JP3666687B2 - Liquid ejection container - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a liquid ejection container provided to discharge a stored liquid as it is or as a foam or mist.
[0002]
[Prior art]
[Problems to be solved by the invention]
Conventionally, a stem is erected above a container body from a vertical pump built in the container body, a head with a nozzle is attached to the upper end of the stem, and the liquid in the container is sucked into the pump by the vertical movement of the head, In addition, there are a wide range of containers in which the liquid in the pump is discharged from the nozzle of the head through the stem, or a container in which the container body is an aerosol type and the head with the nozzle is fitted to the stem standing from the upper end of the container body. Are known.
[0003]
When the head is inadvertently pushed down due to another object hitting the conventional container, there is a possibility that the stored liquid is discharged from the nozzle and the surroundings are soiled.
[0004]
The invention of claim 1 shown in FIG. 1 to FIG. 8 has a cylindrical lower end portion fitted to the upper outer surface of a jet pump having a vertical pump or an aerosol type, and from the upper end of the front portion of the cylindrical body. A cylindrical lever is fitted on the outer surface of the projecting rear projecting portion so as to be slidable back and forth, and an engaging portion for preventing the lever from being pushed down is formed at the rear portion of the lever and the rear portion of the cylindrical body. In addition to removing the head, the head can be easily pushed down by the lever principle.
[0005]
The invention of claim 2 shown in FIG. 9 is such that the bottom end portion of the tubular body is fitted to the upper outer surface of the spray container having the vertical type pump or the aerosol type, and the front wall front portion of the tubular body A horizontal hole is continuously drilled from the rear to the rear, and a vertical hole is continuously drilled in the upper part of the rear wall of the cylinder. And the shaft portion provided on both the left and right sides of the front end is slidably fitted back and forth, and the lever is loosely fitted into the lateral hole. By forming an engagement portion for preventing the lever from being pushed down at the rear portion of the lever and the rear portion of the cylinder, the above-mentioned drawbacks are eliminated and the head can be easily pushed down by the principle of lever.
[0006]
The invention of claim 3 shown in FIG. 10 to FIG. 13 is such that the lower end portion of the tubular body is fitted to the upper outer surface of the aerosol type tilde type ejection container, and the top wall front portion to the rear portion of the tubular body are fitted. A horizontal hole and a vertical hole are continuously drilled in the upper part of the rear wall of the cylinder, and the upper end of the pair of left and right support plates protruding rearward from the inner surface of the front part of the cylinder and the lower surface of the top wall slide. A moving groove is formed, and a shaft part attached to both the left and right front ends is fitted into the sliding groove so as to be slidable back and forth, and the lever is loosely fitted into the lateral hole, and further, the lever rear part and By forming an engaging part for preventing the lever from being pushed down at the rear part of the cylinder, the above-mentioned drawbacks can be eliminated and the head can be pushed down easily by the lever principle. By forming the stem of the container so as to be inclined to a predetermined angle, it is suitable for a tilde-type spray container. It was.
[0007]
[Means for Solving the Problems]
As a first means, a head 4 with a nozzle 3 is attached to a stem standing from the upper end of the container body 2, and a main body member 1 provided so that liquid in the container can be ejected from the nozzle 3 by pressing down the head, and the container body 2. The lower wall of the upper wall and the upper part of the rear wall are opened to the upper outer surface of the lower wall by a concave and convex fitting means, and the push-down plate protrudes rearward from the upper end of the front wall of the peripheral wall through the thin hinge portion 13. The rear lower surface of 14 is brought into contact with or close to the upper surface of the head 4, and a vertical hole 21 is formed in the upper portion of the front wall of the peripheral wall 11 substantially equal to the stroke of the head 4. The cover cylinder 10 into which the front end portion of the nozzle 3 is inserted, and the cylindrical lever 30 which is slidably fitted back and forth on the outer surface of the push-down plate 14 and cannot be pulled out, and which has a notch in the middle in the horizontal direction of the bottom wall. The lever is disposed on the rear portion of the cover tube 10 and the rear portion of the lever 30. It provided the depression preventing engagement portion, also the lever 30 to the rear limit and the depression preventing engagement portion by causing the rear sliding out and depression of the lever can be formed.
