JP2018176020A - Spray device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a spray device which can improve quality.SOLUTION: A spray device M is structured by connecting a sprayer 10 for spraying gas together with a liquid, and a case main body 80 for housing a cylinder B filled with the gas by a tube T. The sprayer 10 includes a gas nozzle 12 for jetting the gas, a liquid nozzle 11 for jetting the liquid, a nozzle holding part 13 which holds the gas nozzle 12 and the liquid nozzle 11 with a predetermined positional relationship, and a handle part 60 which is connected to the case main body 80 through the tube T and carries out operation for jetting the gas. The handle part 60 includes a relay tube 61 which is connected to the gas nozzle 12 and structures a part of a passage of the gas. The handle part is detachable from the nozzle holding part 13 and has a connection structure in which the gas nozzle 12 and the relay tube 61 are connected by attaching the handle part 60 and are separated by detaching the handle part.SELECTED DRAWING: Figure 12

Description

  The present invention relates to a spray device.

BACKGROUND Conventionally, a spray device that sprays a gas with a liquid is known.
For example, in the spray apparatus (hereinafter referred to as a first spray apparatus) described in Patent Document 1 below, a liquid container containing a liquid and a case main body containing a cylinder filled with a gas are integrally handled. It is. In the liquid container and the case body, the convex portion (connection portion) of the liquid container is fitted in the concave portion (joint portion) of the case main body without a gap, or the convex portion (connection hole) of the liquid container The conduits are connected by fitting without gaps. By fitting the convex portion and the concave portion of the liquid container and the case main body, the gas flow path of the case main body and the nozzle of the liquid container are communicated. The case body is provided with an operation member for performing an operation to eject gas. By holding the case body and depressing the operation member, compressed air in the cylinder is ejected from the nozzle. However, in the configuration in which the operation member and the case main body are integrated, there is a problem that handling is not easy because the case main body has to be gripped at the time of operation.

  Therefore, for example, a spray device (hereinafter referred to as a second spray device) described in Patent Document 2 below is known. This spray device has a liquid nozzle and a gas nozzle, and a sprayer that sprays a gas together with a liquid, and a case main body that accommodates a gas-filled cylinder are connected by a tube. The sprayer has a liquid container for containing a liquid, and a handle portion for performing an operation to eject gas, and the handle portion and the liquid container are detachable. The liquid container is attached with a liquid nozzle for ejecting liquid, and the handle portion is attached with a gas nozzle for ejecting gas. When the handle portion is attached to the liquid container, the liquid nozzle and the gas nozzle are arranged in a predetermined positional relationship. With such a spray device, the sprayer is provided separately from the case main body, so that there is no need to grip the case main body, so handling is easy.

JP, 2005-249193, A JP, 2014-39916, A

  However, in the configuration in which the coupling between the liquid container and the case body is maintained by the fitting of the convex portion and the concave portion as in the first spray device, if the coupling force between the liquid container and the case body is increased There is a problem of difficulty. That is, with the configuration in which the convex portion is fitted into the concave portion in a manner of press-fitting, the coupling force can be increased, but the fitting operation becomes difficult. On the other hand, with the configuration in which the convex portion is easily fitted to the concave portion, there is a problem that although the fitting operation can be easily performed, it is easy to be detached.

  Further, as in the second spray device, when the liquid nozzle and the gas nozzle are disposed in a predetermined positional relationship by attaching the handle portion to the liquid container, for example, when the attachment position of the handle portion is shifted due to the user's manual adjustment. There is a possibility that the relative position between the gas nozzle and the liquid nozzle may be shifted, and the spray function may be degraded.

  This invention is completed based on the above situations, Comprising: It aims at providing the spraying apparatus which can aim at the improvement of quality.

  The spray apparatus according to the present invention is a spray apparatus in which a sprayer for spraying a gas together with a liquid and a case main body containing a cylinder filled with the gas are connected by a tube, and the sprayer is a gas nozzle for discharging the gas And a nozzle holding unit holding the liquid nozzle for jetting the liquid, the gas nozzle and the liquid nozzle in a predetermined positional relationship, and an operation for jetting the gas while being connected to the case main body through the tube. A handle portion for carrying out the process, the handle portion having a relay pipe connected to the gas nozzle and constituting a part of the gas passage, which is detachably attachable to the nozzle holding portion, the gas nozzle And the relay pipe is provided with a connection structure which is connected by the attachment of the handle portion and detached by removal.

  According to the present invention, since the gas nozzle and the relay pipe are connected by the attachment of the handle portion and provided with the connection structure which is detached by the removal, the connection operation is easy and a high coupling force can be realized. Further, since the gas nozzle and the liquid nozzle are held by the nozzle holding portion in a predetermined positional relationship, the liquid nozzle and the gas nozzle can be easily exchanged according to the type of liquid while sharing the handle portion, and the gas nozzle It is possible to prevent the deterioration of the spray function caused by the relative positional deviation between the liquid nozzle and the liquid nozzle. That is, according to the present invention, the quality can be improved.

