JP6159608B2 - Former dispenser - Google Patents

Description

  The present invention relates to a former dispenser.

Conventionally, for example, a former dispenser described in Patent Document 1 below is known. The former dispenser includes a mounting cap that is mounted on a mouth portion of a container main body in which contents are stored, a discharger that has a stem that is erected on the mounting cap in an upwardly biased state, and a stem. A pressing head that is mounted and has a nozzle hole formed therein.
The discharge device includes a liquid piston linked to the stem, a liquid cylinder in which the liquid piston is housed slidably up and down, an air piston linked to the stem, and an air piston sliding up and down inside. And a pneumatic cylinder accommodated in a movable manner. The discharge device is further disposed between the gas-liquid mixing chamber for mixing the liquid from the liquid cylinder and the air from the air cylinder, and between the gas-liquid mixing chamber and the nozzle hole. A foaming member that foams the liquid mixture.
The mounting cap includes an annular ceiling wall portion disposed on the mouth portion of the container body, and a guide tube portion standing on the inner peripheral edge of the ceiling wall portion. The pressing head includes a top wall portion arranged on the upper side of the stem, a mounting cylinder portion extending from the top wall portion to the lower side and attached to the stem, and a mounting cylinder portion extending from the top wall portion to the lower side. And an outer cylinder that surrounds the guide cylinder from the outside in the radial direction. The interior of the outer cylinder communicates with the air cylinder through the guide cylinder.
In the former dispenser, when the pressing head is pressed and the stem is moved downward against the urging force, the discharger is activated to discharge the foam-like contents from the nozzle hole. Thereafter, when the pressing head is released and the pressing head is restored and moved upward together with the stem by the biasing force, the pressure in the air cylinder becomes negative. Then, air is sucked into the exterior cylinder part from the outside of the former dispenser through a gap between the inner peripheral surface of the exterior cylinder part and the outer peripheral surface of the guide cylinder part (hereinafter referred to as “inter-cylinder gap”). It is sucked into the air cylinder through the inside.

JP 2009-202122 A

  However, in the conventional former dispenser, if foreign matter such as water adheres on the outer surface of the mounting cap, when the pressing head is restored and moved upward, the foreign matter and the air pass through the inter-cylinder gap and enter the outer cylinder. May be sucked into the air cylinder and enter the air cylinder.

  The present invention has been made in view of the above-described circumstances, and an object of the present invention is to provide a former dispenser capable of suppressing entry of foreign matters such as water into an air cylinder.

In order to solve the above problems, the present invention proposes the following means.
A former dispenser according to the present invention includes a mounting cap that is mounted on a mouth portion of a container body in which contents are stored, and a stem that is erected on the mounting cap so as to be movable downward in an upward biased state. And a push-down head mounted on the stem and having a nozzle hole formed therein, and the discharger accommodates a liquid piston linked to the stem, and the liquid piston is slidably accommodated therein. A liquid cylinder, an air piston linked to the stem, an air cylinder in which the air piston is housed slidably up and down, a liquid from the liquid cylinder, and a liquid from the air cylinder A foamer comprising: a gas-liquid mixing chamber that mixes air; and a foaming member that is disposed between the gas-liquid mixing chamber and the nozzle hole and foams the gas-liquid mixture from the gas-liquid mixing chamber. The mounting cap includes an annular ceiling wall portion disposed on the mouth portion, and a guide tube portion standing on the ceiling wall portion, and the pressing head includes the stem. A head body having a top wall portion disposed on the upper side, a mounting cylinder portion extending downward from the top wall portion and mounted on the stem; and a mounting cylinder provided at a position below the top wall portion, And an exterior cylinder part that surrounds the guide cylinder part from the outside in the radial direction, and the interior of the exterior cylinder part can be communicated with the air cylinder through the guide cylinder part, and the head body and the exterior the cylindrical portion is assembled to each other is formed in a separate body, the upper end of the outer tubular portion includes an intake hole opened toward the upper side as well as through the exterior tubular portion in the radial direction are formed, the The intake hole in the outer peripheral surface of the outer cylinder The opening edge, wherein the recess communicates is formed in the intake hole recess inward in the radial direction. The top wall portion is provided with a pair of locking portions that protrude downward and are arranged at intervals in the circumferential direction, and are locked to respective portions facing the inside in the circumferential direction at the inner peripheral edge of the intake hole. It may be done.
In addition, a former dispenser according to the present invention includes a mounting cap that is mounted on a mouth portion of a container body in which contents are stored, and a stem that is erected on the mounting cap so as to be movable downward in an upward biased state. A discharge head, and a press-down head mounted on the stem and having a nozzle hole formed therein, wherein the discharge device includes a liquid piston linked to the stem, and the liquid piston is slidable up and down inside. The liquid cylinder housed, the air piston linked to the stem, the air cylinder in which the air piston is housed slidably up and down, the liquid from the liquid cylinder, and the air cylinder A gas-liquid mixing chamber that mixes air from the gas, and a foaming member that is disposed between the gas-liquid mixing chamber and the nozzle hole and foams the gas-liquid mixture from the gas-liquid mixing chamber. Former In the dispenser, the mounting cap includes an annular ceiling wall portion disposed on the mouth portion, and a guide tube portion erected on the ceiling wall portion, and the pressing head includes the stem. A head body having a top wall portion disposed on the upper side, a mounting cylinder portion extending downward from the top wall portion and mounted on the stem; and a mounting cylinder provided at a position below the top wall portion, And an exterior cylinder part that surrounds the guide cylinder part from the outside in the radial direction, and the interior of the exterior cylinder part can be communicated with the air cylinder through the guide cylinder part, and the head body and the exterior The cylindrical portion is formed separately and assembled with each other, and the upper end portion of the exterior cylinder portion is formed with an intake hole that penetrates the exterior cylinder portion in the radial direction and opens upward, Projected downward on the top wall Are spaced Rutotomoni circumferential direction, wherein a pair of locking portions for locking the respective portions in the inner peripheral edge facing the circumferential direction of the inner side of the intake hole.

