The present invention relates to a trigger-type pump dispenser attached to a container to efficiently inject a liquid accommodated inside.
Conventionally, as a tool attached to a container to discharge or inject an inner liquid, a trigger-type pump dispenser has been widely used.
The trigger-type pump dispenser normally includes a piston and a cylinder. With the piston being moved, a pressure is applied to the inside of the cylinder to cause a liquid to be injected.
Types of this trigger-type pump dispenser are classified based on how to move the piston.
As one of those, for example, there is a trigger-type pump dispenser of a type in which a trigger is pulled in by four fingers (refer to PTL 1 and PTL 2).
These trigger-type pump dispensers disclosed in PTL 1 and PTL 2 are provided with a trigger at front. When the front trigger is gripped by hand to be moved rearward, the piston is pressed down in an interlocked manner with the movement of the trigger to increase a liquid pressure inside the cylinder.
As a result, a liquid is injected at a dash from a nozzle part.
Also, conventionally, a trigger-type pump dispenser of a type has been suggested in which a trigger is disposed above a main body and a rear end of the trigger is pushed in to press down the piston in an interlocked manner with the movement of the trigger to increase a liquid pressure inside the cylinder (refer to PTL 3).
Furthermore, this trigger-type pump dispenser described in PTL 3 is configured as follows.
That is, the structure of this trigger-type pump dispenser described in PTL 3 is such that a trigger-type pump dispenser attachable to a container includes a cylinder part, a piston structure slidable inside the cylinder, a housing part mounted on the cylinder part, a grip part integrally formed with the housing part, a trigger part mounted on the housing part and coupled to the piston structure via a crank part, and a cap for attaching the cylinder part to a container main body.
And, the piston structure has a bendable long nozzle part and a piston part integrated. With the trigger part pressed down and made closer to the grip part, the piston part is pressed down via the crank part to apply a pressure inside the cylinder part to cause a liquid to be discharged through a long nozzle part.
PTL 1: Japanese Patent Application Laid-Open No. 2005-219003
PTL 2: Japanese Patent Application Laid-Open No. 2006-198446
PTL 3: Japanese Patent Application Laid-Open No. 2010-184182
However, in these trigger-type pump dispensers described in the above-described PTL 1 and PTL 2, when the trigger is pulled in, the whole surrounding of the trigger-type pump dispenser has to be gripped by the palm and the trigger has to be pulled in by using fingers in a lateral direction.
Thus, when a child with small hands, a handicapped person with decreased grip power or finger power, or the like handles the dispenser, the state of gripping the trigger is shallow, making it difficult to put power.
Also, since the whole is gripped by using four fingers, if a liquid or the like is affixed to the surrounding of the main body of the trigger-type pump dispenser, that is disadvantageously affixed to the hand to cause soiling.
In particular, a finger positioned directly below the nozzle tends to get soiled.
Also, the trigger-type pump dispenser described in PTL 3 can solve the disadvantages as described above regarding PTL 1 and PTL 2.
However, there is a problem as follows.
That is, with the trigger part coupled to the piston structure via the crank part and with the long nozzle part bent when the trigger part is pushed in, there is a problem in which an extra space is required in the housing part.
Furthermore, in the trigger-type pump dispenser described in PTL 3, since a liquid is discharged by pressing down and making the trigger part closer to the grip part, it can be said that operability is excellent.
In the future, more usable one is desired in view of gripping capability.
Thus, the Applicant has already suggested, as Japanese Patent Application No. 2013-185763 (Japanese Patent Application Laid-Open No. 2015-51398), a trigger-type pump dispenser with high gripping capability, efficient transmission of finger power to the trigger part at the time of injection, and excellent operation.
Meanwhile, this trigger-type pump dispenser is characterized in that, in short, in a trigger-type pump dispenser in which, in a state in which a grip part is gripped, a trigger part above the grip part is pressed down to cause a liquid inside a cylinder part to be injected from a nozzle part, a finger abutting part of the grip part is at the rear of a force point of the trigger part.
However, when the trigger part is pressed downward with the grip part and the trigger part being gripped, the piston part also moves downward accordingly.
In this case, when the piston part moves downward, the nozzle part also moves downward.
Therefore, a problem remains in which the position of the nozzle part vertically moves when a liquid is injected.