The perspective view which shows the spraying apparatus in a present Example Side view showing the spray device in a state where the sprayer is mounted on the mounting portion The top view which shows the spraying apparatus of the state which mounted the sprayer in the mounting part It is sectional drawing which shows the spraying apparatus of the state which mounted the sprayer in the mounting part, Comprising: It is sectional drawing corresponded to the cross section in the AA position of FIG. Exploded perspective view showing a sprayer Side view of the sprayer Front view showing a sprayer Bottom view showing the sprayer Cross section showing liquid container Cross-sectional perspective view showing a state in which the locking piece of the bottle cap and the locking rib of the liquid bottle are locked Sectional view showing the handle portion Sectional view showing the sprayer with the handle attached to the liquid container An exploded perspective view showing the case body Top view showing the case body

Preferred embodiments of the present invention are shown below.
In the spray device according to the present invention, the handle portion and the nozzle holding portion have a handle-side inclined portion and a nozzle-side inclined portion which are inclined in the same direction with respect to the attachment / detachment direction of the handle portion. In the state of being attached to the holding portion, the handle-side inclined portion and the nozzle-side inclined portion may be disposed in proximity to or in contact with each other in the mounting and demounting direction. According to such a configuration, since the handle portion can be attached to the nozzle holding portion only in the direction along the handle side inclined portion and the nozzle side inclined portion, it is possible to prevent an incorrect attachment direction of the handle portion .

  Further, in the spray device of the present invention, the relay pipe has a nozzle connection portion connected to the gas nozzle, and at least a part of the nozzle connection portion is an attachment direction front side of the handle portion to the nozzle holding portion It may be projected from the edge of According to such a configuration, since the handle portion can be attached to the nozzle holding portion while visually recognizing the nozzle connection portion of the relay pipe, the attachment operation of the handle portion can be easily performed.

<Example>
Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS.
The sprayer 10 in the present embodiment sprays a gas together with a liquid (for example, lotion or gel cosmetic), and the gas nozzle 12 for ejecting the gas and the liquid nozzle 11 for ejecting the liquid are in a predetermined positional relationship. The nozzle holding part 13 to hold | maintain and the handle part 60 which performs operation which makes gas eject are provided. The handle portion 60 is detachably attached to the nozzle holding portion 13. The sprayer 10 is connected via a tube T to a case main body 80 that accommodates a cylinder B filled with a gas. The cylinder B is filled with carbon dioxide gas in a liquefied state. The tube T constitutes a part of a gas passage connecting the cylinder B and the gas nozzle 12.

  It is desirable to use a gel-like composition having excellent thixotropic properties, in which the gel breaks down into a mist due to shear force upon spraying, and then quickly returns to the original gel shape. By using such a gel-like composition, the liquid sprayed on the spray section (skin of the user, etc.) can be made difficult to drip since the viscosity rises rapidly. Further, in the state of being accommodated in the liquid container 14, even if the viscosity is instantaneously lowered due to the impact of the liquid container 14 being turned over, the viscosity is rapidly raised, so that the liquid leakage can be prevented.

  The gas is preferably carbon dioxide. Since carbon dioxide has a blood circulation promoting action, when carbon dioxide dissolved in a liquid comes in contact with the skin, the blood circulation promoting effect of the skin is exhibited to have a favorable effect on beauty and health. In addition, carbon dioxide, which is easily dissolved in water and oil, carbon dioxide sprayed onto the skin together with the liquid penetrates from the skin to the inside and is taken into blood vessels. When carbon dioxide is taken into blood vessels, oxygen is released from hemoglobin, and oxygen is supplied to cells to express metabolic activity. Therefore, a higher cosmetic effect can be obtained by spraying the liquid in which carbon dioxide is dissolved into the skin.

  The spray device M in this embodiment can be taken out of the case main body 80 when using the sprayer 10 (see FIG. 1), and can be placed on the case main body 80 when the sprayer 10 is not used (see FIG. 2). Hereinafter, in each constituent member, the upper side of FIG. 1 will be described as upper side and the lower side as lower side, and the front side (left side in FIG. 6) in the gas ejection direction will be described as front and rear side as rear.

  The sprayer 10 has a liquid container 14 for containing a liquid such as a lotion. The liquid container 14 includes a bottomed cylindrical liquid bottle 15 whose upper surface is open, and a bottle cap 16 attached to the upper surface side of the liquid bottle 15.

  A locking rib 19 capable of locking a locking piece 23 of a bottle cap 16 described later is provided on the inner peripheral surface of the liquid bottle 15 (see FIG. 10). The locking rib 19 has a small thickness dimension (dimension in the circumferential direction of the liquid bottle 15) and has a plate shape long in the vertical direction. The plate surface of the locking rib 19 is substantially perpendicular to the inner peripheral surface of the liquid bottle 15.