According to this invention, since the intake hole is formed in the upper end portion of the exterior cylinder portion, when the press of the pressing head is released and the inside of the air cylinder becomes negative pressure, the outside air is sucked into the exterior cylinder portion. Can be sucked through the hole. Therefore, it is possible to suppress the outside air from being sucked into the exterior cylinder part through the gap between the inner peripheral surface of the exterior cylinder part and the outer peripheral surface of the guide cylinder part (hereinafter referred to as “inter-cylinder gap”). In addition, it is possible to suppress the foreign matter from being sucked into the exterior cylinder part together with the outside air from the inter-cylinder gap. Thereby, the penetration | invasion of the foreign material in the cylinder for air can be suppressed.
In addition, since the air intake hole is formed in the upper end portion of the exterior cylinder portion, the influence of the air intake hole on the appearance of the pressing head can be reduced.
Furthermore, since the air intake hole is opened upward, it is possible to easily remove the mold when the outer cylinder portion is molded with a mold, for example. Can be easily formed.

The opening edge of the suction hole in the outer peripheral surface of the outer tubular portion, when the depressions are formed, foreign matter difficult to penetrate, such as water, and it is possible outside air introduced through the recess portion to the intake hole, Outside air can be effectively sucked into the exterior cylinder part through the intake hole.
Further, when the top wall portion is provided with a pair of locking portions, when the head main body and the outer tube portion are about to rotate relative to each other in the circumferential direction, the locking portion is located on the inner peripheral edge of the intake hole. This rotation can be restricted by locking. Further, when the exterior cylinder portion is to be deformed so as to narrow the intake hole in the circumferential direction, the deformation can be restricted by the engagement portion being engaged with the inner peripheral edge of the intake hole.
Further, when the pair of locking portions are arranged at intervals in the circumferential direction, the inside and the outside of the outer tube portion are connected to each other at the intake hole while restricting the rotation and deformation as described above. It is possible to reliably communicate with each other through the portion positioned between the locking portions, and it is possible to reliably suck the outside air into the exterior cylinder portion through the intake hole.
In addition, it is a case where the fitting cylinder part which protrudes toward the lower side at the top wall part and is fitted to the mounting cylinder part from the outside is provided, and the locking part is the mounting cylinder part and the fitting cylinder part When the locking part is locked to the inner periphery of the intake hole, both ends in the radial direction of the locking part can be supported by the mounting cylinder part and the fitting cylinder part. Thus, the above rotation and deformation can be effectively regulated.

  The head main body may be provided with a covering wall portion that extends downward from the top wall portion and covers the intake hole from the outside in the radial direction.

  In this case, since the head main body is provided with the covering wall portion, it is possible to prevent the intake holes from being exposed to the outside, and the appearance of the former dispenser can be easily ensured.

  According to the former dispenser according to the present invention, it is possible to prevent foreign substances such as water from entering the air cylinder.

It is a fragmentary longitudinal cross-sectional view of the former dispenser which concerns on one Embodiment of this invention. It is a longitudinal cross-sectional view of the principal part of the former dispenser shown in FIG. It is a partial cross section figure of the pressing head which comprises the former dispenser shown in FIG. It is an AA cross-sectional arrow view shown in FIG. It is a top view of the exterior cylinder part which comprises the pressing head shown in FIG. It is the figure which looked at the exterior cylinder part shown in FIG. 5 from the front side, Comprising: It is the half sectional view which made the one side of the left-right direction the longitudinal section. It is a side view of the exterior cylinder part shown in FIG.

Hereinafter, a former dispenser 10 according to an embodiment of the present invention will be described with reference to FIGS. 1 to 7.
The former dispenser 10 discharges the contents (content liquid) in the form of bubbles. Examples of the contents include skin washing liquid (body wash). The composition table of an example of the contents is shown in Table 1 below.

  As shown in FIGS. 1 and 2, the former dispenser 10 can be moved downward in an upward biased state with respect to the mounting cap 11 mounted on the mouth portion 1 a of the container body 1 in which the contents are accommodated. A discharger 13 having a stem 12 erected, and a pressing head 15 attached to the stem 12 and having a nozzle hole 14 formed therein.

  Here, the mounting cap 11 is formed in a cylindrical shape that opens up and down, and the pressing head 15 is formed in a topped cylindrical shape. The central axes of the mounting cap 11, the stem 12, and the pressing head 15 are located on a common axis. Hereinafter, this common axis is referred to as the axis O, the direction along the axis O is referred to as the up-down direction, the pressing head 15 side along the up-down direction is referred to as the upper side, and the opposite side is referred to as the lower side. A direction perpendicular to the axis O is referred to as a radial direction, and a direction around the axis O is referred to as a circumferential direction.

  The mounting cap 11 includes an annular ceiling wall portion 16 disposed on the mouth portion 1 a of the container body 1, a guide cylinder portion 17 erected on the inner peripheral edge of the ceiling wall portion 16, and an outside of the ceiling wall portion 16. And a mounting peripheral wall portion 18 that extends downward from the peripheral edge portion and is mounted on the mouth portion 1a. The mouth portion 1a and the mounting peripheral wall portion 18 are fitted, for example, by screwing or undercutting.

  An inner guide convex portion 17 a that protrudes outward in the radial direction is provided at the upper end portion of the guide cylinder portion 17. The inner guide protrusion 17a is formed in an annular shape. In the guide tube portion 17, a C-shaped restriction member 19 in a plan view for restricting the pressing of the pressing head 15 is detachably attached to a portion located below the inner guide convex portion 17 a.

  The stem 12 is inserted into the mounting cap 11. The stem 12 includes a lower stem 20 and an upper stem 21.