The present invention has been made based on this background art, and an object of the present invention is to provide a trigger-type pump dispenser capable of accurately defining a liquid injecting direction without vertical movement of the position of a nozzle part, having a good grip capability without soiling of hands, having efficient transmission of finger power to a trigger part at the time of injection, and being excellent in operability.
With diligent studies to solve the above problems, the inventors have found that the above problems can be solved by intervening a hollow-shaped piston shaft between the trigger and the piston, leading to completion of the present invention.
The present invention resides in (1) a trigger-type pump dispenser attachable to a container, including a housing with a front cylinder part and a rear inverted-L-shaped grip part integrally formed, a nozzle base attached to the housing and having a front nozzle part mounted thereon, a piston structure configured of a hollow-shaped piston and a hollow-shaped piston shaft and sliding inside the cylinder part, a spring which presses the hollow-shaped piston and the hollow-shaped piston shaft upward, a trigger positioned above the housing, having a front tip rotatably mounted on the housing, and having a mid part where a tip of the piston shaft abuts, and a valve rod disposed at a center part inside the cylinder part, wherein the hollow-shaped piston is integrally formed so that a large-diameter piston part, a small-diameter piston part, and an intermediate-diameter mid part have a same axis center, and the small-diameter piston part has a lip part inside, the valve rod has, at its tip part, a valve body having a valve function in cooperation with the lip part, and has an enlarged part at its base end part, and a finger abutting part of the inverted-L-shaped grip part is at rear of a force point of a thumb pad part of the trigger.
The present invention resides in the trigger-type pump dispenser according to the above (1), in which (2) the hollow-shaped piston shaft has its upper part formed into a bifurcated part, a tip part of the bifurcated part abutting on the trigger, and its lower part incorporated in the hollow-shaped piston.
The present invention resides in the trigger-type pump dispenser according to the above (2), in which (3) a support shaft protrude from each outer side surface of the tip part of the bifurcated part.
The present invention resides in the trigger-type pump dispenser according to the above (1), in which (4) the small-diameter piston part of the piston structure is freely slidable inside a hollow part in a longitudinal direction formed in the nozzle base part, and movement of the piston structure is not transmitted to the nozzle base.
The present invention resides in the trigger-type pump dispenser according to any one of the above (1) to (4), in which (5) a stopper is inserted between the trigger and the inverted-L-shaped grip part.
Note that a structure obtained by combining the structures of the above respective inventions as appropriate is also adoptable as long as the structure goes along the object of the present invention.
The trigger-type pump dispenser according to the present invention has the following effects.
Even if the trigger vertically rotates, the position of the nozzle part does not change, and therefore the liquid injecting direction can be accurately defined toward a target.
Also, since vertical movement of the hollow-shaped piston can be made via the hollow-shaped piston shaft, the inner space of the housing can be reduced.
Also, since the inverted-L-shaped grip part is positioned under the trigger, when the trigger for injecting the liquid is pulled in, a grip is good, and the whole trigger-type pump dispenser is not required to be gripped.
Also, in a state in which four fingers are hooked on the inverted-L-shaped grip part, the thumb is put on the trigger, and a simple press downward is enough.
Thus, the dispenser can be easily handled even by a child with small hands, a handicapped person with decreased grip power or finger power, or the like.
Furthermore, even if a liquid is affixed to the trigger-type pump dispenser itself, the hand is away from the trigger-type pump dispenser itself, and is therefore not soiled.
Also, the trigger-type pump dispenser is such that, in a state in which the inverted-L-shaped grip part is gripped, the trigger above the inverted-L-shaped grip part is pressed down to cause a liquid inside the cylinder part to be injected from the nozzle part. Since the finger abutting part of the inverted-L-shaped grip part is at the rear of the force point of the thumb pad part of the trigger, a grip is good, holding capability is high (that is, gripping capability is good), power is efficiently transmitted, and operability is also excellent.
Also, the small-diameter piston part of the piston structure is freely slidable inside the hollow part in the longitudinal direction formed in the nozzle base part, and movement of the piston structure is not transmitted to the nozzle base. Therefore, the injecting direction can be accurately defined toward the target.
