JP3756074B2 - Container with valve - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a valved container for liquids and powders.
[0002]
[Prior art]
Some caps such as a pendulum valve are provided on a cap provided in the container body, and the flow area of the spout of the cap is adjusted by moving the valve.
[0003]
[Problems to be solved by the invention]
At the stage where the cap assembly is not yet assembled to the container body in the assembly line of the cap assembly or the internal solution filling line into the container, the valve attached to the cap assembly is widely exposed to the outside world and is not exposed to other objects. There is a risk of being damaged or coming off due to contact.
[0004]
An object of the present invention is to prevent breakage or dropout of a valve provided in a cap.
[0005]
[Means for Solving the Problems]
The invention of claim 1 is a container with a valve in which a valve protection member is provided around the valve when a pendulum valve supported between a container body and a cap and swings is provided, and the valve protection member is a pendulum. A cylindrical wall surface surrounding the opening / closing swing path of the valve is provided .
[0006]
DETAILED DESCRIPTION OF THE INVENTION
As shown in FIG. 1, the valve-equipped container 10 such as a detergent container has a cap 20 attached to the container body 11. The cap 20 includes a cap body 21 attached to the opening 12 of the container body 11 by fitting (or screwing) or the like, and a cover cap 22 attached to or detached from the cap body 21 by screwing (or fitting) or the like. Have. The cover cap 22 is used as a measuring cap that receives and measures the internal solution poured out from the cap body 21.
[0007]
The cap 20 is an assembly in which a valve protection member 50 that supports a pendulum valve 40, which will be described later, is fitted to the cap main body 21 and a cover cap 22 is attached to the cap main body 21, and the container main body filled with the internal solution. 11 is used.
[0008]
The cap body 21 includes an outer cylinder 31 attached to the opening 12 of the container body 11, a top surface part 32 that closes the upper end of the outer cylinder 31, a first inner cylinder 33 that follows the inner periphery of the top surface part 32, A threaded portion 34 provided on the upper surface of the top surface portion 32 to which the cover cap 22 is screwed, a partition portion 35 that is connected to the first inner cylinder 33 and partitions the inside and outside of the cap body 21, and extends downward from the partition portion 35. A second inner cylinder 36 and an extraction cylinder 37 extending upward from the second inner cylinder 36 via the partition portion 35 are provided.
[0009]
The second inner cylinder 36 of the cap body 21 has a cylindrical shape that protrudes into the container body 11 and includes a circulation port 36A for taking in and out the inner solution. The dispensing cylinder 37 guides the internal solution taken from the flow port 36A of the second inner cylinder 36 and pours it out from the spout 37A. The cap main body 21 forms an annular liquid recovery part 38 on the partition part 35 between the first inner cylinder 33 and the extraction cylinder 37, and the extraction cylinder 37 is arranged on the side opposite to the extraction cylinder 37. The liquid return slit 39A and the liquid return port 39B of the liquid recovery part 38 are opened so as to be continuous with each other.
[0010]
The cap body 21 is provided with a pendulum valve 40 at the flow port 36 </ b> A of the second inner cylinder 36, and the rotating shaft 41 of the pendulum valve 40 is interposed between the container body 11 on the side opposite to the pouring cylinder 37. Is supported by a bearing 56 provided in a housing 51 described later. The pendulum valve 40 is swingable by using its own weight under the action of gravity, and is brought into contact with and separated from the inclined valve seat 43 that is the periphery of the flow port 36A provided at the tip of the second inner cylinder 36 when pouring. The peripheral edge at the tip of the second inner cylinder 36 is closed.
[0011]
Here, the cap main body 21 is arranged in the circumferential direction of the second inner cylinder 36 on the pouring side of the pouring cylinder 37, in other words, on the side opposite to the rotating shaft 41 of the pendulum valve 40, and the upper and lower sides of the second inner cylinder 36. A slit 36B is opened over the entire direction. Thereby, when the pendulum valve 40 closes the flow port 36A, the slit 36B having a small opening forms a liquid outflow path. In the case of the container 10 with a valve, when the container body 11 is tilted downward when the liquid is poured out, the pendulum valve 40 closes the flow port 36A so that the internal solution can be poured out from the slit 36B, and the small opening slit 36B. The flow rate is regulated so that even a low-viscosity liquid can be stably dispensed without being discharged all at once. When refilling the inner solution, the container body 11 is erected, the flow port 36A is opened by the pendulum valve 40, and the refill solution can be easily injected from the flow port 36A having a large opening.
