This application is based upon and claims the benefit of priority from Japanese Patent Application No. 2013-102602 , filed May 14, 2013, the entire contents of which are incorporated herein by reference.
The present invention relates to an airbrush, and particularly, to an airbrush that includes a needle cap provided at a tip of a nozzle.
An airbrush is a tool that splashes paint in the form of mist by compressed air, and may simply perform an even painting operation which is not easily performed in a brush.
For example, as disclosed in Patent Document 1 , such an airbrush includes an airbrush body that is substantially formed in a pencil shape. The tip of the airbrush body is provided with a nozzle that sprays paint and air. A paint container is provided in the tipper portion of the airbrush body of the rear portion of the nozzle. Paint inside the paint container is led into the nozzle by the operation of an operation rod to be described later. The substantial center of the airbrush body is provided with an air supply hole that supplies compressed air and the operation rod that leads the compressed air supplied from the air supply hole to the outer periphery of the nozzle. A needle is provided inside an axial portion of the airbrush body so that the tip of the needle is biased so as to seal a paint spray hole of the nozzle. The sealing may be released when the needle retreats by the operation of the above-described operation rod.
In the airbrush with such a configuration, when the operation rod is pushed toward the airbrush body, the compressed air from the air supply hole is sprayed along the outer periphery of the nozzle. Further, when the operation rod moves backward, paint is sprayed through the paint spray hole of the nozzle of which the sealing by the needle is released.
Here, the sealing of the paint spray hole of the nozzle by the needle is performed by, for example, a valve structure in which the tip of the needle penetrates the paint spray hole of the nozzle so as to be freely extracted therefrom and inserted thereinto. When the tip of the nozzle through which the needle protrudes from the paint spray hole contacts a painting subject or the like, the needle is easily damaged, bent, or deformed, and hence a problem arises in the line thickness or the spraying direction of the paint. For this reason, the tip of the nozzle is provided with a needle cap that protects the needle.
[Patent Document 1] JP 2000-140719 A
In the airbrush with such a configuration, for example, when an extra fine line is depicted in painting or the like, there is a case in which the needle cap is separated from the nozzle and the tip of the nozzle approaches a subject painting surface as close as possible so as to depict the extra fine line. In this ease, since the nozzle cap separated from the nozzle has a comparatively small size, a problem arises in that the nozzle cap is easily lost. Further, the airbrush is an application device that is used in the case of painting or nail art that requires high artistic quality and designability. For this reason, the airbrush body also requires high decoration appearance.
The present invention is made in view of such circumstances, and an object thereof is to provide an airbrush in which a needle cap separated from a nozzle is not easily lost and decoration appearance is not degraded.
The present invention is understood by the following configurations.
(1) An airbrush of the present invention includes: an airbrush body; a nozzle that is provided at a tip of the airbrush body so as to spray paint and air; a needle cap that is separably attached to the nozzle; and a needle cap attachment portion that is provided at a rear end of the airbrush body so as to temporarily attach the needle cap separated from the nozzle thereto.
(2) In the airbrush of the present invention with the configuration (1), the needle cap attachment portion includes a protrusion provided with means for temporarily attaching the needle cap to the outer periphery thereof.
(3) In the airbrush of the present invention with the configuration (2), the inner periphery of the needle cap is provided with a female screw threaded into a male screw formed in the outer periphery of the nozzle, and the outer periphery of the protrusion is provided with a male screw threaded into the female screw of the needle cap.
(4) In the airbrush of the present invention with the configuration (3), the needle cap attachment portion further includes an outer cylindrical body that surrounds the protrusion, an inner cylindrical body that is disposed between the outer cylindrical body and the protrusion, and a coil spring that is disposed between the airbrush body and the inner cylindrical body, and when the inner cylindrical body is pushed toward the airbrush body against a biasing force of the coil spring, the male screw of the protrusion is exposed.
(5) In the airbrush of the present invention with the configuration (2), the inner periphery of the needle cap is provided with a convex portion that is fitted to a concave portion formed in the outer periphery of the nozzle, and the outer periphery of the protrusion is provided with a concave portion that is fitted to the convex portion of the needle cap.