An upper end portion of the lower stem 20 is disposed in the guide tube portion 17. An annular valve seat 22 is provided on the inner peripheral surface of the upper end portion of the lower stem 20 so as to protrude inward in the radial direction. A spherical liquid discharge valve 23 is provided on the valve seat 22 so as to be seated and separated.
In the upper end portion of the lower stem 20, a pressing member 24 formed via a support column extending in the vertical direction is provided. The struts are disposed in the upper end portion of the lower stem 20 at intervals in the circumferential direction, and the lower end portions of the struts are located on the valve seat 22. A circulation hole is provided between the plurality of support columns.

  The lower end portion of the upper stem 21 is fitted to the upper end portion of the lower stem 20 from the outside, and the upper stem 21 is inserted into the guide tube portion 17 of the mounting cap 11 so as to be movable up and down. A reduced diameter portion 21 a is formed at an intermediate portion of the upper stem 21 located between the lower end portion and the upper end portion. A plurality of vertical grooves 21 b extending in the vertical direction are formed on the inner peripheral surface of the lower end portion of the upper stem 21. The upper end portion of the vertical groove 21b opens in the radial direction, and the lower end portion of the vertical groove 21b opens downward.

  By the way, the discharge device 13 includes a liquid piston 25 linked to the stem 12, a liquid cylinder 26 in which the liquid piston 25 is housed slidably in the vertical direction, an air piston 27 linked to the stem 12, An air cylinder 28 in which an air piston 27 is housed slidably in the vertical direction, a gas-liquid mixing chamber 29 for mixing the liquid from the liquid cylinder 26 and the air from the air cylinder 28, and gas-liquid mixing A foaming member 30 that is disposed between the chamber 29 and the nozzle hole 14 and foams the gas-liquid mixture from the gas-liquid mixing chamber 29 is further provided.

  The air cylinder 28 is formed in a bottomed cylindrical shape, and the liquid cylinder 26 is formed in a cylindrical shape. Both cylinders are arranged coaxially with the axis O. The upper end opening of the air cylinder 28 is sealed via a packing provided between the inner surface of the mounting cap 11 and the upper surface of the mouth portion 1a. The liquid cylinder 26 extends downward from the bottom of the air cylinder 28. The liquid cylinder 26 and the air cylinder 28 are integrally formed. The liquid cylinder 26 has a smaller diameter than the air cylinder 28.

  The air piston 27 is disposed inside the air cylinder 28 so as to be vertically slidable in an airtight state, and is disposed inside the outer slide cylinder 31, and the stem 12 is vertically slid inside. The inner sliding cylinder 32 inserted movably, the connecting plate 33 connecting the inner peripheral surface of the outer sliding cylinder 31 and the outer peripheral surface of the inner sliding cylinder 32, and the air penetrating the connecting plate 33 in the vertical direction. A hole 34 and a valve body 35 that opens and closes the air hole 34 are provided.

  The lower stem 20 is inserted into the inner sliding cylinder 32, and the upper end of the inner sliding cylinder 32 can slide up and down on the inner peripheral surface of the upper stem 21 within the lower end of the upper stem 21. Is fitted. A communication gap S, which is a vertical gap, is provided between the upper end edge of the inner sliding cylinder 32 and the inner surface of the upper stem 21. In the communication gap S, the lower end portion of the vertical groove 21b of the upper stem 21 is opened. The lower end portion of the upper stem 21 is opposed to the upper end portion of the plurality of convex rib portions 32a provided on the outer peripheral surface of the inner sliding cylinder 32 with a space therebetween.

A stem groove 20 a extending in the vertical direction is formed in a portion inserted into the inner sliding cylinder 32 on the outer peripheral surface of the lower stem 20. A plurality of convex portions are provided on the outer peripheral surface of the inner sliding cylinder 32, and the stem groove 20a is formed between the convex portions. A plurality of stem grooves 20a are arranged at intervals in the circumferential direction. The upper end portion of the stem groove 20a communicates with the communication gap S.
The gas-liquid mixing chamber 29 is provided between the lower stem 20 and the upper stem 21, and in the illustrated example, is provided between the pressing member 24 and the upper stem 21 (near the reduced diameter portion 21a). The gas-liquid mixing chamber 29 can communicate with the inside of the air cylinder 28 through the air passage 36 constituted by the vertical groove 21b, the communication gap S, and the stem groove 20a.

  Here, in the present embodiment, an annular projecting portion 37 projecting outward in the radial direction is provided in a portion of the lower stem 20 located in the air cylinder 28. Since the upper surface portion of the projecting portion 37 is in contact with the lower end edge of the inner sliding cylinder 32 of the air piston 27, the opening of the air passage 36 in the air cylinder 28 is closed, and the interior of the air cylinder 28 is closed. And the communication between the gas-liquid mixing chamber 29 are blocked.

  The liquid piston 25 is formed in a multistage cylindrical shape that gradually decreases in diameter from the lower side toward the upper side. The liquid piston 25 protrudes downward from the lower end opening edge of the stem 12 and is fitted in the liquid cylinder 26 so as to be slidable in the vertical direction. A lower cylinder portion 25b.

A coil spring 38 is disposed between the upper cylinder portion 25a and the inner surface of the lower end portion of the liquid cylinder 26 to support the liquid piston 25 so as to be movable downward in an upward biased state.
Inside the piston 25 for liquid and the cylinder 26 for liquid, the rod-shaped valve member 39 extended in an up-down direction is provided. The upper end portion of the valve member 39 is an upper valve body 39a that can be seated and separated from the upper end opening portion of the upper cylindrical portion 25a of the liquid piston 25, and the lower end portion of the valve member 39 is the lower end opening in the liquid cylinder 26. The lower valve body 39b can be seated and separated from the part.