  As shown in FIG. 5, the bottle cap 16 includes a cover plate 21 that closes the top opening of the liquid bottle 15 and a side plate 22 that descends downward from the outer peripheral edge of the cover plate 21.

  The outer peripheral surface of the side plate portion 22 has a polygonal shape (ten-angular shape) in a plan view. When the bottle cap 16 is in the normal closed position with respect to the liquid bottle 15, as shown in FIG. 6, the position of the corner (apex of the polygonal shape) of the outer peripheral surface of the bottle cap 16 and the outer peripheral surface of the liquid bottle 15 The positions of the corners coincide with each other in the circumferential direction, and form an aligned polygonal shape in the entire liquid container 14. Thus, when the angular position of the bottle cap 16 and the liquid bottle 15 is shifted in the circumferential direction, it can be known that the bottle cap 16 is deviated from the regular closed position.

  As shown in FIG. 10, the bottle cap 16 is provided with a locking piece 23 that can be locked to the locking rib 19 of the liquid bottle 15. The locking piece 23 has a cantilever shape and is elastically deformable in the vertical direction. The free end (tip) of the locking piece 23 is provided with a claw 24 projecting downward (inward).

  When the bottle cap 16 is externally fitted to the upper end portion of the liquid bottle 15 and rotated in the closing direction, the claw portion 24 of the locking piece 23 abuts on the locking rib 19 of the liquid bottle 15, and then the locking piece 23 Is elastically bent upward, and the claw portion 24 rides on the locking rib 19. When the bottle cap 16 reaches the regular closed position with respect to the liquid bottle 15, the locking piece 23 elastically returns to the lower side and the claw portion 24 locks to the locking rib 19. Thereby, the rotation of the bottle cap 16 in the opening direction is restricted, and the bottle cap 16 is locked in the regular closed position with respect to the liquid bottle 15. In addition, the user can obtain a click feeling that the bottle cap 16 has reached the regular closed position by the movement of the locking piece 23 over the locking rib 19.

  As shown in FIG. 5, the bottle cap 16 has an exterior portion 25, and a nozzle stopper portion 26 and a nozzle pedestal portion 27 incorporated inside the exterior portion 25. The nozzle stopper portion 26 and the nozzle pedestal portion 27 constitute a part of the nozzle holding portion 13.

  The exterior portion 25 has a lid plate surface portion 28 constituting a portion on the front side (upper side) of the lid plate portion 21 and a side plate portion 22. The nozzle stopper portion 26 has a lid plate back surface portion 29 constituting a portion on the back side (lower side) of the lid plate portion 21 and a stopper main body portion 31 erected on the top surface of the lid plate back surface portion 29. . The nozzle pedestal portion 27 is a substantially L-shaped component, and is assembled on the upper side of the nozzle stopper portion 26.

  The locking piece 23 is formed on the lid plate back surface 29 of the nozzle stopper 26 as shown in FIG. 9. The locking piece 23 is provided on the back surface side of the lid plate back surface portion 29, and a recessed portion 29A which is one step lower than the other portion is formed on the front side (upper side) of the locking member 23 in the lid plate back surface portion 29. It is done. Thereby, in a state where the lid plate back surface portion 29 is attached to the back surface of the lid plate surface portion 28 with the double-sided tape 90, the locking piece 23 is upward between the lid plate surface portion 28 on the upper side of the locking piece 23 A displacement space 32 which can be elastically displaced is formed. In addition, the recessed part 28A is formed also in the cover-plate surface part 28 side.

  The nozzle holding portion 13 is provided on the bottle cap 16 as shown in FIG. The nozzle holding portion 13 holds the gas nozzle 12 and the liquid nozzle 11 in such a positional relationship that the central axis of the tip opening 33 of the gas nozzle 12 and the central axis of the tip opening 34 of the liquid nozzle 11 are orthogonal and close to each other. . The tip opening 34 of the liquid nozzle 11 and the tip opening 33 of the gas nozzle 12 are disposed in a projection plane of the liquid container 14 (substantially at the center of the bottle cap 16) in plan view.

  The gas nozzle 12 has a gas nozzle tip 35 provided with a tip opening 33 for spouting gas, and a gas nozzle main body 36 provided in series behind the gas nozzle tip 35. The outer periphery of the gas nozzle tip 35 is formed to be tapered toward the tip opening 33.

  At the front end portion of the gas nozzle main body portion 36, a flange portion 37 that protrudes one step outward in the radial direction is provided. A relay pipe 61 of a handle portion 60 described later is linearly connected to the gas nozzle 12. The connection structure between the gas nozzle 12 and the relay pipe 61 will be described in detail later.