(6) In the airbrush of the present invention with the configuration (5), the needle cap attachment portion further includes an outer cylindrical body that surrounds the protrusion, an inner cylindrical body that is disposed between the outer cylindrical body and the protrusion, and a coil spring that is disposed between the airbrush body and the inner cylindrical body, and when the inner cylindrical body is pushed toward the airbrush body against a biasing force of the coil spring, the concave portion of the protrusion and the convex portion in the periphery thereof are exposed,
(7) In the airbrush of the present invention with the configuration (1), the needle cap includes a magnet, the magnet is formed so as to have any one of N and S magnetic poles with respect to the nozzle and the attachment side of the needle cap attachment portion, the nozzle is formed so as to have a magnetic pole opposite to the magnetic pole of the magnet of the needle cap, and the needle cap attachment portion is formed so as to have a magnetic pole opposite to the magnetic pole of the magnet of the needle cap.
(8) In the airbrush of the present invention with the configuration (1), the needle cap includes a magnet, the magnet is formed so as to have any one of N and S magnetic poles with respect to the nozzle and the attachment side of the needle cap attachment portion, the nozzle is formed of a magnetic body such as iron, and the needle cap attachment portion is formed of a magnetic body such as iron.
According to the airbrush with such a configuration, since the needle cap separated from the nozzle may be temporarily attached to the needle cap attachment portion, the needle cap may not be easily lost.
Hereinafter, a mode for carrying out the present invention (hereinafter, an embodiment) will be described in detail by referring to the accompanying drawings. Furthermore, the same reference numerals are given to the same components in the entire description of the embodiments.
(First Embodiment)
<Entire Configuration>
Further, the lower portion of the intermediate portion of the airbrush body 20 is provided with an air supply hole 60 to which compressed air is supplied. The air supply hole 60 is formed as, for example, a connection tube 61 that is connected to a compressed air supply hose (not illustrated), and includes an air supply valve 62 formed therein. The air supply valve 62 may be opened by an operation in which an operation rod 70 provided at the upper portion opposite to the air supply hole 60 of the airbrush body 20 is pushed toward the airbrush body 20 (in a direction a of the drawing).
A push rod 72 is connected to the tip of the operation rod 70 through a pivot shaft 71. When the push rod 72 is fitted to the axial portion of the connection tube 61, the operation rod 70 is supported in a pushable manner. The tip of the push rod 72 comes into contact with the air supply valve 62. The air supply valve 62 is opened by an operation in which the operation rod 70 is pushed. Then, the compressed air that flows from the air supply hole 60 by the operation of opening the air supply valve 62 passes through air passages 21, 21′, and 21″ formed inside the airbrush body 20, and is sprayed along the outer periphery of the paint spray nozzle 30A. An air spray nozzle 30B is provided so as to surround the paint spray nozzle 30A. The compressed air is sprayed through a gap between the paint spray nozzle 30A and the air spray nozzle 30B. In the present specification, both the paint spray nozzle 30A and the air spray nozzle 30B may be simply referred to as a nozzle 30.
The needle 50 is disposed inside the airbrush body 20 so as to be slidable along the axial portion, and the needle 50 may be retracted by the operation of the operation rod 70. That is, the operation rod 70 may be tilted backward (in a direction β of the drawing) around the pivot shaft 71. By the tilting movement of the operation rod 70, the needle 50 and a needle chuck 51 may be slid backward. The needle chuck 51 is fitted to the axial portion of the rear portion of the airbrush body 20. When the needle 50 is inserted through the needle chuck 51, the needle chuck 51 supports the needle 50. By the above-described operation of the operation rod 70, the sealing of the paint spray nozzle 30A using the needle 50 is released, so that the compressed air is sprayed from the air spray nozzle 30B and the paint from the paint container 40 is sprayed from the paint spray hole 30H of the paint spray nozzle 30A.