Also, with the stopper inserted between the trigger and the inverted-L-shaped grip part, it is possible to prevent the trigger from being pressed down due to some circumstances during storage or during delivery of the trigger-type pump dispenser.
A trigger-type pump dispenser A according to an embodiment of the present invention is described below with reference to the drawings.
The trigger-type pump dispenser A according to the embodiment of the present invention has a structure in which, with an inverted-L-shape grip part 11B gripped and a thumb pad part 13a of a trigger 13 pressed downward by using the thumb, a piston structure 14 is moved down to provide a compression force to a liquid for injection from a nozzle part 11C.
The stopper 21 is inserted in order to prevent the trigger 13 from being pressed down due to some circumstances during storage or during delivery of the trigger-type pump dispenser A.
As depicted in
The housing 11 has a front cylinder part 11A and the rear inverted-L-shaped grip part 11B integrally formed (refer to
Note that the cylinder part 11A is not depicted in
Also, the housing 11 has attached thereto a nozzle base, which will be described further below.
Also, the cylinder part 11A has a large diameter part 11Aa, an intermediate diameter part 11Ab, and a small diameter part 11Ac.
Note that the piston 15 slides inside this cylinder part.
A flange 11Aaf is formed on an outer circumference of the large diameter part 11Aa, and this flange 11Aaf is held tight by the cap 20, which will be described further below, to be attached to a container.
The inverted-L-shaped grip part 11B is positioned below the thumb pad part 13a of the trigger 13 at a rear end of the trigger 13, which will be described further below.
And, a finger abutting part 11Bs is on a side of the inverted-L-shaped grip part 11B opposed to the cap 20. This finger abutting part 11Bs is preferably at the rear of a force point P3 of the thumb pad part 13a of the trigger 13, which will be described further below.
The nozzle part 11C is positioned at the front of the housing 11 (refer to
Inside the nozzle part 11C, a hollow cylindrical part 11Ca is provided.
Inside this hollow cylindrical part 11Ca of the nozzle part, a second valve SV having a valve body SVa is incorporated.
And, the valve body SVa of the second valve SV abuts on a bottom part (serving as a valve seat function) of a hollow part 12b (refer to
As depicted in
Also, at its front, a latch nail 12d in the longitudinal direction and a latch nail 12e in the lateral direction are provided, and a fit-in protrusion 12c is provided at the rear.
Also, the trigger 13 is positioned above the housing 11, and has its front end part rotatably coupled to attachment holes 11d (refer to
That is, the portions of the above-mentioned attachment holes 11d to which the front end part of the trigger 13 is rotatably attached serve as rotation fulcrums P1 of the trigger 13.
Also, as depicted in
And, a center part of this thumb pad part 13a serves as the force point P3.
Also as depicted in
And, (two) support shafts 16c of a bifurcated part 16b of the hollow-shaped piston shaft 16, which will be described further below, abut on the arc-shaped recesses 13b (two locations) of the trigger 13.
The portions where the (two) support shafts 16c abut, that is, the arc-shaped recesses 13b (two locations), serve as points of application P2 of the trigger 13.
As described above, the stopper 21 can be inserted between the trigger 13 and the inverted-L-shaped grip part 11B.
And, the stopper 21 has an upper protruding part 21a and a lower side protruding part 21b.
The stopper 21 is caused to slide in a lateral direction along a horizontal plane part 11Bx of the grip part 11B to cause the upper protruding part 21a to be engaged in the notches 13c of the trigger 13 and also to cause the side protruding part 21b to fit in between the horizontal plane part 11Bx of the grip part 11B and a rear step part 12y of the nozzle base 12.
In this manner, the stopper 21 can be easily attached.
Also, to remove the stopper 21, the stopper 21 is drawn out oppositely to the above-described sliding direction, thereby allowing removal.
As depicted in
First, as depicted in
That is, as depicted in
And, a lip part 15Ba is formed below the inside of the small-diameter piston part 15B, whose upper end has an outward flange part 15Bb formed thereat.
The small-diameter piston part 15B is slidably inserted into the hollow part 12a of the nozzle base 12 in the longitudinal direction.
In this state, the cylinder part 11A and the space inside the nozzle base 12 are sealed from outside.