  The liquid nozzle 11 has a liquid nozzle tip 42 provided with a tip opening 34 for ejecting liquid, and a liquid nozzle main body 43 provided continuously below the liquid nozzle tip 42. . The outer periphery of the liquid nozzle tip portion 42 is formed to be tapered toward the tip opening 34.

  At a middle portion of the liquid nozzle main body 43, a fitting portion 44 to be fitted to a liquid nozzle through hole 53 described later is provided. The fitting portion 44 protrudes outward in the first radial direction compared to the upper and lower portions. In the fitting portion 44, an O-ring 91 which is in close contact with the liquid nozzle through hole 53 to prevent liquid leakage is fitted. At the lower end portion of the liquid nozzle main body 43, a suction tube 45 which is suspended inside the liquid container 14 is connected. The suction tube 45 is flexible and hangs down to the bottom of the liquid container 14.

  As shown in FIG. 9, the nozzle holder 13 holds the gas nozzle 12 in a horizontal posture in which the central axis of the tip opening 33 is horizontal and the vertical posture in which the central axis of the tip opening 34 is vertical. And a liquid nozzle holding unit 52 for holding the liquid nozzle 11.

The gas nozzle holder 46 holds the front end of the gas nozzle 12, and the rear portion of the gas nozzle 12 is disposed so as to project rearward from the gas nozzle holder 46.
The gas nozzle holding portion 46 has a gas nozzle through hole 47 through which the gas nozzle 12 penetrates in a horizontal posture. The gas nozzle through hole 47 is a circular hole whose central axis extends horizontally. The gas nozzle through hole 47 has a gas nozzle through portion 48 through which the gas nozzle tip 35 penetrates, and a gas nozzle fitting portion 49 into which the front end portion (the flange portion 37) of the gas nozzle main body 36 is fitted.

  In the gas nozzle 12 held by the gas nozzle holder 46, the gas nozzle tip 35 protrudes forward from the gas nozzle through hole 47, and a portion of the gas nozzle body 36 behind the flange 37 (half of the gas nozzle body 36 Or more) protrudes backward.

  The liquid nozzle holding portion 52 has a liquid nozzle through hole 53 through which the liquid nozzle 11 is vertically penetrated. The liquid nozzle through hole 53 is a circular hole whose central axis extends vertically. The liquid nozzle through hole 53 has a liquid nozzle penetrating portion 54 through which the liquid nozzle tip 42 penetrates, and a liquid nozzle fitting portion 55 into which the fitting portion 44 of the liquid nozzle main body 43 is fitted.

  In the liquid nozzle 11 held by the liquid nozzle holder 52, the liquid nozzle tip 42 protrudes upward from the liquid nozzle through hole 53, and the other part is accommodated in the liquid nozzle fitting portion 55.

  The gas nozzle fitting portion 49 of the gas nozzle through hole 47 is formed in the nozzle pedestal portion 27, and the gas nozzle through portion 48 is formed in the exterior portion 25. Further, the liquid nozzle fitting portion 55 of the liquid nozzle through hole 53 is formed from the nozzle seat portion 27 to the stopper main body portion 31 of the nozzle stopper portion 26, and the liquid nozzle through portion 54 is formed in the exterior portion 25. .

  The nozzle holding portion 13 is provided with a pair of protective walls 57 standing on both sides of the gas nozzle 12 and the tip openings 33 and 34 of the liquid nozzle 11. As shown in FIG. 7, the pair of protective walls 57 face each other with the tip portions 35 and 42 of the gas nozzle 12 and the liquid nozzle 11 interposed therebetween. The protective wall 57 is provided upright on the lid plate surface portion 28 of the exterior 25 of the bottle cap 16. A cover 58 is provided between the pair of protective walls 57 to cover the front side of the nozzle seat 27 and the nozzle stopper 26.

  As shown in FIG. 9, the pair of protective walls 57 includes a front wall 57F standing on both sides of the gas nozzle 12 and the tip portions 35 and 42 of the liquid nozzle 11, and a rear wall 57R standing on both sides of the gas nozzle main body 36. Have. The front wall portion 57F is a portion of the protective wall 57 on the front side of the top portion 57T, and the rear wall portion 57R is a portion of the protective wall 57 on the rear side of the top portion 57T. With the front wall 57F, the whole of the gas nozzle tip 35 projecting forward from the gas nozzle through hole 47 and the liquid nozzle tip 42 projecting upward from the liquid nozzle through hole 53 are laterally It is not visible from both sides). Further, about half of the gas nozzle main body 36 protruding rearward from the gas nozzle through hole 47 can not be visually recognized from the side by the rear wall portion 57R.

  The front edge of the protective wall 57 slopes downward from the top portion 57T, and the rear edge of the protective wall 57 slopes downward from the top portion 57T. The rear edge portion of the protective wall 57 is, as shown in FIG. 6, a nozzle-side inclined portion 59 which is inclined with respect to the mounting and demounting direction of the handle portion 60. The nozzle-side inclined portion 59 will be described in detail later.

