JP4588855B2 - Pump dispenser - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a pump dispenser suitable for discharging various liquids.
[0002]
[Prior art]
A conventional pump dispenser of this type is attached to a liquid container, and the liquid in the cylinder sucked up from the container is compressed through a piston by a moving force of a trigger and ejected from a nozzle.
[0003]
[Problems to be solved by the invention]
However, in this type of pump dispenser, the piston needs to move linearly while maintaining fluid tightness with respect to the cylinder.
In order to perform smooth piston movement between the two, it is necessary to ensure sufficient mechanical accuracy of the sliding portion, and it is necessary to take time and effort for molding.
Further, since it has a sliding portion, its durability or the like becomes a problem in actual use. That is, if the piston or the like is worn away, the proper function cannot be guaranteed.
For this reason, wear and liquid leakage may occur while the pump dispenser is used, and the jetting force from the nozzle may be weakened.
[0004]
The present invention has been made in view of the above circumstances, and an object thereof is to provide a pump dispenser having a liquid discharge function with a simple structure and excellent performance.
[0005]
[Means for Solving the Problems]
Thus, as a result of earnest research on the background of such problems, the present inventor has solved the above-mentioned problems with a novel configuration that does not have a sliding portion in a portion that compresses liquid in order to obtain a jet force. The present inventors have found that the problem can be solved, and have completed the present invention based on this finding.
[0007]
That is, the present invention provides a liquid comprising: ( 1 ) a bottom cup having a semi-doughnut-shaped concave wall portion having an inlet, and a flexible cup having an outlet and bendable in a direction close to the bottom cup. A compression part, a nozzle part attached to a flexible cup, a base part to which a bottom cup and a flexible cup are attached and connectable to a container, and a base part that is rotatably extended through a thin part. A pump dispenser provided with a trigger part for reciprocating deformation of the flexible cup , wherein the flexible cup comprises a hollow base part and a skirt part, and the trigger part comprises a flexible cup The kick member that protrudes toward the skirt portion side is provided, and when the trigger portion is rotated, the skirt portion is pressed by the kick member, whereby the outside air communicates with the inside of the container through the space between the skirt portion and the base portion. Let inside the container It resides in a pump dispenser to be able to adjust the negative pressure.
[0008]
And ( 2 ), it exists in the pump dispenser in which the valve | bulb was each provided in the inlet of the bottom cup, and the outlet of the flexible cup.
[0009]
( 3 ) The bottom cup has a lower extending portion extending outward and downward from the half-doughnut-shaped concave wall portion, and the lower extending portion and the skirt portion of the flexible cup are superposed and attached to the base portion. Exist in the pump dispenser.
[0011]
And ( 4 ), the bottom cup is provided with a ring part through a thin part that can be separated around the bottom cup, and this ring part is separated from the bottom cup when assembled to the base part of the bottom cup. The pump dispenser that is to be mounted on.
[0012]
And ( 5 ), the skirt part of a flexible cup exists in the pump dispenser with which it mounted | worn between the ring part and bottom extension part of a bottom cup.
[0013]
And ( 6 ) a liquid compressing section comprising a bottom cup having a semi-doughnut-shaped concave wall with an inlet, and a flexible cup having an outlet and bendable in a direction approaching the bottom cup; A nozzle portion attached to a flexible cup, a base portion to which a bottom cup and a flexible cup are attached and connectable to a container, and a flexible extension extended to the base portion via a thin portion. A flexible cup has a hollow base portion and a skirt portion, and a bottom cup has a downwardly extending portion extending outward and downward from a half-doughnut-shaped concave wall portion. The skirt part and the lower extension part are superposed and attached to the base part, and a valve is provided at each of the bottom cup inlet and the flexible cup outlet, and the trigger part is on the side of the flexible cup skirt part. A kick member protruding to When rotating the trigger portion, by pressing the skirt portion in the kick member, it communicates with the outside air in the container through the space between the skirt portion and the base portion, so as to adjust the negative pressure in the container Exist in the pump dispenser.
[0014]
According to the present invention, in a typical embodiment thereof, the liquid compressing unit 1 including the bottom cup 11 and the flexible cup 12, the nozzle unit 2 attached to the flexible cup 12, the bottom cup 11 and the flexible Base part 3 that can be connected to the container with a flexible cup 12 attached thereto, and a trigger part for reciprocatingly deforming the flexible cup 12 that is rotatably extended to the base part 3 via a thin part 3a. 4.