[0008]
As a second means, the head 4 with the nozzle 3 is attached to the stem 6 standing up from the upper end of the container body 2, and the main body member 1 provided so that the liquid in the container body 2 can be ejected by pressing down the head, and the container body 2. The lower end portion is fitted to the upper outer surface of the upper wall with the concave and convex fitting means to erect the peripheral wall 11 with the top, the horizontal wall 23 from the top wall 22 front to the rear of the peripheral wall, and the upper rear wall of the peripheral wall 11 A vertical hole 24 is continuously drilled, and a vertical hole 20 is formed in the front part of the peripheral wall 11 substantially equal to the stroke of the head 4, and the front end of the nozzle 3 is inserted into the upper part of the vertical hole. Further, from the inner wall surface of the peripheral wall portion on both the left and right sides of the longitudinal hole 20, the cover cylinder 10 is provided with a small gap between the lower surface of the top wall 22 and a pair of left and right support plate portions 26, 26 projecting backward, The shaft portions 35, 35 attached to both the left and right front ends can be slid back and forth in the grooves 27 formed by the upper ends of the support plate portions 26, 26 and the bottom surface of the top wall 22. It comprises a lever 30 that is fitted so as not to be able to be pulled out and loosely fits the substrate portion 36 into the lateral hole 23, and is provided at the rear portion of the cover cylinder 10 and the rear portion of the lever 30 to prevent the lever from being pushed down. And the lever 30 is slid rearward to the rear limit to disengage the above-mentioned depression-preventing engaging portion, so that the lever 30 can be pushed down.
[0009]
As a third means, a tilted aerosol type main body member 1 provided so that the liquid in the container body 2 can be ejected by inclining the stem 6 rising from the upper end of the container body 2, and the standing cylinder portion 8 on the stem 6. The lower end is fitted, the head 4 projecting the nozzle 3 forward from the upper end of the upright tube portion, and the lower end portion is fitted to the upper outer surface of the container body 2 by uneven fitting means. A vertical hole 24 is continuously drilled from the front to the rear of the top wall 22 of the peripheral wall, and a vertical hole 24 is formed in the upper part of the rear wall of the peripheral wall 11. The front end of the nozzle 3 is inserted into the upper portion of the vertical hole, and the bottom surface of the top wall 22 is further lowered from the inner wall surfaces of the peripheral wall portions on the left and right sides of the vertical hole 20. A cover cylinder 10 having a pair of left and right support plate portions 26, 26 projecting rearward with a small gap between Into the groove 27 formed by the upper ends of the portions 26, 26 and the lower surface of the top wall 22, the shaft portions 35, 35 attached to the left and right portions of the front end are fitted so as to be slidable back and forth and cannot be pulled out, so that the substrate portion 36 is The lever 30 is loosely fitted into the hole 23. The lever 10 is provided at the rear portion of the cover cylinder 10 and the rear portion of the lever 30 to prevent the lever from being pushed down, and the lever 30 is slid rearward to the rear limit. Thus, the push-down preventing engaging part is released, and the lever 30 can be pushed down. By pushing down the lever, the lower front part of the base plate part 36 is a nozzle in front of the standing cylinder part 41 axis. It formed so that it could contact | abut to the partial upper surface.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
1 to 8 show a first embodiment of the container of the present invention. In the first embodiment, reference numeral 1 denotes a main body member. The main body member includes a known vertical pump in the container body 2, and a nozzle 3 at the upper end of the stem that stands up from the vertical pump above the container body. The attached head 4 is mounted, and the engaging recess 5 is provided around the upper outer surface of the container body 2. The container body 2 is not limited to the above structure, and may be, for example, an aerosol type.