As will be described further below, when the trigger 13 is operated to inject a liquid, this small-diameter piston part 15B vertically moves, but the nozzle base 12 does not vertically move, and therefore the nozzle part 11C does not move and its position does not change.
Also, the large-diameter piston part 15A is slidably inserted into the large diameter part 11Aa of the cylinder part 11A.
As depicted in
Also, the (two) support shafts 16c protrude from an outer side surface of an upper portion of the bifurcated part 16b.
As described above, the (two) support shafts 16c abut on the arc-shaped recesses 13b (two locations) of the trigger 3.
And, the portions where the (two) support shaft 16c abut, that is, the arc-shaped recesses 13b (two locations), serve as the points of application P2 of the trigger 13.
Also, a flange 16f protrudes from outside of a lower end of the main body part 16a.
And, as depicted in
The spring 17 is a coil spring, pressing the piston structure 14 formed of the hollow-shaped piston 15 and the hollow-shaped piston shaft 16 upward.
An upper end part of the spring 17 abuts on a rear side of the upper coupling part 15Ca of the intermediate-diameter mid part, and a lower end part of the spring 17 abuts on an upper surface of an enlarged part 18b at a lower part of the valve rod 18, which will be described further below.
And, when the thumb pad part 13a of the trigger 13 is pressed down by the thumb to rotate the trigger 13, the piston structure 14 formed of the hollow-shaped piston 15 and the hollow-shaped piston shaft 16 moves downward to compress the spring 17.
Also, when pressing-down of the thumb pad part 13a is suspended, the spring 17 is expanded to press the piston structure 14 formed of the hollow-shaped piston 15 and the hollow-shaped piston shaft 16 upward.
And, when the piston structure 14 is pressed upward, the support shafts 16c (fitting in the arc-shaped recesses 13b of the trigger 13) of the hollow-shaped piston shaft 16 are pushed up to cause the trigger 13 to return to the original position.
In this manner, the spring 17 functions as a return spring of the trigger 13.
The valve rod 18 is disposed at a center part inside the large diameter part 11Aa and the intermediate diameter part 11Ab of the cylinder part 11A.
The valve rod 18 includes, at its tip part, a valve body 18a having a valve function in cooperation with the above-described lip part 15Ba of the small-diameter piston part 15B, and includes the enlarged part 18b at its lower base end part.
And, this enlarged part 18b of the valve rod 18 is accommodated inside the intermediate diameter part 11Ab of the housing 11.
Also, this enlarged part 18b includes a gap with an open lower end, and this open part of the gap includes a first valve FV.
A general outline of the first valve FV is depicted in
And, the plate spring parts FVb support and press the valve body FVa.
Also, the valve body FVa is opposed to a portion annularly protruding slightly upward from the intermediate diameter part 11Ab of the housing 11 (that is, a portion acting as a valve seat).
With the valve body FVa going away from this annularly protruding portion, the valve is opened.
As depicted in
And, above an opening of an upper end part of the tube 19, the above-described first valve FV is positioned.
As depicted in
Note that, preferably, the above-described hollow-shaped piston 15 is made of polyethylene, and the others including the housing 11, the nozzle base 12, the trigger 13, the hollow-shaped piston shaft 16, the valve rod 18, the tube 19, the cap 20, and the stopper 21 are all made of polypropylene.
Note that these are not necessarily restricted to be made of polyethylene or polypropylene.
Next, actuation of the trigger-type pump dispenser A according to the embodiment of the present invention is described.
First, the stopper 21 (refer to
Next, as depicted in
When the inverted-L-shaped grip part 11B and the trigger 13 are gripped and the thumb pad part 13a of the trigger 13 is pressed down by the thumb to cause the trigger 13 to rotate about the fulcrums P1, the hollow-shaped piston 15 also moves downward via the hollow-shaped piston shaft 16 in an interlocked manner with the movement of the trigger 13, and the liquid pressure inside the large diameter part 11Aa and the intermediate part 11Ab of the cylinder part 11A is increased.
Note that when the liquid pressure inside the intermediate diameter part 11Ab is increased, the first valve FV is closed.