[0015]
In particular, in the liquid compression unit, the liquid in the space 13 formed by the bottom cup 11 and the flexible cup 12 is compressed by deformation of the flexible cup 11, and the liquid is discharged from the outlet.
In this case, the bottom cup 11 has a half-doughnut-like concave wall portion, and the flexible cup 12 is deformed to approach the concave wall portion 14 of the bottom cup 12 (ultimately, it is deformed to a substantially contacting position). The liquid in the space 13 formed between the two is discharged from the outlet of the flexible cup 12.
Thus, since it does not have a sliding part, it is excellent in durability and can ensure smooth and proper operation.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, preferred embodiments of a pump dispenser according to the present invention will be described with reference to the drawings.
FIG. 1 shows a pump dispenser in this embodiment.
This pump dispenser is attached to the liquid container 100 via a cap, and discharges the liquid in the liquid container 100 to the outside.
[0017]
The pump dispenser includes a liquid compression unit 1 including a bottom cup 11 and a flexible cup 12 that can be bent in a direction close to the bottom cup 11, a nozzle unit 2 attached to the flexible cup 12, and a bottom cup. 11 and the flexible cup 12 are attached to the base part 3 that can be connected to the container 100, and the base part 3 is rotatably extended through the thin part 3a to perform the reciprocating deformation movement of the flexible cup 12. And a trigger unit 4 for the purpose.
[0018]
The bottom cup 11 has an inlet 11a through which a liquid flows at the center thereof, and a valve 15 (a check valve) is attached to the inlet 11a.
The flexible cup 12 has an outlet 12a through which liquid is discharged at the center thereof, and a valve 16 (check valve) is also attached to the outlet 12a.
The liquid filled in the space 13 formed by the bottom cup 11 and the flexible cup 12 is compressed by the deformation of the flexible cup 12 and is discharged from the outlet 12a.
[0019]
The bottom cup 11 is a portion that serves as a base for receiving the flexible cup 12, has a predetermined rigidity, and has a half-doughnut-shaped concave wall portion 14 as shown in FIG.
The flexible cup 12 is formed of an elastic material such as an elastic material such as an elastomer or a rubber material, and can be deformed so as to be joined to the concave wall portion 14 of the bottom cup 11.
[0020]
The bottom cup 11 and the flexible cup 12 are liquid-tightly coupled, and the flexible cup 12 is deformed to approach the bottom cup 11 and finally joined (contacted) to the concave wall portion 14 of the bottom cup 12. The liquid existing in the space 13 formed between the two is discharged from the outlet 12a of the flexible cup 12.
After the deformation, the flexible cup 12 can return to the illustrated natural state by its own elasticity.
[0021]
The valve 15 and the valve 16 attached to the inlet 11 a of the bottom cup 11 and the outlet 12 a of the flexible cup 12 regulate the flow of liquid into and out of the space 13 according to the movement of the flexible cup 12.
[0022]
In the pump dispenser, a nozzle 17 is attached to the nozzle portion 2 provided at the outlet 12 a of the flexible cup 12.
A cover 18 is attached to the nozzle 17, and the cover 18 can be opened and closed with fingers or the like as shown in FIG.
Although the trigger part 4 has the trigger 19 specifically, the trigger 19 is extrapolated by the flexible cup 12, and it is possible by supporting the protrusion (not shown) of the base part 21 of the flexible cup 12 with a part of the trigger 19. The flexible cup 12 is caused to reciprocate.
[0023]
The flexible cup 12 includes a hollow base portion 21 and a skirt portion 22 formed to be larger than the hollow base portion 21, and the valve 16 is mounted in the base portion as described above.
The bottom cup 11 includes a downwardly extending portion 23 extending outward and downward from the half-doughnut-shaped concave wall portion 14.
Then, the extended portion 23 of the bottom cup 11 is attached to the outer surface of the skirt portion 22 of the flexible cup and attached to the base portion 3.
[0024]
Moreover, the bottom cup 11 is provided with the ring part 24 through the thin part which can be separated, as shown in FIG.
That is, the tab 25 is formed at several places (here, three places) through the thin part that can be separated around the lower end of the lower part of the bottom cup 11, and thereby the ring part 24 is detachably connected. .
[0025]
The ring portion 24 is separated from the bottom cup 11 after being attached to the base portion 3 of the bottom cup 11 and attached to the base portion 3 to exhibit a sealing function.
The skirt portion 22 of the flexible cup 12 is attached between the ring portion 24 and the bottom extension portion 23 of the bottom cup 11.
[0026]
Here, the case where the bottom cup 11 and the flexible cup 12 are assembled and attached to the base portion 3 will be described.