[0011]
10 is a cover cylinder, and the cover cylinder is fitted to the upper outer surface of the container body 2 with the lower end portion of the peripheral wall 11 opening the upper surface and the upper portion of the rear wall, and the upper ends of the rear left and right side walls of the peripheral wall are notched. The upper surface of the notch is used as a stopper receiving surface 12, 12, and a push-down plate 14 is projected rearward from the upper end of the front wall of the peripheral wall 11 via a thin hinge portion 13, and both left and right sides of the push-down plate The first and second engaging protrusions 15 and 16 are attached to the front and middle of the part, and the locking protrusions 17 are attached to both the left and right sides of the push-down plate portion behind the second engaging protrusion 16, respectively. Furthermore, a split groove 18 is formed in the rear part of the push-down plate 14 so that a base tube portion 31 of a lever 30 described later can be easily fitted to the outer surface of the push-down plate, and the left and right push grooves on the split groove 18 are pressed. The lower end of the small plate portion 19 attached to the lower surface of the lower plate portion and having a semicircular cross section in the front-rear direction is brought into contact with the upper surface of the head 4 as shown in FIGS. Further, a vertical hole 20 is formed in the upper part of the front wall of the peripheral wall 11 substantially equal to the stroke of the head 4 so that the front end of the nozzle 3 is inserted into the upper part of the vertical hole, and further, the stopper receiving surface. 12 and 12 are formed so that the outer surface of the vertical plate 34 of the lever 30 and the outer surface of the rear wall of the peripheral wall 11 are flush with each other, and further provided around the inner surface of the lower end of the peripheral wall 11. By engaging the engagement protrusion 21 into the engagement recess 5 of the container body 2, the lower end of the peripheral wall 11 is prevented from coming out from the upper portion of the container body 2.
[0012]
30 is a lever, the lever has a base cylinder part 31 cut out in the middle in the left-right direction of the bottom wall, the base cylinder part is fitted to the outer surface of the pressing plate 14 slidably back and forth, and Engagement protrusions 32, 32 attached to the front portions of the left and right inner wall surfaces of the base tube portion 31 are engaged with the front surface of the first engagement protrusion 15 so that they can be forcibly moved over. The lower surface of the stopper plate 33, 33 attached to the rear of the wall surface is brought into contact with the stopper receiving surface 12, 12 of the cover cylinder 10, and the stopper receiving surface 12, 12 and the stopper plate 33, 33 are engaged with each other. Thus, a lever-pressing prevention engagement portion that prevents the lever from being pressed down is provided. In addition, as shown in FIGS. 6 and 7, the lever moves the stopper plate portions 33, 33 to the rear of the stopper receiving surfaces 12, 12 from the state shown in FIG. In this state, the rear surfaces of the engaging projections 32, 32 are locked to the front surface of the locking protrusion 17 of the pressing plate 14, and the base tube portion 31 is pressed down. It is possible to prevent the engagement protrusions 32 and 32 from engaging with the rear surface of the second engagement protrusion 16 and prevent the base tube portion 31 from inadvertently sliding forward. Forming. Further, a vertical plate portion 34 is suspended from the rear end of the base tube portion 31 and the rear lower ends of the stopper plate portions 33 and 33 so as to shield the inside of the cover tube 10 from being seen.
[0013]
FIG. 9 shows a second embodiment of the container of the present invention. In the second embodiment, the main body member 1 is a known jetting container in which a vertical pump is housed in a container body 2 and is the same as that of the first embodiment, and thus the description thereof is omitted. The container body 2 is not limited to the above structure, and may be an aerosol type, for example.
[0014]
The cover tube 10 has a crested peripheral wall 11 having a front lower half and a rear lower half as inner and outer double walls, and engaging protrusions 21 attached to inner surfaces of inner peripheral wall portions 11a and 11b at the front and rear of the peripheral walls. , 21 are engaged with the lower surface of the engagement recess 5 of the container body 2, the horizontal hole 23 is formed from the front to the rear of the top wall 22 at the upper end of the peripheral wall 11, and the vertical hole 24 is formed at the upper part of the rear wall of the peripheral wall 11. Further, a longitudinally long hole 20 is formed in the front of the peripheral wall 11 substantially equal to the stroke of the head 4, and the front end of the nozzle 3 is inserted into the upper part of the longitudinally long hole. A small gap is provided between the inner wall surface of the peripheral wall portion on both the left and right sides of the hole 20 and the lower surface of the top wall 22 so that a pair of left and right support plate portions 26 protrudes rearward. A groove 27 is formed between them.