  As shown in FIG. 11, the handle portion 60 is connected between the relay pipe 61, which is connected to the gas nozzle 12 and forms a part of the gas passage, and between the relay pipe 61 and the tube T, to form a part of the gas passage. The relay component 62 which comprises, and the housing 63 which hold | maintains the relay pipe 61 and the relay component 62 are provided.

  The housing 63 is in the form of an elongated bar as a whole. The front edge portion of the housing 63 is provided with a handle side inclined portion 64 which is inclined in the same direction as the nozzle side inclined portion 59 with respect to the mounting and demounting direction of the handle portion 60. The handle side inclined portion 64 will be described in detail later.

  The housing 63 is divided into upper and lower parts, as shown in FIG. 5, and includes an upper part 65 and a lower part 66 which can be combined with each other. The upper part 65 and the lower part 66 are fixed in a combined state with a screw 92. The head of the screw 92 is covered with a PET sheet 93.

  The upper part 65 is formed with an upper hole 67 through which an upper end portion of a shaft 78 described later passes in the vertical direction. An operation button 68 is attached to the upper end of the shaft 78 protruding from the upper hole 67.

  The lower part 66 is provided with a pilot hole 69 for causing the lower end of the relay part 62 to project downward. One end of the tube T is connected to the lower end portion of the relay component 62 protruding from the lower hole portion 69.

  The relay pipe 61 has a cylindrical shape, and is linearly connected to the gas nozzle 12 held by the nozzle holder 13. The connection structure between the relay pipe 61 and the gas nozzle 12 will be described in detail later.

  The rear end portion of the relay pipe 61 is screwed to and connected to the relay component 62 (see FIG. 11). The relay component 62 is a pipe penetrating in the vertical direction, and the relay pipe 61 is connected to an intermediate portion of the relay component 62 and communicates with the relay component 62. An O-ring 101 is attached between the rear end of the relay pipe 61 and the relay component 62 in close contact therewith to prevent the gas from leaking out.

  The relay component 62 includes an insertion pipe 76 through which the shaft 78 is inserted, and a connection pipe 77 to which one end of the tube T is connected. The insertion tube 76 and the connection tube 77 are screwed together and connected. An O-ring 96 is provided between the insertion pipe 76 and the connection pipe 77 to prevent the gas from leaking out.

  The upper end of the shaft 78 inserted into the insertion pipe 76 projects upward from the housing 63, and an operation button 68 is attached. The shaft 78 has an O-ring 97 in close contact with the inner circumferential surface of the insertion tube 76 to prevent gas leakage from between the shaft 78 and the insertion tube 76, and always on the inner circumferential surface of the insertion tube 76 The O-ring 98 closely contacts to prevent leakage of gas from between the shaft 78 and the insertion pipe portion 76 and separates from the inner circumferential surface of the insertion pipe portion 76 when the operation button 68 is operated. And are fitted. The O-ring 97 is provided at the middle of the shaft 78, and the O-ring 98 is provided at the lower end of the shaft 78. The O-ring 98 is restricted from being released downward by a flange portion 78F provided to project radially outward at the lower end portion of the shaft 78.

  Under the shaft 78, there is provided a spring 79 which always urges the shaft 78 upward to bring the O-ring 98 into close contact with the inner peripheral surface of the relay component 62. The spring 79 is disposed on the lower side of the flange portion 78F and accommodated in the connection pipe portion 77. The upper end of the spring 79 is fitted around the lower end of the shaft 78.

  Normally, the shaft 78 is urged upward by the urging of the spring 79, the O-ring 98 is in close contact with the inner circumferential surface of the relay component 62, and the gas passage is closed. When the operation button 68 is depressed, the shaft 78 is displaced downward against the biasing force of the spring 79, the O-ring 98 is separated from the inner circumferential surface of the relay component 62, and the gas passage is opened. Thus, the gas filled in the cylinder B is supplied to the gas nozzle 12 through the tube T, the relay component 62, and the relay pipe 61, and is jetted from the tip opening 33 of the gas nozzle 12. The negative pressure associated with the gas ejection from the tip opening 33 of the gas nozzle 12 sucks up the liquid in the liquid container 14 and sprays the jet of gas from the tip opening 34 of the liquid nozzle 11.

  As shown in FIG. 13, the case main body 80 has a case lower part 81 having an opening for taking in and out the cylinder B and containing the cylinder B, and a case upper part 82 for closing the opening. The sprayer 10 is mounted on a mounting portion 89 provided on the case upper portion 82. The mounting portion 89 is a concave portion having a polygonal shape whose inner peripheral surface is aligned with the liquid container 14, and has a structure for stopping the sprayer 10 mounted on the mounting portion 89.

