KR101084353B1 - Controlling container-cab - Google Patents

Abstract

PURPOSE: A container cap is provided to enable users to move a controller using a slide for controlling the discharging amount of contents from a container. CONSTITUTION: A container cap comprises a housing(110), an inlet(120), and a controller(130). The housing includes a flow passage(112) for flowing fluid, and an outlet for discharging the fluid. An inlet tube combines with the lower side of the housing for inflowing the fluid inside a container to the flow passage. The controller is installed inside the housing for adjusting the size of the flow passage, and has one side exposed to the outside of the housing and protrusions on one surface.

Description

Container Cap {CONTROLLING CONTAINER-CAB}

The present invention relates to a container cap for extracting and using a fluid stored in a container from a container capable of storing a fluid such as lotion or shampoo.

Generally, in order to draw the fluid from the container that stores the fluid such as lotion or shampoo, the user places the discharge port downward and presses the container to squeeze it, or it is connected to the top of the standing container. Pressing the cap in the direction of the container is used to the fluid discharged to the outside of the container cap by the force of the container cap pressed.

Looking at the same method as described above, when squeezing fluid by applying pressure to the container itself, the user has to lift the container with one hand and use it to discharge the fluid to the other hand. Due to the cumbersome lifting, a container cap is coupled to an upper end of a standing container so that a user presses the container cap to draw out the fluid contained in the container.

However, in the case of the container cap as described above, since the amount of fluid discharged at a time is constant according to the size of the container cap, in order for the user to discharge a large amount, the user pushes the container cap several times, thereby increasing the amount of fluid. It is possible to discharge, but on the contrary, it is not easy to discharge a smaller quantity at a time. If possible, it is still possible to discharge a small amount of fluid rather than to push the container cap completely if the container cap is not fully pushed in one push, but it is still possible to adjust the amount constantly. There is a problem that is difficult.

The present invention is to solve the above problems, the user can adjust the amount of the container cap is discharged by one push or the container cap that can adjust the amount of fluid discharged when we squeeze the container out of the container The purpose is to provide.

In one aspect of the present invention, the container cap is formed with a flow path through which a fluid can move, and a housing having a discharge port for discharging fluid moved through the flow path; An inlet pipe coupled to a lower side of the housing and into which a fluid stored in a container flows into a flow path of the housing; And an adjuster provided inside the housing to adjust a size of a flow path of the housing. Characterized in that it comprises a.

At this time, the adjuster has one side protruding to the outside of the housing, the other side is formed long along the inner surface of the housing, the flow path size of the housing by the other side in accordance with the movement of one side protruding to the outside of the housing Characterized in that it is formed to adjust.

And a protrusion is formed on one surface of the adjuster, characterized in that a plurality of grooves are formed in a position corresponding to the protrusion on the inner surface of the housing which is in contact with the one surface formed with the protrusion.

In addition, the adjuster is coupled to rotate about a predetermined axis within the housing, one side of the adjuster protrudes out of the housing, the adjuster according to the movement of one side protruding out of the housing Rotate to adjust the flow path size of the housing.

On the other hand, in the container cap of the present invention, the adjuster, a rotating shaft fixed inside the housing, extending in connection with the rotating shaft is rotatable about the rotation axis and extending from the extension in a curved form extending from the extension portion It consists of a rotatable blocking part with rotation,

One portion of the blocking portion is formed with an open groove through which the fluid can escape, the end of the blocking portion is characterized in that the weight added for the center of gravity of the blocking portion is formed.

As described above, according to the present invention, by controlling the size of the flow path formed inside the housing of the container cap, there is an effect that the amount of fluid discharged from the container cap by one push can be adjusted.

Moreover, since it is possible for the user to adjust the slider by the slide on the outer surface of the container cap, there is an effect that it is possible to continuously discharge the same amount of fluid by a single push in the adjusted state. It is also possible to completely block the flow path by moving the regulator, there is an effect that can prevent the fluid from being discharged even if the container cap is pressed by the external force undesired when the user moves the container into the bag.