[0012]
The inclination angle θ of the valve seat 43 formed on the periphery of the flow port 36A provided at the tip of the second inner cylinder 36 is preferably 5 degrees to 30 degrees. The inclination angle θ is an angle formed by a straight line connecting two upper and lower points along the pouring direction of the pouring cylinder 37 in the peripheral edge of the circulation port 36A with the container body 11 upright. By setting the angle to 30 degrees, the flow port 36A can be closed by the pendulum valve 40 before the container body 11 is tilted and the pouring is started, and the flow rate can always be regulated by the slit 36B.
[0013]
In the cap body 21, the lowermost end portion of the second inner cylinder 36 is stored inside the lower end surface of the outer cylinder 31 so that the second inner cylinder 36 does not protrude outward from the lower end surface of the outer cylinder 31. Thus, the cap body 21 can be transported well in the cap 20 assembly line.
[0014]
However, the valved container 10 has the following characteristic configuration.
(A) In the cap 20, a valve protection member 50 is provided around the pendulum valve 40. The valve protection member 50 includes a housing 51 disposed between the container main body 11 and the cap main body 21. The housing 51 is fitted into the opening 12 of the container body 11, and the fitting part 52 into which the outer cylinder 31, the top surface part 32, and the first inner cylinder 33 of the cap body 21 are fitted, and the pendulum valve 40. It consists of a cylindrical wall body 53 that surrounds the opening / closing movement path (oscillation path). In the circumferential direction of the wall surface body 53, the housing 51 is disposed on the side of the pouring of the pouring cylinder 37, on the opposite side of a bearing 56 described later for the rotating shaft 41 of the pendulum valve 40 provided on the housing 51. The slit 54 which can distribute | circulate 11 inner solutions is opened.
[0015]
The housing 51 has a protruding portion 55 that protrudes inward from a part of the wall surface 53 in the circumferential direction (opposite the slit 54), and a bearing 56 for the rotary shaft 41 of the pendulum valve 40 is provided above the protruding portion 55. A depression is formed. In the cap 20, in the assembled state in which the housing 51 is fitted to the cap body 21, the peripheral portion of the first inner cylinder 33 and the partition part 35 of the cap body 21 is used as a bearing cover part 57 for the bearing 56. The bearing cover 57 substantially shields the bearing 56 from the external space.
[0016]
Therefore, according to the present embodiment, there are the following operations.
(1) Since the valve protection member 50 is provided around the pendulum valve 40 provided on the cap 20, the assembly of the cap 20 is placed on the container body in the assembly line of the assembly of the cap 20 and the internal solution filling line into the container 10. 11, the pendulum valve 40 attached to the cap body 21 is protected by being surrounded by the valve protection member 50, and can be prevented from being damaged or dropped off due to contact with other objects.
[0017]
(2) When the valve protection member 50 is the wall surface body 53, the periphery of the pendulum valve 40 can be firmly and securely surrounded, and the pendulum valve 40 can be reliably protected.
[0018]
(3) Since the slit 54 is provided in the wall surface body 53 constituting the valve protection member 50, the barrier J of the wall surface body 53 around the pendulum valve 40 is formed when the container 10 for pouring the internal solution from the container body 11 is inclined downward. The presence of the slit 54 does not hinder the flow of the internal solution, the remaining amount of the liquid in the container 10 can be reduced as much as possible, and the usability of the container 10 can be improved. Further, it is possible to reliably detect from the slit 54 that the pendulum valve 40 is incorporated in the wall surface 53 in the assembly line of the assembly of the cap 20, and the assemblability can be improved.
[0019]
(4) By configuring the valve protection member 50 with the housing 51 disposed between the container body 11 and the cap body 21, the housing 51 is separated from the cap body 21, and the housing 51 is separated from the cap body 21 and the container body. The sealing performance between the cap main body 21 and the container main body 11 can be improved, for example, by using a softer material than 11 and interposing between them.
[0020]
(5) By providing the bearing 56 of the pendulum valve 40 in the housing 51, it is not necessary to provide the bearing 56 as a separate part, the number of parts of the assembly of the cap 20 can be reduced, and the assemblability can be improved.
[0021]
(6) Covering the bearing 56 of the pendulum valve 40 with the bearing cover portion 57 makes it difficult for the liquid to directly contact the bearing 56, avoids the swinging failure of the pendulum valve 40 due to solidification of the liquid, and improves the usability of the container 10. it can.