  The case upper part 82 is equipped with a regulator 84 for adjusting the pressure and amount of gas. The regulator 84 is fixed to the upper case 82 by a screw 99 and a nut 100. The regulator 84 includes a needle portion (not shown) that is pierced through a sealing plate that seals the upper end opening 85H of the cylinder B. A joint portion 85 to which the tube T is connected is provided on the side surface of the regulator 84. The joint portion 85 is exposed to the outside through the opening 85 H of the case upper portion 82.

  The handle portion 60 is detachably attached to the nozzle holding portion 13 in a direction in which the gas nozzle 12 and the relay pipe 61 are linearly connected. As shown in FIG. 12, the gas nozzle 12 and the relay pipe 61 are connected by direct fitting, and the connected gas nozzle 12 and the relay pipe 61 communicate on the same axis. Since the gas nozzle 12 and the relay pipe 61 are connected in a straight line, the flow of gas from the relay pipe 61 to the gas nozzle 12 is smooth, so it is possible to prevent the gas from leaking out at the connection portion of the relay pipe 61.

  The gas nozzle 12 and the relay pipe 61 are connected by pushing in a direction parallel to the axial lines of the gas nozzle 12 and the relay pipe 61, and have a connection structure separated by pulling out in a parallel direction. The connection structure has locking means which is engaged with each other in a concavo-convex manner so as to be locked in the cross direction with the mounting and demounting direction of the handle portion 60. The locking means is locked by a force that pushes the handle portion 60 and is unlocked by a pulling force. In the present embodiment, the connection recess 38 is provided on the gas nozzle 12 side, and the connection projection 74 is provided on the relay pipe 61 side, as an example of the locking means.

  The connection recess 38 is provided in a portion of the gas nozzle 12 connected to the relay pipe 61 (hereinafter, referred to as a relay connection portion 39). The relay connection portion 39 is to be fitted inside the relay pipe 61, and the connection recess 38 is formed on the outer peripheral surface of the relay pipe 61. The connection recess 38 is a portion whose outer diameter is reduced compared to the front and rear portions, and has a groove shape continuous in the circumferential direction. On the rear side of the connection recess 38, an overturned portion 41 is provided which the connection protrusion 74 of the relay pipe 61 gets over when the handle portion 60 is attached and detached.

  On the other hand, the connection convex portion 74 is provided at a portion of the relay pipe 61 connected to the gas nozzle 12 (hereinafter referred to as a nozzle connection portion 71). The nozzle connection portion 71 is fitted to the outside of the gas nozzle 12. The connection convex portion 74 is a ball that can be fitted into the connection recess 38 of the gas nozzle 12 as shown in FIG. 12, and the movement in the circumferential direction is restricted by the outer peripheral surface of the nozzle connection portion 71. It is hold | maintained in the state by which the movement to radial direction outer side was controlled by this. A pair of connection convex portions 74 is provided on both sides in the radial direction of the nozzle connection portion 71. The plate spring 75 has a long shape in the axial direction of the relay pipe 61, and one end side in the longitudinal direction is fixed by a screw 95, and the other end side holds the connecting convex portion 74. One plate spring 75 is provided in each of the connection convex portions 74.

  The nozzle connection part 71 has the back surface 72 which opposes the rear surface of the relay connection part 39 of the gas nozzle 12 fitted inside, and the front-back direction, as shown in FIG. An O-ring 94 is fitted at the back end of the nozzle connection portion 71. The O-ring 94 is incorporated into the nozzle connection portion 71 from the front. The O-ring 94 is located at the back end of the nozzle connection portion 71 and pressed against the back surface of the gas nozzle 12 to be in close contact with the back surface 72 of the nozzle connection portion 71 to leak gas between the gas nozzle 12 and the relay pipe 61 prevent. The hole of the O-ring 94 is a gas passage.

  The relay pipe 61 is provided with a stopper component 73 for preventing the O-ring 94 from being moved forward. The stopper component 73 is assembled to the relay pipe 61 after the O-ring 94 is accommodated in the nozzle connection portion 71. The stopper part 73 projects inward in front of the O-ring 94, and prevents the O-ring 94 from being pulled out by narrowing the inner diameter of the relay pipe 61. A pair of stopper parts 73 are disposed to face each other in the radial direction of the relay pipe 61.

A front end portion (a part of the nozzle connection portion 71) of the relay pipe 61 protrudes forward from a handle side inclined portion 64 described later (see FIG. 11).
The handle portion 60 and the nozzle holding portion 13 have a handle side inclined portion 64 and a nozzle side inclined portion 59 which are inclined in the same direction with respect to the mounting and demounting direction of the handle portion 60.

  The nozzle-side inclined portion 59 is formed at the rear edge of the protective wall 57, as shown in FIG. The nozzle-side inclined portion 59 is formed on both of the pair of protective walls 57, and both are inclined so as to be gradually lowered rearward from the front end (the top 57T of the protective wall 57). The nozzle-side inclined portion 59 has a surface that is wider than the other portions of the protective wall 57, and protrudes outward in the protective wall 57 by one step (a direction perpendicular to the mounting direction of the handle portion 60) (see FIG. 7).