1 is a perspective view showing a container equipped with a container cap of the present invention.
Figure 2 is a perspective view showing that the container cap is mounted on the container of the present invention.
Figure 3 is a cross-sectional view showing a cap as an embodiment of the present invention.
Figure 4 is an embodiment of the present invention, an operation diagram showing the operation of the container cap.
5 is a cross-sectional view showing a container cap in another embodiment of the present invention.
Figure 6 is another embodiment of the present invention, the operation diagram showing the operation of the container cap.
7 is a cross-sectional view showing a container cap according to another embodiment of the present invention.
8 is a view showing the container cap in another embodiment of the present invention.
9 is a view showing the container cap in another embodiment of the present invention.
10 is a view showing a container cap in another embodiment of the present invention.
11 is a cross-sectional view showing the operation of a container cap according to another embodiment of the present invention.

The preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings, in which the technical parts already known will be omitted or compressed for simplicity of explanation.

< First embodiment >

The pump assembly with the container cap 100 of the present invention includes a container cap 100, a coupling cap, a cylinder 30, and a connecting pipe 40, and the container cap 100 of the present invention includes a housing ( 110, an inlet pipe 120 and a regulator 130, which will be described with reference to the drawings illustrated in FIGS. 1 to 4.

The housing 110 has a flow path 112 through which fluid can pass along with a predetermined space therein, and the flow path 112 is bent to the side from the lower side of the housing 110. Thus, an inlet is provided at the lower side of the housing 110 so that the fluid flows into the flow path 112, and a discharge part 114 at which the fluid is discharged to the outside of the housing 110 is provided at the side.

At this time, the discharge portion 114 is provided on the side of the housing 110, as shown in Figures 1 to 4, is formed to protrude outwardly from the housing 110, the length protrudes as necessary The shape will be possible to change. And the inlet 116 may be provided so that the inlet pipe 120 is inserted and fitted.

The inlet pipe 120 connects the fluid introduced by the fluid from the container 50 to the flow path 112 of the housing 110, and the coupling cap and the cylinder 30 are respectively coupled downward.

The regulator 130 is provided inside the housing 110, and is provided to block the flow path 112 of the housing 110. Thus, the adjuster 130 is sufficient to have a thin plate shape, the adjuster 130 is composed of a control unit 132 and the blocking unit 134, the control unit 132 of one side is shown in Figure 3 Protruding outward from the rear of the housing 110, the other blocking portion 134 extends long to block the flow path 112 in the interior of the housing 110.

Of course, the shape of the regulator 130 is formed in the shape of the inner surface of the housing 110 to be in close contact with the inner surface of the housing 110 in the shape of a thin plate so that the blocking portion 134 is formed long along the inner surface of the housing. .

And, as shown in Figure 4, the adjuster 130 is configured to be capable of sliding in the interior of the housing 110, the control unit 132 protruding out of the housing 110 to the external force of the user By sliding it is possible. Thus, as the adjustment unit 132 is slid by the user, the blocking unit 134 may block the flow path 112 of the housing 110, and the control unit 132 may be adjusted according to a user's selection. It is also possible to completely block the flow path 112 of the housing 110 by the 134, and to block only a part of the flow path 112 to adjust the amount of fluid discharged to the outside of the housing 110. .

That is, as shown in Figures 3 to 4, the regulator 130 is movable in the housing 110, the flow path 112 as the blocking portion 134 moves in the direction crossing the flow path (112). By adjusting the size of the cross section of the cross-section), it is possible to control the amount of fluid passing through the flow path 112.

The large cap 20 is made of a cylindrical shape is coupled to the inlet of the container 50 by a screw fastening method, for this purpose it is possible to process the internal thread shape. And the inlet pipe 120 is fixedly coupled to the upper end of the large cap (20).

The cylinder 30 is mounted in the large cap 20 while being configured in a cylindrical shape with the upper and lower portions opened. Therefore, the cylinder 30 is installed coaxially in the large cap 20, and the cylinder 30 may be provided with a space for temporarily storing the fluid sucked therein, and is connected to the connecting pipe 40 to connect the cylinder 30. ) It is provided to allow a slight movement in the vertical direction by the pressure inside.