Here, the sealing of the paint spray hole 30H of the paint spray nozzle 30A using the needle 50 is performed by, for example, a valve structure in which the tip of the needle 50 penetrates the paint spray hole 30H of the paint spray nozzle 30A so that the tip may be inserted thereinto and extracted therefrom. For this reason, the tip of the nozzle 30 through which the needle 50 protrudes from the paint spray hole 30H is provided with a needle cap 80 that protects the needle 50. The needle cap 80 is separably attached to the nozzle 30 (the air spray nozzle 30B) by, for example, threading. The needle cap 80 is normally attached to the nozzle 30. For example, when an extra fine line is depicted in painting or the like, there is a case in which the needle cap 80 is separated from the nozzle 30 and the tip of the nozzle 30 is made to approach a subject painting surface as close as possible.
The needle chuck 51 includes a coil spring 52 therein, so that the needle chuck is constantly biased forward by the repelling force of the coil spring 52. An operation plate 53 substantially having an S-shape is interposed between the front end of the needle chuck 51 and the operation rod 70. When the operation rod 70 is tilted backward, the needle chuck 51 and the needle 50 may be slid backward through the operation plate 53. The rear end of the airbrush body 20 is provided with a needle cap attachment portion 90. here, the needle cap 80 will be described in detail prior to the description of the needle cap attachment portion 90.
<Needle Cap 80>
As obvious from
<Needle Cap Attachment Portion 90>
Returning to
The inner cylindrical body 94 is formed in a shape in which a hole 94A is formed at the center of the bottom portion of the bottomed cylindrical body. The protrusion 92 is fixed while a bar portion 92P formed therein passes through the hole 94A of the bottomed cylindrical body and the coil spring 95 and is inserted into the hole 91H formed in the base 91. Accordingly, the inner cylindrical body 94 is disposed so as to cover the side surface provided with the male screw 92A of the protrusion 92 by the repelling force of the coil spring 95. Then, when the inner cylindrical body 94 is pushed toward the base 91 against the repelling force of the coil spring 95, the male screw 92A of the protrusion 92 may be exposed from the inner cylindrical body 94.
As obvious from the description above, according to the airbrush 10 of the present invention, the needle cap 80 separated from the nozzle 30 may be simply and temporarily attached to the needle cap attachment portion 90 instantly. Accordingly, the needle cap 80 may not be easily lost.
(Second Embodiment)
In the first embodiment, the needle cap 80 is attached to the nozzle 30 by threading, and is temporarily attached to the needle cap attachment portion 90 by threading. However, the present invention is not limited to the dreading. The needle cap 80 may be attached or temporarily attached by fitting.
(Third Embodiment)
In the second embodiment, the needle cap attachment portion 90 is provided with the coil spring 95 and the inner cylindrical body 94. However, the present invention is not limited thereto, and the coil spring 95 and the inner cylindrical body 94 may not be provided.
(Fourth Embodiment)
In the first to third embodiments, the attachment and the temporary attachment of the needle cap 80 with respect to the nozzle 30 and the needle cap attachment portion 90 are performed by threading or fitting. However, the present invention is not limited thereto, and the attachment and the temporary attachment of the needle cap 80 with respect to the nozzle 30 and the needle cap attachment portion 90 may be performed by the adsorption of the magnet.
(Fifth Embodiment)
A so-called pencil type airbrush comprising an operation rod is described in the first to fourth embodiments. However, the present invention is not limited thereto, and may be also applied to a so-called gun type airbrush, for example, comprising a trigger instead of the operation rod.
While the present invention has been described by using the embodiments, it is needless to mention that the technical scope of the present invention is not limited to the scope of the embodiments. It is obvious that various modifications or improvements may be made in the above-described embodiments by the person skilled in the art. Further, it is obvious that the modifications or the improvements are also included in the technical scope of the present invention from claims.
Number | Date | Country | Kind |
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2013-102602 | May 2013 | JP | national |
Number | Name | Date | Kind |
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2460529 | Paasche | Feb 1949 | A |
20040213627 | Marschand | Oct 2004 | A1 |
20120217318 | Mehta | Aug 2012 | A1 |
Number | Date | Country |
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1479529 | Nov 2004 | EP |
2000-140719 | May 2000 | JP |
Entry |
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European Search Report dated Aug. 13, 2014 issued in European Patent Application No. 14168145.2. |
European Search Report dated Jul. 7, 2014 issued in European Patent Application No. 12741921.6. |
Number | Date | Country | |
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20140339338 A1 | Nov 2014 | US |