As described above, the bottom cup 11 is formed by integrating the ring portion 24.
In this case, the bottom cup 11 and the ring portion 24 are pinpoint joined via three tabs 25.
As described above, the tab 25 constitutes a thin portion that can be separated from the extended portion 23 of the bottom cup 11, and is easily broken from the bottom cup 11 by receiving a tensile force.
[0027]
FIG. 4 sequentially shows the steps for joining the bottom cup 11 and the flexible cup 12.
In FIG. 4A, the ring portion 24 integrated with the bottom cup 11 is inserted inside the base portion 3.
In FIG. 4B, the skirt portion 22 of the flexible cup 12 is placed along the outer surface of the lower extension portion 23 of the bottom cup 11.
In FIG. 4C, by pressing the flexible cup 12, the ring portion 24 comes into contact with the corner portion 32 of the base portion 3 and is held inside the base portion 3, and the tab 25 is broken. .
Then, the convex portion 24 </ b> A of the ring portion 24 is fitted into the concave portion 31 of the base portion 3.
In FIG. 4 (D), when the flexible cup 12 is further pushed in, the bottom cup 11 and the flexible cup 12 have the bases so that the extending portions 23 and the skirt portions 22 are aligned as shown in FIG. Held by part 3.
[0028]
Now, as a pump dispenser, when the fluid in a container is ejected, the inside of a container will become negative pressure and distortion will arise.
Therefore, it is necessary to adjust the inside of the container by communicating with the outside air during or after the ejection.
The pump dispenser of the present invention has a specific negative pressure adjusting mechanism.
When the trigger part 4 is rotated, the skirt part 22 of the flexible cup 12 is pressed by a part of the trigger part 4, so that the negative in the container 100 is passed through the space between the skirt part 22 and the base part 3. It is configured to adjust the pressure.
In this example, a kick member 26 that protrudes toward the skirt portion 22 is formed on a part of the inside of the trigger portion 4, and the kick member 26 presses the skirt portion 22.
[0029]
In the above configuration, the liquid can be ejected by pulling the trigger unit 4 (trigger 19) from the natural state of FIG.
In this case, when the trigger portion 4 is pulled as shown in FIGS. 5A and 5B, the flexible cup 12 is pushed by the trigger portion 4 and deforms so as to approach the bottom cup 11.
At this time, the skirt portion 22 of the flexible cup 12 is deformed following the shape of the concave wall portion 14 of the bottom cup 11.
[0030]
The liquid in the space 13 is compressed by the deformation of the flexible cup 12, and at the same time, the valve 16 opens and the liquid starts to be discharged from the nozzle 17 (at this time, the valve 15 is closed).
The trigger portion 4 is finally pulled as shown in FIG. 5 (B). During this time, the flexible cup 12 is deformed to reach a position where it is joined to the concave wall portion 14 of the bottom cup 11. All of the liquid existing in the space 13 formed therebetween is discharged from the nozzle 17.
[0031]
In the middle of the deformation of the flexible cup 12 as described above, the kick member 26 provided on the trigger portion 4 presses the skirt portion 22 as shown in FIG.
As a result of this pressing, the skirt portion 22 is slightly distorted, thereby allowing outside air to enter the container 100 and adjusting its negative pressure as indicated by an arrow through the space between the skirt portion 22 and the base portion 3.
By adjusting the negative pressure in this way, the container is not distorted and the smooth operation of the fluid compression unit is ensured.
[0032]
After discharging the liquid from the nozzle 17 as shown in FIG. 5B, the trigger cup 4 is released, so that the flexible cup 12 returns to its natural state as shown in FIG. 1 due to its own elasticity.
In this process, a space 13 is formed and negative pressure is generated, so that liquid is sucked into the container through the valve 15 into the space 13 (at this time, the valve 16 is closed).
[0033]
Thus, in this embodiment, the liquid in the space 13 can be discharged by deforming the flexible cup 12 by operating the trigger portion 4.
In that case, since there is no sliding component such as a piston as described above, an extremely smooth and accurate operation is performed.
[0034]
In addition, the pump dispenser of the present invention includes a liquid compressing unit 1, a nozzle unit 2, a base unit 3, and a trigger unit 4, and has a very simple structure because it is composed of four main members.
Particularly, among these, the base portion 3 and the trigger portion 4 are integrally formed of a synthetic resin material, and the number of parts can be effectively reduced.
Therefore, since the assembly is simple, the manufacturing becomes easy, and the manufacturing and product costs can be greatly reduced.