[0022]
(B) In the cap 20, the flow port 36 </ b> A is provided in the second inner cylinder 36 that protrudes inside the container body 11 of the cap body 21, and the aforementioned slit 36 </ b> B is provided in the wall surface of the second inner cylinder 36. Then, the position of the slit 36 </ b> B provided in the second inner cylinder 36 is set at least on the side opposite to the rotating shaft 41 of the pendulum valve 40.
[0023]
Therefore, according to the present embodiment, there are the following operations.
When the second inner cylinder 36 provided with the flow port 36A provided with the pendulum valve 40 is extended to the inside of the container main body 11, the inner solution is poured out from the container main body 11 because the slit 36B is provided on the wall surface of the inner cylinder 36. When the container 10 to be tilted downward, the barrier K to the projecting portion of the second inner cylinder 36 to the container body 11 does not hinder the flow of the content liquid due to the presence of the slit 36B, and the remaining liquid amount in the container 10 is reduced as much as possible. Therefore, the usability of the container 10 can be improved.
[0024]
(C) In the pendulum valve 40 provided in the flow port 36A of the second inner cylinder 36 of the cap 20 (cap body 21), as shown in FIG. 3A, the surface seated on the valve seat 43 at the periphery of the flow port 36A. Was defined as a convex surface 42A. In the convex surface 42A, a truncated conical surface obtained by excising the apex side of the conical surface is fitted into the valve seat 43 of the flow port 36A in a self-aligning manner.
[0025]
A surface facing the inside of the container body 11 of the pendulum valve 40 is a concave surface 42B as shown in FIG.
[0026]
Therefore, according to the present embodiment, there are the following operations.
(1) The convex surface 42A (or concave surface) of the surface of the pendulum valve 40 is fitted to the valve seat 43 at the periphery of the flow port 36A of the cap 20 without self-aligning, and the pendulum valve 40 is fitted to the valve seat 43. Can be reliably seated at a fixed position. As a result, a predetermined flow rate can be regulated without causing an unexpected gap between the pendulum valve 40 and the valve seat 43.
[0027]
(2) Since the surface of the pendulum valve 40 facing the inside of the container body 11 is the concave surface 42B, when the liquid is poured out, the liquid is accumulated in the concave surface 42B of the pendulum valve 40 and the pendulum valve 40 is activated by the weight of the liquid. Then, it closes quickly and the flow rate can be regulated from the beginning of liquid pouring.
[0028]
(3) Since the surface facing the inside of the container body 11 of the pendulum valve 40 is a concave surface 42B, when the liquid is refilled and filled, the air on the liquid surface that is filled and ascends inside the container body 11 is raised. The pendulum valve 40 is raised by the buoyancy of the concave surface 42B of 40. The user can see the completion of refilling by looking at the pendulum valve 40 ascending, and does not spill.
[0029]
In the present invention, the valve protection member may be a frame-like body, a net-like body, or the like. The valve is not limited to a pendulum valve.
[0030]
【The invention's effect】
As described above, according to the present invention, it is possible to prevent the valve provided in the cap from being damaged or dropped out.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing a valved container.
FIG. 2 is a plan view of a pendulum valve assembled to a housing.
FIG. 3 is a perspective view showing a pendulum valve.
[Explanation of symbols]
10 Container with valve 11 Container body 20 Cap 40 Pendulum valve (valve)
50 Valve Protection Member 51 Housing 53 Wall Body 54 Slit 56 Bearing 57 Bearing Cover

Claims (6)

When providing a pendulum valve that is supported and swings between a container body and a cap, a container with a valve provided with a valve protection member around the valve ,
A valve-equipped container, wherein the valve protection member comprises a cylindrical wall surface surrounding the periphery of the open / close swing path of the pendulum valve. The cap is attached to the container body filled with the content liquid in the form of an assembly in which the valve protection member supporting the pendulum valve is fitted to the cap body and the cover body is attached to the cap body. The valved container according to claim 1 used . The container with a valve according to claim 1 or 2, wherein a slit is provided in the wall surface body. The said valve protection member consists of a housing arrange | positioned between a container main body and a cap, and the said pendulum valve is supported by the bearing provided in the housing, The container with a valve in any one of Claims 1-3. The container with a valve according to claim 4 , wherein the cap main body forms a bearing cover portion that covers the bearing in a state where the housing is fitted to the cap main body . The container with a valve according to claim 4 or 5, wherein the housing is provided with a slit through which the content liquid of the container body can be circulated on the opposite side of the bearing in the circumferential direction of the wall surface body.

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