When the piston structure 14 formed of the hollow-shaped piston 15 and the hollow-shaped piston shaft 16 moves downward against the returning force of the spring 17, the valve body 18a of the valve rod 18 is released from a contact with the lip part 15Ba of the small diameter piston part 15B, and the inside of the large diameter part 11Aa of the cylinder part 11A communicates the hollow part 12a (refer to
Thus, the increased liquid pressure inside the hollow part 12a in the longitudinal direction acts on the valve body SVa to open the second-valve valve body SV.
Thus, the liquid is injected from the nozzle part 11C.
In this case, with the rotation of the trigger 13 about the fulcrums P1, even if the hollow-shaped piston 15 moves downward, the nozzle part 11C does not move and is at a fixed position.
Also, as depicted in
Note that in the trigger 13, since the (two) support shafts 16c of the hollow-shaped piston shaft 16 abut on the arc-shaped recesses 13b (two locations) of the trigger 13, the trigger 13 is also rotated and returned to the original position by the returning force of the spring 17.
When the hollow-shaped piston 15 ascends, the inside of the cylinder part becomes at a negative pressure. Thus, the second valve SV is closed, the first valve FV is opened, and the liquid inside the container main body is drawn up via the tube 19.
Here, when the hollow-shaped piston 15 ascends to be returned to the original position, the valve body 18a of the valve rod 18 makes contact with the lip part 15Ba of the small-diameter piston part 15B, and the communication between the large diameter part 11Aa of the cylinder part 11A and the hollow part 12a (refer to
Thus, liquid leakage to the outside is prevented.
The trigger-type pump dispenser A according to the embodiment of the preset invention has the following effects.
Even if the trigger 13 vertically rotates, the position of the nozzle part 11C does not change, and therefore the liquid injecting direction can be accurately defined toward a target.
Also, since the vertical movement of the hollow-shaped piston 15 can be made via the hollow-shaped piston shaft 16, the inner space of the housing 11 can be reduced.
Also, since the inverted-L-shaped grip part 11B is positioned under the trigger 13, when the trigger 13 for injecting the liquid is pulled in, a grip is good, and the whole trigger-type pump dispenser A is not required to be gripped.
Also, in a state in which four fingers are hooked on the inverted-L-shaped grip part 11B, the thumb is put on the thumb pad part 13a of the trigger 13, and a simple press downward is enough.
Thus, the dispenser can be easily handled even by a child with small hands, a handicapped person with decreased grip power or finger power, or the like.
Furthermore, even if a liquid is affixed to the trigger-type pump dispenser A itself, the hand is away from the trigger-type pump dispenser A itself, and is therefore not soiled.
Also, the trigger-type pump dispenser A is such that, in a state in which the inverted-L-shaped grip part 11B is gripped, the trigger 13 above the inverted-L-shaped grip part 11B is pressed down to cause a liquid inside the cylinder part 11A to be injected from the nozzle part 11C. Since the finger abutting part 11Bs of the inverted-L-shaped grip part 11B is at the rear of the force point P3 of the thumb pad part 13a of the trigger 13, a grip is good, and holding capability is high.
Also, finger power is efficiently transmitted, and operability is excellent.
Also, with the stopper 21 inserted between the trigger 13 and the inverted-L-shaped grip part 11B, the trigger 13 can be prevented from being pressed down due to some circumstances during storage or during delivery of the trigger-type pump dispenser A.
And, as described above, insertion, that is, attachment, and removal of the stopper 21 can be easily made by sliding along the horizontal plane part 11Bx of the grip part 11B.
While the suitable embodiment of the present invention has been described in the foregoing, the present invention is not restricted to the above embodiment.
For example,
In this case, unlike the above-described nozzle part 11C of
Also, unlike the nozzle base 12 of
And, the hollow part 12a in the longitudinal direction has an upper lip part 12a1 formed, which cooperates with the valve body of the second valve SV to exert a valve open/close function.
Also,
(A) depicts the nozzle base 12 of the above-described embodiment, and (B) depicts the nozzle base 12 of
In any case, the nozzle base 12 does not vertically move, and the nozzle part 11C has an unmovable structure.
The present invention can be applied to, for example, general industries as coating purposes or fields of medical equipment and so forth, as long as they use the liquid injection principle of the present invention.
Number | Date | Country | Kind |
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2014-151134 | Jul 2014 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2015/003624 | 7/17/2015 | WO | 00 |