  As shown in FIG. 2, the foam member 30 is provided in the stem 12, and is fitted in the upper end portion of the upper stem 21 in the illustrated example. The foaming member 30 is configured by a plurality of foaming elements 30a each having a mesh body disposed on the opening edge of a cylindrical body, two in the illustrated direction, and two in the illustrated example. Of the two foam elements 30a, in the foam element 30a located on the upper side, a net is provided only at the upper end opening edge of the both ends opening edges of the cylinder, and in the foam element 30a located on the lower side, A net is provided only at the lower end opening edge of the both end opening edges. It should be noted that at least one foam element 30a and net body may be provided. Further, by changing the roughness of the mesh of the foam element 30a located on the upper side (fine eyes) and the mesh of the foam element 30a located on the lower side (rough eyes), finer bubbles can be generated. be able to.

  As shown in FIGS. 2 to 4, the pressing head 15 includes a head main body 41 and an exterior cylinder portion 42. The head main body 41 and the exterior cylinder part 42 are formed separately and assembled to each other. The head main body 41 includes a top wall portion 43, a mounting tube portion 44, a fitting tube portion 45, a covering wall portion 46, and a nozzle tube portion 47. The top wall portion 43 is disposed on the upper side of the stem 12.

  The mounting cylinder portion 44 extends downward from the top wall portion 43 and is mounted on the stem 12. The mounting cylinder portion 44 is disposed coaxially with the axis O and is fitted to the upper end portion of the upper stem 21 from the outside. The lower end portion of the mounting tube portion 44 is inserted into the guide tube portion 17, and the mounting tube portion 44 is movable up and down in the guide tube portion 17.

On the inner peripheral surface of the upper end portion of the mounting cylinder portion 44, a regulation rib 44a that protrudes inward in the radial direction is provided. The restriction rib 44 a is formed in a plate shape extending in the vertical direction, and the upper end portion of the restriction rib 44 a is connected to the top wall portion 43. The lower end portion of the restriction rib 44 a is in contact with the upper end portion of the upper stem 21.
The fitting cylinder portion 45 projects downward from the top wall portion 43 and is disposed coaxially with the axis O. The fitting cylinder part 45 surrounds the upper end part of the mounting cylinder part 44 from the outside in the radial direction.

  The nozzle cylinder portion 47 extends from the mounting cylinder portion 44 toward the outside in the radial direction, and protrudes outward in the radial direction from the fitting cylinder portion 45. The nozzle cylinder 47 communicates with the stem 12 through the upper end of the mounting cylinder 44, and the nozzle hole 14 is provided in the protruding end of the nozzle cylinder 47. Hereinafter, of the radial directions, the direction in which the nozzle cylinder portion 47 extends is referred to as the front-rear direction, the direction in which the nozzle holes 14 open along the front-rear direction is referred to as the front side, and the opposite side is referred to as the rear side.

  As shown in FIG. 3, the covering wall portion 46 extends downward from the outer peripheral edge portion of the top wall portion 43. The covering wall portion 46 is formed in a C-shape that opens forward when the former dispenser 10 is viewed from above and below, and the peripheral end portion of the covering wall portion 46 is a nozzle cylinder portion 47. Are connected to the respective sides facing in the circumferential direction. The covering wall part 46 covers the upper end part of the mounting cylinder part 44 and the fitting cylinder part 45 from the outside in the radial direction.

  As shown in FIG. 2, the exterior cylinder portion 42 is provided at a position below the top wall portion 43. The upper end edge of the exterior cylinder part 42 is in contact with the lower surface of the top wall part 43, and the upper end part of the exterior cylinder part 42 is fitted in the fitting cylinder part 45. An annular ridge portion 48 that protrudes outward in the radial direction is provided at the upper end portion of the exterior cylinder portion 42. The protrusion 48 is fitted (undercut or the like) to the inner peripheral surface of the fitting cylinder 45.

  The exterior cylinder part 42 surrounds the mounting cylinder part 44 and the guide cylinder part 17 from the outside in the radial direction, and the inside of the exterior cylinder part 42 can communicate with the air cylinder 28 through the guide cylinder part 17. Yes. The lower end part of the exterior cylinder part 42 is disposed at the same position as the lower end part of the mounting cylinder part 44 in the vertical direction. The lower end part of the exterior cylinder part 42 surrounds the upper end part of the guide cylinder part 17 from the outer side in the radial direction.

  An outer guide convex portion 42 a that protrudes inward in the radial direction is provided at the lower end portion of the exterior cylinder portion 42. The outer guide convex portion 42a is formed in an annular shape. The outer guide convex portion 42a is opposed to the inner guide convex portion 17a in the radial direction before the pressing head 15 is pressed, and is close to the inner guide convex portion 17a.

  As shown in FIGS. 2 to 7, intake holes 51 a and 51 b are formed in the upper end portion of the exterior cylinder portion 42. The intake holes 51a and 51b penetrate the exterior cylinder part 42 in the radial direction and open upward. The intake holes 51a and 51b are provided with a first intake hole 51a and a second intake hole 51b.

  As shown in FIGS. 3 and 5, the first air intake holes 51 a are arranged in the portions located on both sides in the left-right direction perpendicular to both the up-down direction and the front-rear direction in the exterior cylinder portion 42. The first intake holes 51a have the same shape and the same size. As shown in FIG. 7, the first intake hole 51a is formed in a rectangular shape in a side view of the former dispenser 10 as viewed from the left-right direction.

  Here, in the opening peripheral edge portions of the intake holes 51 a and 51 b on the outer peripheral surface of the exterior cylinder portion 42, recess portions 52 that are recessed in the radial direction and communicate with the intake holes 51 a and 51 b are formed. The recess 52 is arranged in a portion of the outer peripheral surface of the first intake hole 51a on the outer peripheral surface of the exterior cylinder part 42 that is continuous with the first intake hole 51a from below. The hollow portion 52 is formed in a rectangular shape in the side view. The size of the recess 52 in the circumferential direction is the same as the size of the first intake hole 51a in the circumferential direction.