[0015]
The lever 30 is fitted into the groove 27 of the cover cylinder 10 with the shaft portions 35 and 35 attached to the left and right portions of the front end so as to be slidable back and forth, and the board portion 36 is inserted into the horizontal hole 23 of the cover cylinder 10. The lower end of the vertical plate part 34 that is loosely fitted and suspended from the rear end of the base plate part 36 is brought into contact with the lower end surface of the vertical hole 24 of the cover cylinder 10, and the lower end of the vertical plate part 34 and the vertical hole 24 The end surfaces are engaged with each other so as to prevent the lever from being depressed by engaging with each other. Further, the lever is formed so that it can be pushed down by sliding the base plate portion 36 from the state shown in FIG. 9 to the rear limit and moving the vertical plate portion 34 to the rear of the peripheral wall 11 of the cover cylinder 10, and in this state. Then, the lower end of the small plate portion 19 attached to the front portion of the lower surface of the substrate portion 36 is in contact with the upper surface of the rear end portion of the nozzle 3, and the arcuate engagement plate portions 37 attached to the rear of the left and right portions of the lower surface of the substrate portion 36, The rear end 37 is locked to the front surface of the rear wall of the peripheral wall 11 of the cover cylinder 10 so that the board portion 36 can be prevented from coming out.
[0016]
10 to 13 show a third embodiment of the container of the present invention, which differs from the second embodiment only in the following points. That is, the main body member 1 is a tilde-type aerosol-type liquid ejection container, and the stem 6 is erected from the central portion of the top wall surrounded by the annular protrusion 7 at the upper end of the container body 2 and the stem is inclined to a predetermined angle. By doing so, a discharge valve (not shown) below the stem is opened to discharge the stored liquid from the stem 6. Further, the head 3 has the lower end portion of the upright cylinder portion 8 fitted on the upper portion of the stem 6 and the nozzle 3 protrudes laterally from the upper end of the upright cylinder portion. Further, the cover tube 10 has a plate-like connecting portion 25 protruding forward from the upper end of the inner peripheral wall portion 11b on the rear side of the peripheral wall 11 through a thin portion, and the front end of the plate-like connecting portion is connected to the outer surface of the rear end of the nozzle 3 I am letting. Furthermore, the lever 30 has a small plate portion 19 attached to the front end portion of the lower surface of the base plate portion 36, and the lower end portion of the small plate portion 19 is pushed down at the rear limit position of the lever 30 so that the lower end of the small plate portion 19 is the nozzle portion in front of the standing cylinder portion 41 In contact with the upper surface, the stem 6 is formed to be inclined to a predetermined angle.
[0017]
In each of the above-described embodiments, the lever pressing prevention engaging portion formed at the rear portion of the cover cylinder 10 and the rear portion of the lever 30 is not limited to the above structure. For example, in the first embodiment, the vertical plate portion 34 of the lever 30 is provided. Is formed so that the lower end of the vertical plate portion is brought into contact with the upper surface of the upward stepped portion 11c formed on the rear wall upper portion of the peripheral wall 11 of the cover cylinder 10 so as to prevent the lever 30 from being pushed down. May be.
[0018]
In each of the above embodiments, each member is formed of a synthetic resin material, and in the third embodiment, the cover tube 10 and the head 4 with the nozzle 3 are integrally formed.
