JPH0225496Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Field of Application] This invention relates to a so-called squeezing type dispenser, which drains liquid from a container by squeezing the container.

[Conventional technology]

In this type of dispenser, fluid flows out by squeezing the container, so it is necessary to return the container to its original shape as quickly as possible after squeezing. However, the speed of restoration is not only proportional to the elastic force of the container, but also greatly affects the amount of air flowing into the container. The air flows into the container through the liquid outlet along with the liquid remaining in the liquid outlet of the head.

[The problem that the idea attempts to solve]

Generally, the cross-sectional area of the liquid outflow path is relatively small and there is residual liquid, making it difficult to quickly introduce a large amount of air. Therefore, the squeezing operation cannot be performed continuously without any intervals, and the liquid cannot flow out quickly.

In addition, in a squeeze-type dispenser, if it falls over when not in use, the container is squeezed and liquid leaks. Known squeeze dispensers typically do not have appropriate control valves and cannot handle such unexpected container squeezes.

The object of this invention is to provide a squeeze-type dispenser that allows rapid inflow of air and controls outflow of liquid without complicating the structure.

[Means to solve the problem]

In order to achieve this object, according to this invention, a check valve is provided on the mounting member for mounting the head in which the liquid outflow path is formed to the mouth of the container. The check valve is configured to be opened by negative pressure within the container to allow air to flow into the container.

Further, the head is rotatably attached to the extension of the attachment member, and a control valve is provided between the head and the attachment member to control the outflow of liquid in the container by rotation of the head.

〔Example〕

Hereinafter, embodiments of this invention will be described in detail with reference to the drawings.

As shown in FIG. 1, the squeeze-type dispenser 10 according to this invention includes a squeezeable container 12, a head 14, and a mounting member 1 for attaching the head to the container.
6. The attachment member 16 takes the form of a screw cap in the embodiment and is fixed to the mouth 13 of the container 12 by means of a screw. However, it goes without saying that the mounting member can take various other forms. Note that reference numeral 15 indicates packing.

An extension portion 20 into which a suction pipe 18 for sucking up the liquid in the container 12 is fitted extends downward from the mounting member 16 . The head 14 includes a vertical flow path 22 extending in the axial direction and a horizontal flow path 24 communicating with the vertical flow path as a liquid outflow path, and a pair of grooves 26 spaced apart by 180 degrees are formed in the lower side wall of the vertical flow path. has been done. The head 14 has a fitting annular groove 28 at its lower end, and the fitting annular extension 30 on the top surface of the mounting member is fitted into this groove, so that the head can be rotated relative to the mounting member 16. It is installed. The mounting member 16 has another extension 32 in the center of its upper surface, in which an axial rectangular groove 34 communicating with the suction tube 18 is formed. This rectangular groove 34 is
It opens on the side and is tightly sealed and sealed by the lower end side wall of the liquid outflow path of the head 14 (see Fig. 3).
It is formed so that it can communicate with the groove 26 of the head by rotating the head 14 (see FIG. 2).

A control valve is formed from these grooves 26, 34,
When the grooves 26, 34 are in communication, the liquid in the container can flow out through the suction tube 18, the grooves 34, 26, and the channels 22, 24 (see FIG. 2). However, if the head 14 is rotated by an appropriate angle, for example, 90 degrees, the groove 34 is tightly sealed with the lower end side wall of the liquid outlet path of the head, as shown in FIG.
6, 34 is blocked and no fluid is allowed to flow out.

As described above, this invention is provided with a control valve that controls the outflow of the liquid in the container by rotating the head 14, so that the outflow of the liquid can be controlled as desired. Therefore, by closing the control valve, even if the container 12 is squeezed due to falling, etc. when not in use,
Prevents liquid leakage.

A groove 34 is formed at the upper end of the extension of the mounting member, and an axial groove 26 that can communicate with this groove.
is formed on the side wall at the lower end of the outflow channel, so
The control valve is simplified in construction. Therefore, the molds for the head 14 and the mounting member 16 are not complicated, and the head and the mounting member can be easily molded by injection molding.

Since the control valve is opened and closed by rotating the head 14 rather than by raising and lowering it, the control valve can be operated quickly. Also, the rotation of the head 14 causes the groove 34 to
Since they are tightly sealed and sealed, the head can be molded low and the dispenser 10 can be made smaller.