As shown in FIG. 4, the first intake hole 51 a is covered from the outside in the radial direction by the fitting tube portion 45 and the covering wall portion 46. The first intake hole 51 a communicates with the outside of the former dispenser 10 through the recess 52.
As shown in FIGS. 2, 3, and 5, the second intake hole 51 b is located on the front side of the outer tube portion 42, and is disposed in the front where the circumferential position is equivalent to the nozzle tube portion 47. Has been.

  A nozzle cylinder portion 47 is inserted into the second intake hole 51b from above, and the nozzle cylinder portion 47 extends forward from the second intake hole 51b and is more radially outward than the exterior cylinder portion 42. Protruding. The size of the second intake hole 51b in the circumferential direction is equal to the size of the nozzle cylinder portion 47 in the circumferential direction, and each side surface of the nozzle cylinder portion 47 is circumferential in the inner periphery of the second intake hole 51b. It is locked to each part facing inward.

  The second intake hole 51b is larger in the vertical direction than the nozzle cylinder 47, and between the lower surface of the nozzle cylinder 47 and the portion facing the upper side at the inner peripheral edge of the second intake hole 51b, A gap in the vertical direction is provided.

  Guide ribs 53 a and 53 b extending in the up-down direction are projected from the inner peripheral surface of the exterior cylinder portion 42. The guide ribs 53a and 53b can be slidably contacted with the guide tube portion 17 and, in the illustrated example, with the inner guide convex portion 17a from the outside in the radial direction when the pressing head 15 is pressed obliquely. The guide ribs 53a and 53b are disposed in each portion of the outer tube portion 42 that is located on the opposite side with the guide tube portion 17 in the radial direction. The guide ribs 53a and 53b are provided with a first guide rib 53a and a second guide rib 53b.

  The first guide rib 53a is disposed in front of the exterior tube portion 42, and is disposed in a portion of the front that is located below the second intake hole 51b. The upper end portion of the first guide rib 53a is located below the inner peripheral edge of the second intake hole 51b. The lower end portion of the first guide rib 53a is connected to the outer guide convex portion 42a. The first guide rib 53a extends straight in the vertical direction and is smoothly connected to the surface of the outer guide convex portion 42a.

  As shown in FIG. 5, three first guide ribs 53 a are provided in front of the outer tube portion 42 with a circumferential interval. The three first guide ribs 53a are arranged at equal intervals in the circumferential direction. Of the three first guide ribs 53a, the one located at the center in the circumferential direction is disposed in front of the axis O.

  The second guide rib 53b is disposed at the rear portion, which is a portion located on the opposite side of the first guide rib 53a with the guide tube portion 17 sandwiched in the radial direction. As shown in FIG. 6, the second guide rib 53 b is formed over the entire vertical length of the rear portion of the guide tube portion 17. The lower end portion of the second guide rib 53b is connected to the outer guide convex portion 42a. The second guide rib 53b extends straight in the vertical direction and is smoothly connected to the surface of the outer guide convex portion 42a.

  As shown in FIG. 5, two second guide ribs 53 b are provided at the rear portion of the outer tube portion 42 with a gap in the circumferential direction. The two first guide ribs 53a are arranged so as to avoid a portion of the exterior cylinder portion 42 that is positioned in front of the rear with respect to the axis O.

  As shown in FIGS. 3 and 4, the top wall portion 43 of the head body 41 protrudes downward and is disposed at intervals in the circumferential direction, and in the circumferential direction at the inner peripheral edges of the intake holes 51 a and 51 b. A pair of locking portions 54 are provided to lock the respective portions facing inward.

  The pair of locking portions 54 is provided in each of the first intake holes 51a, and is disposed on each portion of the top wall portion 43 that is located on both sides in the left-right direction. The locking portion 54 is formed in a plate shape extending in the radial direction, and extends straight along the left-right direction in the plan view. And the surface which faces the circumferential direction in the latching | locking part 54 latches to the inner periphery of the 1st inlet hole 51a, and adjoins or contact | abuts to this inner periphery.

  The locking part 54 connects the mounting cylinder part 44 and the fitting cylinder part 45, and the radially inner end of the locking part 54 is connected to the mounting cylinder part 44, and the radially outer end. The part is connected to the fitting cylinder part 45.

  As shown in FIG. 4, the vertical size of the locking portion 54 decreases in a stepped manner from the inner side to the outer side in the radial direction. Of the locking portion 54, the in-cylinder portion 54a located on the inner side in the radial direction with respect to the outer tube portion 42 is located on the outer side in the radial direction with respect to the in-cylinder portion 54a and is disposed in the first intake hole 51a. It protrudes downward from the part. The in-cylinder portion 54a supports the outer cylinder portion 42 from the inner side in the radial direction, and is in close proximity to or in contact with the inner peripheral surface of the outer cylinder portion 42 from the inner side in the radial direction.

  As shown in FIGS. 2 and 3, the top wall portion 43 is provided with support plate portions 55 that protrude downward and extend in the radial direction, and are arranged in the circumferential direction. The support plate portion 55 is provided radially around the axis O in the plan view and is intermittently disposed over the entire circumference in the circumferential direction. The support plate portion 55 is disposed at a position that avoids the circumferential direction between the pair of locking portions 54 and the nozzle cylinder portion 47.

  As shown in FIG. 2, the radially inner end of the support plate 55 is connected to the mounting cylinder 44. The outer end portion in the radial direction of the support plate portion 55 supports the outer cylinder portion 42 from the inner side in the radial direction, and approaches or abuts against the inner peripheral surface of the outer cylinder portion 42 from the inner side in the radial direction. As shown in FIG. 3, a plurality of support plate portions 55 are arranged at intervals in the circumferential direction to form a plate portion row 56, and the outer tube portion 42 is arranged with respect to the plate portion row 56. It is fitted from the outside.