In addition, in this case, an excellent function as a pump dispenser is exhibited as described above.
[0035]
In addition, this invention is not limited only to the said embodiment, A various deformation | transformation etc. are possible within the scope of the present invention.
For example, although the example in which the bottom cup 11 and the ring portion 24 are formed in an integrated manner has been described, these members may be formed separately from the beginning.
[0036]
【The invention's effect】
As described above, according to the present invention, this type of pump dispenser has a structure that does not have a sliding portion such as a piston, thereby realizing a device having no failure and excellent durability and having a restoring force. No spring body is required.
Furthermore, smooth and proper operation can be ensured by providing a negative pressure adjusting mechanism in the container.
In addition, since the structure is simple, the manufacturing process is simplified, the assembly is easy, and the cost can be substantially reduced.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an example of the overall configuration of a pump dispenser according to an embodiment of the present invention.
FIG. 2 is a perspective view showing the periphery of a bottom cup and a flexible cup in an embodiment of the present invention.
FIG. 3 is a perspective view showing an example of a form at the time of forming a bottom cup in the embodiment of the present invention.
FIGS. 4A and 4B are diagrams sequentially illustrating steps when a bottom cup and a flexible cup are coupled in an embodiment of the present invention. FIGS.
FIGS. 5A and 5B are diagrams sequentially illustrating a liquid ejection process in the embodiment of the present invention. FIGS.
FIG. 6 is a diagram for explaining the operation of the negative pressure adjusting mechanism in the embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Liquid compression part 11 ... Bottom cup 11a ... Inlet 12 ... Flexible cup 12a ... Outlet valve | bulb 13 ... Space 14 ... Concave wall part 15, 16 ... Valve 17 ... Nozzle 18 ... Cover 19 ... Trigger 2 ... Nozzle part 21 ... Base part 22 ... Skirt part 23 ... Lower extension part 24 ... Ring part 24A ... Projection part 25 ... Tab 26 ... Kick member 3 ... Base part 3a ... Thin part 31 ... Concave part 32 ... Corner part 4 ... Trigger part 100 ... Liquid container

Claims (6)

A liquid compressing portion comprising a bottom cup having a semi-doughnut-like concave wall portion with an inlet, a flexible cup having an outlet and being able to bend toward the bottom cup, and attached to the flexible cup Nozzle portion, a base portion to which a bottom cup and a flexible cup are attached and connectable to a container, and a reciprocating deformation motion of the flexible cup that is rotatably extended to the base portion via a thin portion. A pump dispenser comprising a trigger unit for performing
The flexible cup has a hollow base and a skirt;
The trigger portion includes a kick member that protrudes toward the skirt portion side of the flexible cup, and when the trigger portion is rotated, the trigger portion is pressed between the skirt portion and the base portion by pressing the skirt portion. A pump dispenser characterized in that outside air communicates with the inside of a container through a space so that the negative pressure in the container can be adjusted .   The pump dispenser according to claim 1, wherein valves are respectively provided at an inlet of the bottom cup and an outlet of the flexible cup.   The bottom cup includes a lower extending portion extending outward and downward from a semi-doughnut-shaped concave wall portion, and the lower extending portion and the skirt portion of the flexible cup are superposed and attached to the base portion. The pump dispenser according to claim 1.   The bottom cup is provided with a ring part through a thin part that can be separated around the bottom cup, and this ring part is separated from the bottom cup and attached to the base part when assembled to the base part of the bottom cup. The pump dispenser according to claim 3.   The pump dispenser according to claim 4, wherein the skirt portion of the flexible cup is mounted between the ring portion and the downward extension portion of the bottom cup. A liquid compression part comprising a bottom cup having a semi-doughnut-shaped concave wall with an inlet and a flexible cup having an outlet and bendable in a direction close to the bottom cup, and attached to the flexible cup A nozzle part, a base part to which a bottom cup and a flexible cup are attached and connectable to a container, and a reciprocating deformation movement of the flexible cup which is rotatably extended to the base part via a thin part. The flexible cup has a hollow base and a skirt, and the bottom cup has a lower extension extending outwardly and downward from the half-doughnut-shaped concave wall, and the skirt and lower extension. Are attached to the base part, valves are provided at the inlet of the bottom cup and the outlet of the flexible cup, respectively, and the trigger part includes a kick member protruding toward the skirt part side of the flexible cup, When rotating the trigger section By pressing the skirt portion in the kick member, a pump dispenser communicates with the outside air in the container through the space between the skirt portion and the base portion, characterized in that to adjust the negative pressure in the container .

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