The grooves 26 and 34 are not limited to the shape shown in the drawings, as long as they can control the communication between the liquid outlet path of the head and the inside of the container by rotating the head 14.

As can be seen in FIG. 1, a check valve 36 is provided on the mounting member 16. For example, check valve 36
, a ring 38 fitted to the mounting member 16, a valve body 40, and a conformal 4-shape formed between the ring and the valve body so as to be able to swing freely in the axial direction and bias the valve body toward the valve seat. It is formed with two swing arms 42.

In the check valve 36 having such a configuration, the container 1
2 is squeezed and the inside of the container becomes negative pressure, the valve body 40 moves away from the valve seat against the biasing force of the swing arm 42 due to the negative pressure, and the check valve is released. Therefore, air flows through the channels 24, 22, the grooves 26, 34,
It flows into the container with the remaining liquid via the suction pipe 18 and also through the check valve 36 . Therefore, a large amount of air can quickly flow in, the container can be quickly restored to its original shape, and the squeezing operation can be performed continuously.

Note that the check valve 36 is not limited to the illustrated structure, as long as it is released when the pressure inside the container becomes negative and allows air to flow into the container. for example,
Jade valves, plate valves, etc. can be used.

Note that under special conditions, for example, when it is desired to continuously flow out a harmless liquid that is difficult to solidify, it is preferable to actively allow the liquid to remain in the channels 22 and 24. Therefore, the check valve 44 closes except when the container is squeezed and prevents air from flowing into the container.
may be arranged at a suitable position, for example above the suction pipe 18.

The dispenser 10 can also be used as a sprayer or foamer by attaching a spinner to its outlet hole and, if necessary, a foaming means.

The above-mentioned embodiments are for illustrating this invention, and are not intended to limit this invention in any way, and any modifications, modifications, etc. made within the technical scope of this invention are also included in this invention. Needless to say.

[Effect of idea]

As mentioned above, according to the squeeze type dispenser of this invention, a check valve is provided on the mounting member, and
Rotatably attach the head to the extension of the mounting member,
A control valve is provided between the head and the mounting member to control the outflow of liquid in the container by rotation of the head.

In this way, since the check valve is provided on the mounting member, when the inside of the container becomes negative pressure, air not only flows in through the head outlet path and the control valve, but also flows through the check valve. A large amount of air can flow in.
Therefore, the container can quickly return to its original shape, and the squeezing operation can be performed continuously.

In addition, since it is equipped with a control valve that controls the outflow of liquid in the container by rotating the head, the outflow of liquid can be controlled, and by closing the control valve, it can be prevented from falling over when not in use. Liquid leakage is also prevented when the container is squeezed.

A control valve is constituted by a groove that is open to the side and formed at the upper end of the extending portion of the mounting member, and an axial groove formed in the side wall at the lower end of the outflow passage so as to be able to communicate with this groove. This simplifies the configuration of the control valve. Therefore, the molds for the head and the mounting member are not complicated, and the head and the mounting member can be easily molded by injection molding.

Since the control valve is opened and closed by the rotation of the head, the control valve can be operated quickly. In addition, since the groove is brought into close contact and sealed by the rotation of the head, the head can be molded low and the dispenser can be made smaller.

[Brief explanation of the drawing]

FIG. 1 is a longitudinal sectional view of the squeeze-type dispenser according to this invention, and FIGS. 2 and 3 are cross-sectional views taken along the line in FIG. 1 when the control valve is opened and closed. It is a front view. 10...dispenser, 12...container, 14
... Head, 16 ... Mounting member, 20, 30, 3
2... Extending portion of the mounting member, 26... Groove opened on the side, 34... Groove in the axial direction, 36... Check valve.

Claims (1)

[Claims for Utility Model Registration] A mounting member that is attached to the mouth of a squeezable container that stores a liquid and has an extension on the top surface, and a fluid outflow path that allows the mounting member to rotate. It is equipped with a head to be attached, and a check valve that is provided on the mounting member and is released when the container becomes negative pressure to allow air to flow into the container. A control valve is formed by providing a groove in the extension of the mounting member that can be tightly sealed and sealed at the lower end wall, and an axial groove in the lower end wall of the fluid outflow path that can communicate with this groove. By rotating, the two types of grooves are communicated or disconnected,
A squeeze-type dispenser that allows you to control the outflow of liquid inside the container.