  In the former dispenser 10 as shown in FIGS. 1 and 2, when discharging the contents, the regulating member 19 is removed and the pressing head 15 is pushed down. Then, the guide tube portion 17 enters the gap between the mounting tube portion 44 and the exterior tube portion 42.

  In this embodiment, since the nozzle cylinder portion 47 protrudes forward from the mounting cylinder portion 44, when the pressing head 15 is pressed, for example, the pressing head 15 is pressed diagonally, that is, diagonally forward rather than directly below. The position relationship in the front-rear direction between the exterior cylinder portion 42 and the head main body 41 is likely to become unstable due to pressing down or obliquely rearward. However, since the first guide ribs 53a and the second guide ribs 53b are disposed in the portions of the exterior cylinder portion 42 that are located on both sides in the front-rear direction, both the guide ribs 53a are pressed when the pressing head 15 is pressed. , 53b stabilizes the position of the exterior cylinder portion 42 in the front-rear direction.

Here, when the pressing head 15 is pressed as described above, the guide tube portion 17 enters the gap between the mounting tube portion 44 and the exterior tube portion 42, while the stem 12 and the liquid piston 25 are coil springs. 38 is moved downward while being compressed and deformed in the vertical direction.
At this time, a gap is formed between the lower end of the inner sliding cylinder 32 and the upper surface portion of the protruding portion 37 of the stem 12. As a result, the air cylinder 28 and the gas-liquid mixing chamber 29 communicate with each other through the air passage 36.

  Further, at this time, with the downward movement of the liquid piston 25, the upper end portion of the liquid piston 25 is separated downward from the upper valve body 39a of the valve member 39, and the inside of the liquid cylinder 26 and the inside of the stem 12 are separated. The lower valve body 39b of the valve member 39 is also moved downward, and the lower valve body 39b is seated and closed at the lower end opening in the liquid cylinder 26.

  When the pressing head 15 is further pushed down, the air piston 27 is also moved downward in a state where the valve body 35 closes the air hole 34, and in the lower chamber located below the air piston 27 in the air cylinder 28. Air is compressed. As a result, the air in the lower chamber flows into the air passage 36 from the gap between the lower end of the inner sliding cylinder 32 of the air piston 27 and the projecting portion 37 of the stem 12 and enters the gas-liquid mixing chamber. 29.

  Further, at this time, since the lower piston body 39b of the valve member 39 closes the lower end opening of the liquid cylinder 26, the liquid piston 25 moves downward, the liquid in the liquid cylinder 26 rises and the stem 12 is reached. Then, the liquid pressure in the liquid cylinder 26 is applied to the liquid discharge valve 23 in the stem 12, and the liquid discharge valve 23 is separated upward from the valve seat 22, so that the liquid in the liquid cylinder 26 is gas-liquid. It flows into the mixing chamber 29.

  In this way, after the liquid and air are merged in the gas-liquid mixing chamber 29 and passed through the foaming member 30 to cause the liquid to foam, the nozzle is passed through the upper end portion of the mounting tube portion 44 and the nozzle tube portion 47. A foam is discharged from the hole 14.

  Thereafter, when the push-down head 15 is released, the liquid piston 25 is pushed upward by the elastic restoring force of the coil spring 38. Thereby, the upper end opening of the upper cylinder portion 25a of the liquid piston 25 contacts the upper valve body 39a, the communication between the liquid cylinder 26 and the stem 12 is blocked, and the lower valve body 39b is The container main body 1 and the liquid cylinder 26 communicate with each other by separating from the lower end opening in the liquid cylinder 26, and the contents in the container main body 1 flow into the liquid cylinder 26. In addition, at this time, the inside of the container body 1 becomes negative pressure, and the air piston 27 of the air cylinder 28 passes through the introduction hole provided in a portion of the air cylinder 28 positioned above the outer sliding cylinder 31. Air in the upper chamber located above is introduced into the container body 1.

  The stem 12 and the pressing head 15 are integrally lifted together with the liquid piston 25 that rises in this way, and the protruding portion 37 of the stem 12 contacts the lower end edge of the inner sliding cylinder 32 of the air piston 27. By contacting, the communication between the lower chamber and the gas-liquid mixing chamber 29 through the air passage 36 is blocked. In this state, the stem 12 and the air piston 27 are integrally raised to lower the internal pressure of the lower chamber, whereby the valve body 35 is opened and the air hole 34 is opened, and the intake hole 51a is formed in the lower chamber. , 51 b, outside air is sucked through the exterior cylinder part 42 and the guide cylinder part 17.

  By the way, for example, in a former dispenser in which the outer cylinder portion 42 is not provided with the intake holes 51a and 51b, when the pressing head 15 is restored and moved upward, the outside air is transferred to the inner peripheral surface of the outer tube portion 42 and the guide tube. The air is sucked into the outer cylinder portion 42 through a gap between the outer peripheral surface of the portion 17 (hereinafter referred to as “inter-cylinder gap”), and is sucked into the air cylinder 28 through the guide tube portion 17. Here, if foreign matter such as water adheres on the outer surface of the mounting cap 11, the foreign matter is sucked into the exterior cylinder portion 42 through the inter-cylinder gap together with air when the pressing head 15 is restored and moved upward. May enter the air cylinder 28.

  On the other hand, in the former dispenser 10 of the present embodiment, since the intake holes 51a and 51b are formed in the upper end portion of the outer cylinder portion 42, the pressing of the pressing head 15 is released and the inside of the air cylinder 28 is kept. When the negative pressure is reached, the outside air can be sucked into the exterior cylinder portion 42 through the intake holes 51a and 51b as described above. Thereby, outside air is suppressed from being sucked into the exterior cylinder part 42 through the inter-cylinder gap, and foreign matter is suppressed from being sucked into the exterior cylinder part 42 together with outside air from the inter-cylinder gap.