[0019]
【The invention's effect】
The present invention is configured as described above, and in the case of the invention of claim 1 shown in FIGS. 1 to 8, a push-down projecting rearwardly from the front upper end of the peripheral wall 11 of the cover cylinder 10 via the thin hinge part 13 Since the base tube 31 of the lever 30 is fitted to the outer surface of the plate 14 so as to be slidable back and forth and not to be extracted, the lever 30 is slid rearward so that the pressing plate part contacting the upper surface of the head 4 and the rear of the lever 4 Since the distance between the ends, that is, the distance between the action point and the force point can be increased, the head 4 can be easily pushed down by the lever principle, and the lever 30 is rearward and the cover cylinder 10 is rearward. Because the push-down prevention engagement part is provided and the lever 30 is slid to the end to disengage the push-down prevention engagement part so that the lever can be pushed down, other objects hit the lever 30. The head 4 can be prevented from being inadvertently pushed down, and the lever 30 Or allow pressing, also to impossible that depression can be easily performed by sliding the lever 30 back and forth.
[0020]
In the case of the invention of claim 2 shown in FIG. 9, the shaft portions 35, 35 attached to the left and right portions of the front end are inserted into the groove 27 formed by the lower surface of the top wall 22 of the cover cylinder 10 and the upper end of the support plate portion 26. Since the base plate portion 36 of the lever 30 is fitted into the lateral hole 23 of the cover cylinder 10 so as to be slidable and cannot be pulled out, the head 4 can be easily pushed down by the lever principle. An engagement portion for preventing the lever from being pushed down is provided at the rear portion of the cover cylinder 10 and the rear portion of the lever 30. Since the depression is made possible, it is possible to prevent the head 4 from being inadvertently depressed by hitting the lever 30 or the like, and the lever 30 can be depressed, or the depression is impossible. This can be easily done by sliding the lever 30 back and forth.
[0021]
In the case of the invention of claim 3 shown in FIGS. 10 to 13, the shaft portions 35 attached to both the left and right front ends into the groove 27 formed by the lower surface of the top wall 22 of the cover cylinder 10 and the upper end of the support plate portion 26, 35 is slidably fitted back and forth and cannot be removed, and the base plate portion 36 of the lever 30 is loosely fitted into the lateral hole 23 of the cover cylinder 10, and the lever is pushed between the rear portion of the cover cylinder 10 and the rear portion of the lever 30. Since the lowering engagement portion is provided and the lever 30 is slid backward until the rear limit, the depression prevention engagement portion is disengaged so that the lever 30 can be pushed down. Since the lower surface front portion of the base plate portion 36 is formed so that it can come into contact with the upper surface of the horizontal cylindrical portion 41 in front of the standing cylindrical portion 41 by pressing the lever 30 in the rear limit position. By pushing down the lever 30 at the rear limit position, the stem 6 can be easily tilted to a predetermined angle. Suitable.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view showing a first embodiment of a container of the present invention.
FIG. 2 is a perspective view of the same embodiment.
FIG. 3 is an exploded perspective view of the same embodiment.
FIG. 4 is a plan view of the same embodiment.
FIG. 5 is a plan view showing the embodiment in a state where a lever is slid rearward.
FIG. 6 is a longitudinal sectional view showing the embodiment in a state where a lever is slid rearward.
FIG. 7 is a perspective view showing the embodiment with a lever slid rearward.
FIG. 8 is a perspective view showing the embodiment in a state where a lever is pushed down;
FIG. 9 is a longitudinal sectional view showing a second embodiment of the present invention.
FIG. 10 is a longitudinal sectional view showing a third embodiment of the present invention.
FIG. 11 is a longitudinal sectional view showing the embodiment in a state where a lever is pushed down;
FIG. 12 is a perspective view showing the embodiment in a state where a lever is pushed down;
FIG. 13 is an exploded perspective view of the same embodiment.
