the nozzle of Compressed Gas feedway and be provided with the liquid spray adaptor and the liquid ejector tool of liquid supply liquid reservoir, has a kind of structure, wherein:

Described liquid spray adaptor is provided with the interface on the nozzle that can be detachably connected to the Compressed Gas feedway; The liquid jet nozzle of atomizing of liquids; The liquid reservoir that can removably link the liquid supply liquid reservoir of receiving fluids links mouth; The communication paths that is communicated with described interface and described liquid jet nozzle; Be communicated with that described communication paths and described liquid reservoir link mouthful and can draw the liquid supply path of the liquid in the described liquid supply liquid reservoir during by described communication paths in compressed gas flow

The communication paths of described liquid spray adaptor is provided with step portion in the pars intermedia office, and the interface side of described step portion is a smaller-diameter path, and the liquid jet nozzle side of described step portion is the larger-diameter path of diameter greater than described smaller-diameter path,

Form connection near the described step portion of described liquid supply passageway in described larger-diameter path, and

Described liquid supply with liquid reservoir be provided with one can receiving fluids and inflatable contractile reservoir part and one link mouth/liquid supply port, when aspirate by described binding mouth/liquid supply port reservoir part inside, internal liquid is sent from linking mouth/liquid supply port, and reservoir part is shunk.

2. liquid ejector tool according to claim 1, wherein in the described step portion in described communication paths, the diameter difference between smaller-diameter path and the larger-diameter path is 5 millimeters or bigger.

3. liquid ejector tool according to claim 1, wherein said liquid spray adaptor forms by synthetic resin is integrally formed.

4. liquid ejector tool according to claim 1, the described nozzle of wherein said Compressed Gas feedway is the nozzle of air cannon.

5. liquid ejector tool according to claim 1, wherein said liquid spray adaptor be provided with can the described liquid supply passageway of break-make selector switch.

6. liquid ejector tool according to claim 1, the injection adjustment means that wherein can regulate emitted dose, spray configuration is connected to the described liquid jet nozzle of described liquid spray adaptor.

7. liquid ejector tool according to claim 1, wherein said liquid are supplied with the opening that liquid reservoir has described binding mouth/liquid supply port, and described opening can be opened inaccessible.

8. liquid ejector tool according to claim 1, pointed siphon went out portion before the described liquid reservoir binding mouth of wherein said liquid spray adaptor was provided with, and the inside of described protuberance has the liquid supply passageway,

The opening that described liquid is supplied with the described binding mouth/liquid supply port of liquid reservoir carries out obturation with plastic foil or sheet, and described opening can be opened by described tubular protuberance.

9. liquid ejector tool according to claim 1 has a kind of structure, and pointed siphon went out portion before the described liquid reservoir binding mouth of wherein said liquid spray adaptor was provided with, and the inside of described protuberance has the liquid supply passageway,

Described liquid is supplied with the described binding mouth/liquid supply port of liquid reservoir and is constructed as follows, be that described opening can have the cover body on attached, its end face is formed and can opens by described tubular protuberance, and it is inaccessible that the opening of described binding mouth/liquid supply port can be opened ground by attached described cover body.

10. liquid spray adaptor promptly is connected to the liquid spray adaptor of the nozzle of Compressed Gas feedway, comprising:

Can be detachably connected to the interface on the nozzle of Compressed Gas feedway, the liquid jet nozzle of atomizing of liquids, the liquid that can removably link receiving fluids is supplied with the liquid reservoir binding mouth of liquid reservoir, the communication paths that is communicated with described interface and described liquid jet nozzle, with be communicated with that described communication paths and described liquid reservoir link mouthful and can draw the liquid supply passageway that described liquid is supplied with the liquid in the liquid reservoir during by described communication paths in compressed gas flow

The communication paths of described liquid spray adaptor is provided with step portion in the pars intermedia office, and the interface side of described step portion is a smaller-diameter path, and the liquid jet nozzle side of described step portion is the larger-diameter path of diameter greater than described smaller-diameter path, and

Form near the described step portion of described liquid supply passageway in described larger-diameter path and be communicated with.

11. liquid spray adaptor according to claim 10, wherein in the described step portion in described communication paths, the diameter difference between smaller-diameter path and the larger-diameter path is 5 millimeters or bigger.

12. liquid spray adaptor according to claim 10 forms by synthetic resin is integrally formed.

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