  At the lower end portion of the nozzle side inclined portion 59, as shown in FIG. 9, a contact convex portion 59A in contact with the handle portion 60 is provided. The contact convex portion 59A has an upper surface which is a substantially horizontal surface and a shape whose tip is pointed. Below the contact convex portion 59A, a nozzle side receiving portion 59B which is a part of the nozzle side inclined portion 59 is provided. The contact convex portion 59A and the nozzle side receiving portion 59B are provided at positions projecting outward in the radial direction from the lid plate portion 21 of the bottle cap 16.

  On the other hand, as shown in FIG. 11, the handle-side inclined portion 64 is inclined so as to gradually lower from the front end toward the rear. The handle side inclined portion 64 is formed over the entire height of the handle portion 60 in the vertical direction. At the lower end portion of the handle side inclined portion 64, a contact convex portion 59A provided on the nozzle holding portion 13 and a contact concave portion 64A contacting with the nozzle side receiving portion 59B and a handle side receiving portion 64B are provided. The contact recess 64A has a shape that matches the shape of the contact protrusion 59A and is recessed in the handle side inclined portion 64, and the upper surface of the contact recess 64A is a substantially horizontal surface. The handle side receiving portion 64B is a part of the handle side inclined portion 64, and is provided below the contact recess 64A. Most of the handle side inclined portion 64 is formed in the upper part 65, and the contact recess 64A and the handle side receiving portion 64B are formed in the lower part 66.

  In the state where the handle portion 60 is attached to the nozzle holding portion 13, as shown in FIG. 12, the handle side inclined portion 64 and the nozzle side inclined portion 59 are disposed close to or in contact with each other in the mounting and demounting direction. Thereby, the connection portion between the gas nozzle 12 and the relay pipe 61 is covered by the protective wall 57 and the housing 63. Further, the contact convex portion 59A is fitted in the contact concave portion 64A, and the handle side receiving portion 64B and the nozzle side receiving portion 59B come in contact with each other. As a result, the lower end portion of the front end of the handle portion 60 is supported by the nozzle holding portion 13.

Next, an example of the replacement operation of the liquid container 14 in the sprayer 10 in the present embodiment will be described. In addition, the replacement work of the liquid container 14 is performed by taking out the sprayer 10 from the mounting portion 89.
First, the handle portion 60 is removed from the liquid container 14. When the handle portion 60 is pulled in the disengaging direction (right direction in FIG. 12), the leaf spring 75 is elastically flexed and the connection convex portion 74 passes over the overcoming portion 41 and is disengaged from the connection concave portion 38 to release the locked state. . Then, the handle portion 60 is removed.

  Next, the liquid container 14 from which the handle portion 60 has been removed is replaced with another liquid container 14 and the handle portion 60 is attached. With the handle side inclined portion 64 oriented in the same direction as the inclination of the nozzle side inclined portion 59, the nozzle connection portion 71 of the relay pipe 61 is aligned with the relay connection portion 39 of the gas nozzle 12 and pushed. The nozzle connection portion 71 of the relay pipe 61 is externally fitted to the relay connection portion 39 of the gas nozzle 12, and the connection convex portion 74 elastically bends the plate spring 75 to get over the overpassing portion 41 and fit in the connection recess 38. The leaf spring 75 resiliently returns and holds the connecting convex portion 74. Thereby, the gas nozzle 12 and the relay pipe 61 are fitted in a straight line, and the relay pipe 61 and the gas nozzle 12 are locked in the connected state. Thus, the replacement operation of the liquid container 14 is completed.

Next, the operation and effects of the embodiment configured as described above will be described.
The sprayer 10 of this embodiment is a sprayer M in which a sprayer 10 for spraying a gas together with a liquid and a case main body 80 containing a cylinder B filled with a gas are connected by a tube T, and the sprayer 10 is a gas The nozzle 12 is connected to the case main body 80 through the tube T, and the nozzle holder 13 holds the gas nozzle 12 for jetting the liquid, the liquid nozzle 11 for jetting the liquid, the gas nozzle 12 and the liquid nozzle 11 in a predetermined positional relationship. And the handle portion 60 includes a relay pipe 61 connected to the gas nozzle 12 and constituting a part of a gas passage, and the handle portion 60 is attached to and detached from the nozzle holding portion 13. The gas nozzle 12 and the relay pipe 61 are connected freely by the attachment of the handle portion 60 and are provided with a connection structure which is detached by dismounting.