As described above, according to the former dispenser 10 according to the present embodiment, since the intake holes 51a and 51b are formed in the upper end portion of the exterior cylinder portion 42, foreign matter is introduced from the gap between the cylinders as described above. It becomes possible to suppress suction into the exterior cylinder portion 42 together with the outside air, and it is possible to suppress the entry of foreign matter into the air cylinder 28.
Further, since the intake holes 51a and 51b are formed in the upper end portion of the exterior cylinder portion 42, the influence of the intake holes 51a and 51b on the appearance of the pressing head 15 can be suppressed.
Further, since the intake holes 51a and 51b are opened upward, for example, when the exterior cylinder portion 42 is formed by a mold, the mold can be easily removed. The mar dispenser 10 can be easily formed easily.

  Moreover, since the hollow part 52 is formed in the opening peripheral part of the inlet holes 51a and 51b in the outer peripheral surface of the exterior cylinder part 42, it is difficult for foreign substances, such as water, to penetrate | invade, and external air is hollowed into the inlet holes 51a and 51b. It becomes possible to introduce through the part 52, and external air can be effectively sucked into the exterior cylinder part 42 through the intake holes 51a and 51b.

  In addition, since the head main body 41 is provided with the covering wall portion 46, it is possible to prevent the intake holes 51a and 51b from being exposed to the outside, and it is easy to ensure the appearance of the former dispenser 10. Can do.

Further, since the top wall portion 43 is provided with a pair of locking portions 54, when the head main body 41 and the exterior cylinder portion 42 try to rotate relative to each other in the circumferential direction, the locking portion 54 becomes the intake hole. This rotation can be restricted by engaging the inner peripheral edges of 51a and 51b. Further, when the exterior cylinder part 42 is to be deformed so as to narrow the intake holes 51a and 51b in the circumferential direction, the locking part 54 is locked to the inner peripheral edge of the intake holes 51a and 51b, thereby restricting the deformation. You can also
Further, since the pair of locking portions 54 are arranged at intervals in the circumferential direction, the inside and the outside of the exterior cylinder portion 42 are connected to the intake holes 51a, while restricting rotation and deformation as described above. In 51b, it becomes possible to communicate reliably through the part located between a pair of latching | locking parts 54, and external air can be reliably attracted | sucked in the exterior cylinder part 42 through the intake holes 51a and 51b.
Note that, as in this embodiment, the top wall portion 43 is provided with a fitting tube portion 45 that protrudes downward and is fitted to the mounting tube portion 44 from the outside. 54, when the mounting cylinder part 44 and the fitting cylinder part 45 are connected, the radial direction of the locking part 54 when the locking part 54 is locked to the inner periphery of the intake holes 51a and 51b. It is possible to support the both end portions by the mounting tube portion 44 and the fitting tube portion 45, and the above rotation and deformation can be effectively restricted.

  In addition, a plurality of support plate portions 55 are arranged on the top wall portion 43, and the radially inner end portion of the support plate portion 55 is connected to the mounting cylinder portion 44 and the support plate portion 55 in the radial direction. The outer end portion supports the outer cylinder portion 42 from the inner side in the radial direction. Therefore, for example, when the outer cylinder portion 42 is loose in the radial direction with respect to the head main body 41, the outer cylinder portion 42 is supported by the top wall portion 43 and the mounting cylinder portion 44 via the support plate portion 55. Can be made. Thereby, it becomes possible to attach the exterior cylinder part 42 to the head main body 41 firmly, for example, the backlash of the exterior cylinder part 42 and the head main body 41 can be suppressed.

  Moreover, since the fitting cylinder part 45 is provided in the top wall part 43, it becomes possible to clamp the exterior cylinder part 42 in the radial direction between the support plate part 55 and the fitting cylinder part 45, The exterior cylinder part 42 can be attached to the head body 41 more firmly.

  Further, since the in-cylinder portion 54a of the locking portion 54 supports the exterior cylinder portion 42 from the inside in the radial direction, not only the support plate portion 55 but also the in-cylinder portion 54a of the locking portion 54 has the exterior cylinder portion 42. Can be supported from the inside in the radial direction, and the exterior cylinder portion 42 can be attached to the head body 41 more firmly.

  Further, since the guide ribs 53a and 53b project from the inner peripheral surface of the exterior cylinder part 42, the guide cylinder part 17 is moved in the vertical direction on the guide ribs 53a and 53b, for example, when the pressing head 15 is obliquely pressed. The guide cylinder 17 can restrict the displacement of the outer cylinder 42 in the radial direction. As a result, the radial position of the exterior cylinder portion 42 can be stabilized, and the radial positional relationship between the exterior cylinder portion 42 and the head body 41 can be stabilized.

  Further, since the guide ribs 53a and 53b are arranged in the portions of the exterior cylinder portion 42 that are located on the opposite sides of the guide cylinder portion 17 in the radial direction, when the pressing head 15 is obliquely pressed, the guide ribs 53a and 53b can be slidably brought into contact with the guide cylinder portion 17 from both outer sides in the radial direction, and the radial position of the exterior cylinder portion 42 can be further stabilized.

  In addition, since the first guide rib 53a and the second guide rib 53b are disposed in the portions of the exterior cylinder portion 42 that are located on both sides in the front-rear direction, the first guide rib 53a when the pressing head 15 is pressed obliquely. And the position of the front-back direction of the exterior cylinder part 42 can be stabilized by the 2nd guide rib 53b. Therefore, the positional relationship in the front-rear direction between the exterior cylinder portion 42 and the head body 41 can be reliably stabilized.

  The technical scope of the present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention.

  For example, in the modification of the present invention, the restriction member 19 may not be provided.