[Explanation of symbols]
1 ... Main body member 4 ... Head 10 ... Cover tube
30 ... Lever

Claims (3)

A head 4 with a nozzle 3 is attached to a stem standing from the upper end of the container body 2, and a main body member 1 provided so that liquid in the container can be ejected from the nozzle 3 by pressing down the head, and an upper surface on the upper outer surface of the container body 2. And the lower end of the rear portion of the push-down plate 14 projecting backward from the upper end of the front wall of the peripheral wall through the thin hinge portion 13 by fitting the lower end portion of the peripheral wall 11 opening the upper portion of the rear wall with an uneven fitting means. A vertical hole 21 is made in contact with or close to the upper surface of the head 4 and the front wall of the peripheral wall 11 is substantially equal to the stroke of the head 4 and the front end of the nozzle 3 is inserted into the upper part of the vertical hole. Cover cylinder 10 and a cylindrical lever 30 that is fitted to the outer surface of the push-down plate 14 so that it can slide back and forth and cannot be pulled out, and has a notch in the middle in the left-right direction of the bottom wall. And a lever 30 for preventing depression of the lever. The provided parts, also the lever 30 to the rear limit and for the depression preventing engagement portion by causing the rear sliding off, the liquid ejection container, characterized in that depression of the lever can be formed. A head 4 with a nozzle 3 is mounted on a stem 6 that stands up from the upper end of the container body 2, and a main body member 1 that can eject the liquid in the container body 2 by pressing down the head, and the upper outer surface of the container body 2 are uneven. The lower end portion is fitted with the fitting means to erect the peripheral wall 11 with the top, the horizontal wall 23 is continuous from the front wall 22 front part to the rear part of the peripheral wall, and the vertical hole 24 is continuously formed on the upper rear wall of the peripheral wall 11. In addition, a vertically long hole 20 is formed in the front portion of the peripheral wall 11 substantially equal to the stroke of the head 4, and the front end portion of the nozzle 3 is inserted into the upper portion of the vertically long hole. Cover cylinder 10 in which a small gap is provided between the inner wall surface of the peripheral wall portion on both the left and right sides of the hole 20 and the lower surface of the top wall 22, and a pair of left and right support plate portions 26, 26 project rearwardly, and the support plate portion 26, 26 Fits the shafts 35, 35 attached to both the left and right sides of the front end in a groove 27 formed by the upper end and the bottom surface of the top wall 22 so that they can slide back and forth and cannot be pulled out. And a lever 30 in which the base plate portion 36 is loosely fitted into the lateral hole 23, and a lever-pressing engagement portion is provided at the rear portion of the cover tube 10 and the rear portion of the lever 30, and the rear limit The liquid ejection container is formed so that the lever 30 can be pushed down by sliding the lever 30 backward until the lever for preventing the push-down is disengaged. By tilting the stem 6 standing up from the upper end of the container body 2, a tilted aerosol type main body member 1 provided so that the liquid in the container body 2 can be ejected and the lower end portion of the standing cylinder portion 8 are fitted on the stem 6. The head 4 that projects the nozzle 3 forward from the upper end of the standing tube portion, and the lower end portion of the container body 2 is fitted to the upper outer surface of the container body 2 by means of uneven fitting means to erect the top peripheral wall 11. A horizontal hole 23 is continuously drilled from the front part of the top wall 22 to the rear part, and a vertical hole 24 is continuously drilled in the upper part of the rear wall of the peripheral wall 11, and the stroke of the head 4 is substantially equal to the front part of the peripheral wall 11. A vertically long hole 20 is formed, the front end of the nozzle 3 is inserted into the upper part of the vertically long hole, and a small gap is formed between the inner wall surfaces of the peripheral wall portions on the left and right sides of the vertically long hole 20 and the bottom surface of the top wall 22. The cover cylinder 10 is provided with a pair of left and right support plate portions 26, 26 protruding rearward, and the upper ends of the support plate portions 26, 26 and the top wall 22 A lever in which a shaft portion 35, 35 attached to both left and right portions of the front end is fitted into a groove 27 formed by the lower surface so as to be slidable back and forth and cannot be extracted, and the board portion 36 is loosely fitted into the horizontal hole 23. 30 and the rear portion of the cover cylinder 10 and the rear portion of the lever 30 are provided with an engaging portion for preventing the lever from being pushed down, and the lever 30 is slid rearward to the rear limit to thereby prevent the pushing-down engagement. The part is removed, and the lever 30 can be pushed down, and by pushing down the lever, the lower front part of the base plate part 36 can be brought into contact with the upper surface of the nozzle part in front of the upright cylinder part 41 axis. A liquid ejection container characterized by that.