  According to this configuration, the gas nozzle 12 and the relay pipe 61 are connected by the attachment of the handle portion 60 and provided with the connection structure to be detached by the removal, so that the connection operation is easy and the high coupling force is realized. Can. Further, since the gas nozzle 12 and the liquid nozzle 11 are held by the nozzle holding portion 13 in a predetermined positional relationship, it is possible to prevent the deterioration of the spray function caused by the relative positional deviation between the gas nozzle 12 and the liquid nozzle 11 it can. In addition, since the liquid nozzle 11 and the gas nozzle 12 can be easily exchanged according to the type of liquid while sharing the handle portion 60, it is possible to select the liquid according to the use application and different types of liquids Can be prevented from being mixed and spouted. For example, the user uses the facial skin cosmetic for facial skin care using one handle portion 60, uses the cosmetic for body skin care, and hair for scalp care. Even if cosmetics are used, these liquids can be used comfortably without any mixing. That is, according to the sprayer 10 of the present embodiment, the quality can be improved.

  Further, the handle portion 60 and the nozzle holding portion 13 have the handle side inclined portion 64 and the nozzle side inclined portion 59 which are inclined in the same direction with respect to the mounting and demounting direction of the handle portion 60. In the attached state, the handle-side inclined portion 64 and the nozzle-side inclined portion 59 are disposed in proximity to or in contact with each other in the mounting and demounting direction. According to this configuration, the handle portion 60 can be attached to the nozzle holding portion 13 only in the direction along the handle side inclined portion 64 and the nozzle side inclined portion 59, so that the attachment direction of the handle portion 60 is prevented from being mistaken. be able to.

  Further, the relay pipe 61 has a nozzle connection portion 71 connected to the gas nozzle 12, and at least a part of the nozzle connection portion 71 protrudes from an edge of the handle portion 60 on the front side in the attachment direction to the nozzle holding portion 13. . According to this configuration, since the handle portion 60 can be attached to the nozzle holding portion 13 while visually recognizing the nozzle connection portion 71 of the relay pipe 61, the attachment operation of the handle portion 60 can be easily performed.

Other Embodiments
The present invention is not limited to the embodiments described above with reference to the drawings. For example, the following embodiments are also included in the technical scope of the present invention.
(1) In the above embodiment, the nozzle side inclined portion 59 is provided at the rear edge of the protective wall 57, and the handle side inclined portion 64 is provided at the front edge of the handle 60, but not limited thereto. The nozzle-side inclined portion or the handle-side inclined portion may be provided at another portion, for example, a laterally projecting portion is provided at the middle portion in the front-rear direction of the nozzle holding portion or the handle portion, and the inclined portion is provided at the projecting portion It may be provided.
(2) In the above embodiment, the nozzle-side inclined portion 59 and the handle-side inclined portion 64 are inclined so as to gradually fall backward from the front end, but the invention is not limited thereto. The inclination of the part may be reverse (inclining gradually upward from the front end to the rear).
(3) Although the connection structure between the gas nozzle 12 and the relay pipe 61 is specifically illustrated in the above embodiment, the connection structure between the gas nozzle and the relay pipe may be changed to another connection structure. good.
(4) In the above embodiment, the connection recess 38 is provided on the gas nozzle 12 side, and the connection projection 74 is provided on the relay pipe 61 side, but the present invention is not limited thereto. May have a connection recess.
(5) In the above-described embodiment, the ball is exemplified as the connecting convex portion. However, the present invention is not limited to this, and another member may be used as the connecting convex portion.

B: Cylinder M: Spraying device T: Tube 10: Sprayer 11: Liquid nozzle 12: Gas nozzle 13: Nozzle holding portion 59: Nozzle side inclined portion 60: Handle portion 61: Relay tube 64: Handle side inclined portion 71: Nozzle connection portion 80 ... Case body

Claims (3)

A sprayer in which a sprayer for spraying a gas together with a liquid and a case main body containing a cylinder filled with the gas are connected by a tube;
The sprayer includes a gas nozzle for ejecting the gas, a liquid nozzle for ejecting the liquid, a nozzle holding unit for holding the gas nozzle and the liquid nozzle in a predetermined positional relationship, and the case body via the tube. And a handle portion connected and performing an operation to eject the gas;
The handle portion has a relay pipe connected to the gas nozzle to form a part of the gas passage, and is detachable from the nozzle holding portion,
The spray apparatus comprising the connection structure in which the gas nozzle and the relay pipe are connected by the attachment of the handle portion and detached by the removal. The handle portion and the nozzle holding portion have a handle-side inclined portion and a nozzle-side inclined portion which are inclined in the same direction with respect to the attaching / detaching direction of the handle portion,
The spray device according to claim 1, wherein the handle-side inclined portion and the nozzle-side inclined portion are disposed in proximity to or in contact with each other in the mounting / demounting direction in a state where the handle portion is attached to the nozzle holding portion. The relay pipe has a nozzle connection portion connected to the gas nozzle;
The spray device according to claim 1 or 2, wherein at least a part of the nozzle connection portion protrudes from an edge of the handle portion on the front side in the mounting direction with respect to the nozzle holding portion.

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