In the embodiment, the guide ribs 53a and 53b include the first guide rib 53a and the second guide rib 53b, but the present invention is not limited to this. For example, the guide ribs may be arranged in each part located on both sides in the left-right direction in the exterior cylinder part.
In the modified example of the present invention, the guide ribs 53a and 53b may not be disposed in each part of the exterior cylinder part 42 that is positioned on the opposite side of the guide cylinder part 17 in the radial direction. Furthermore, the guide ribs 53a and 53b may be omitted.

In the modification of the present invention, the in-cylinder portion 54a of the locking portion 54 may not support the exterior cylinder portion 42 from the inside in the radial direction. Moreover, the latching | locking part 54 does not need to connect the mounting cylinder part 44 and the fitting cylinder part 45. FIG. Further, the locking portion 54 may not be provided.
In the modification of the present invention, the nozzle cylinder portion 47, the fitting cylinder portion 45, and the covering wall portion 46 may not be provided. In this case, for example, the nozzle hole may be formed by a through hole penetrating the exterior cylinder part. Further, the support plate portion 55 may not be provided.

In the modified example of the present invention, the recess 52 may be omitted.
In the above-described embodiment, the intake holes 51a and 51b include the first intake holes 51a and the second intake holes 51b, but the present invention is not limited to this. For example, at least one of a first intake hole and a second intake hole may be provided as the intake hole.

  In addition, it is possible to appropriately replace the constituent elements in the embodiment with known constituent elements without departing from the spirit of the present invention, and the above-described modified examples may be appropriately combined.

DESCRIPTION OF SYMBOLS 1 Container body 1a Mouth part 10 Former dispenser 11 Mounting cap 12 Stem 13 Discharger 14 Nozzle hole 15 Depressing head 16 Top wall part 17 Guide cylinder part 25 Liquid piston 26 Liquid cylinder 27 Air piston 28 Air cylinder 29 Air Liquid mixing chamber 30 Foam member 41 Head main body 42 Exterior cylinder part 43 Top wall part 44 Mounting cylinder part 46 Covering wall part 51a First intake hole 51b Second intake hole 52 Recessed part 54 Locking part

Claims (4)

A mounting cap mounted on the mouth of the container body in which the contents are stored;
A dispenser having a stem erected on the mounting cap so as to be movable downward in an upwardly biased state;
A pressing head mounted on the stem and having a nozzle hole formed thereon,
The dispenser is
A liquid piston linked to the stem;
A liquid cylinder in which the liquid piston is housed slidably up and down;
An air piston linked to the stem;
An air cylinder in which the air piston is housed slidably up and down;
A gas-liquid mixing chamber for mixing the liquid from the liquid cylinder and the air from the air cylinder;
A foam dispenser disposed between the gas-liquid mixing chamber and the nozzle hole and foaming a gas-liquid mixture from the gas-liquid mixing chamber,
The mounting cap includes an annular ceiling wall portion disposed on the mouth portion, and a guide tube portion erected on the ceiling wall portion,
The pressing head is
A head body having a top wall portion arranged on the upper side of the stem, and a mounting cylinder portion that extends downward from the top wall portion and is attached to the stem;
An exterior cylinder part provided at a position below the top wall part and surrounding the mounting cylinder part and the guide cylinder part from the outside in the radial direction;
The exterior cylinder part can be communicated with the air cylinder through the guide cylinder part,
The head body and the exterior tube portion are formed separately and assembled to each other,
In the upper end portion of the exterior tube portion, an intake hole that penetrates the exterior tube portion in the radial direction and opens upward is formed ,
A former dispenser characterized in that a recess is formed in the opening peripheral edge of the outer peripheral surface of the outer cylinder portion and is indented radially inward and communicated with the intake hole . A former dispenser according to claim 1 , wherein
The top wall portion is provided with a pair of locking portions that protrude downward and are arranged at intervals in the circumferential direction, and are locked to respective portions facing the inside in the circumferential direction at the inner peripheral edge of the intake hole. Former dispenser characterized by being.   A mounting cap mounted on the mouth of the container body in which the contents are stored;
  A dispenser having a stem erected on the mounting cap so as to be movable downward in an upwardly biased state;
  A pressing head mounted on the stem and having a nozzle hole formed thereon,
  The dispenser is
  A liquid piston linked to the stem;
  A liquid cylinder in which the liquid piston is housed slidably up and down;
  An air piston linked to the stem;
  An air cylinder in which the air piston is housed slidably up and down;
  A gas-liquid mixing chamber for mixing the liquid from the liquid cylinder and the air from the air cylinder;
  A foam dispenser disposed between the gas-liquid mixing chamber and the nozzle hole and foaming a gas-liquid mixture from the gas-liquid mixing chamber,
  The mounting cap includes an annular ceiling wall portion disposed on the mouth portion, and a guide tube portion erected on the ceiling wall portion,
  The pressing head is
  A head body having a top wall portion arranged on the upper side of the stem, and a mounting cylinder portion that extends downward from the top wall portion and is attached to the stem;
  An exterior cylinder part provided at a position below the top wall part and surrounding the mounting cylinder part and the guide cylinder part from the outside in the radial direction;
  The exterior cylinder part can be communicated with the air cylinder through the guide cylinder part,
  The head body and the exterior tube portion are formed separately and assembled to each other,
  In the upper end portion of the exterior tube portion, an intake hole that penetrates the exterior tube portion in the radial direction and opens upward is formed,
  The top wall portion is provided with a pair of locking portions that protrude downward and are arranged at intervals in the circumferential direction, and are locked to respective portions facing the inside in the circumferential direction at the inner peripheral edge of the intake hole. Former dispenser characterized by being. The former dispenser according to any one of claims 1 to 3 ,
The former dispenser characterized in that the head main body is provided with a covering wall portion that extends downward from the top wall portion and covers the intake hole from the outside in the radial direction.

Images