Thus, as the container cap 100 is moved in the direction of the container 50 by an external force, the fluid stored in the container 50 through the connecting pipe 40 by the pressure inside the cylinder 30 is transferred through the cylinder. 100) it is possible to move to the side.

< Second embodiment >

Another embodiment of the container cap 200 of the present invention will be described with reference to the drawings shown in FIGS. The container cap 200 according to another embodiment of the present invention includes a housing 210, an inlet pipe 220, and a regulator 230 in the same manner as in the first embodiment, and the same as in the first embodiment. The description of the configuration is omitted.

The housing 210 is provided with an inlet 216, a flow path 212 and a discharge part 214, respectively, as in the first embodiment. In the second embodiment, the flow path 212 is formed in the housing 210. One side is formed by the regulator (230). 5 to 6, one side of the flow path 212 is the side of the regulator 230 and the other is formed by the housing 210.

Inlet pipe 220 is coupled to the lower end of the housing 210, as in the first embodiment, serves to introduce the fluid flowing through the cylinder 30 into the flow path (212).

The regulator 230 is coupled to the rotation of the inside of the housing 210, one side is the control unit 232, protruded to the outside of the housing 210, as in the first embodiment, the housing ( It is preferably provided to be movable by sliding from the outside of the 210, bent at a predetermined angle with respect to the center of the rotation. That is, as shown in Figure 5, the adjuster 230 is divided into the control unit 232 and the blocking unit 234 based on the rotation center, the control unit 232 and the blocking unit 234 at a constant angle It is formed in a folded state.

And the blocking portion 234 of the regulator 230 is formed on one side of the flow path 212, the end of the blocking portion 234 is bent to be in contact with the inner surface of the housing 210. This is because the controller 230 is rotated by the sliding of the adjuster 232 so that the cutoff part 234 reduces the cross-sectional area of the flow path 212 so that the space of the discharge part 214 is equal to the space behind the shutoff part 234. This is to block the connection.

That is, even when the passage of the flow path 212 is narrowed by the blocking part 234 in the process of discharging the fluid to the discharge part 214 side through the flow path 212, the space of the discharge part 214 remains unchanged. Therefore, the space of the discharging part 214 and the back space of the blocking part 234 may be connected. In the process of discharging the fluid through the flow path 212, the fluid flows back to the back space of the blocking part 234. This is to prevent it.

Of course, although not shown in the drawings through another embodiment of the present invention, by forming the thickness of the other side of the regulator 230, it will be possible to prevent the back flow of the fluid.

That is, as can be seen through the operation diagram shown in Figure 6, the user sliding one side of the adjuster 230, the adjuster 230 mounted inside the housing 210 is made to rotate the cross section of the flow path (212) It is possible to control the amount of the fluid discharged to the outside of the housing 210 so that the narrower toward the discharge portion 214 toward the direction.

< Third embodiment >

Another example that can be implemented to adjust the amount discharged using the container cap 300 of the present invention will be described with reference to FIGS.

Referring to the figure shown in Figure 7, in the third embodiment of the present invention is shown to discharge the fluid contained in the container 50 by squeezing the container 50, the projection 336 is formed in the regulator 330 In addition, a plurality of grooves 318 are sequentially formed on the inner surface of the housing 310 into which the adjuster 330 is inserted to correspond to the protrusion 336. As the protrusion 336 is formed on the controller 330, the user may move the control unit 332 to adjust the size of the flow path 312 step by step when the fluid is discharged to the outside through the flow path 312. Do.

That is, as the user moves the adjuster 332, the protrusion 336 is caught in any one of the plurality of grooves 318, and thus the user removes an external force applied to the adjuster 332 at a desired position. It is possible to adjust the size of the flow path 312 step by step. Therefore, the user can more conveniently adjust the amount of fluid discharged from the container 50 step by step.

And, as shown in Figure 8, when the user adjusts the flow path 312 of the housing 310 by adjusting the adjusting unit 332, in the embodiment of the present invention based on the state in which the flow path 312 is blocked In addition, it is possible to configure the user to open the flow path 312 by moving the control unit 332.

In this configuration, an elastic body such as a spring 338 is provided at the end of the adjusting unit 332, and when the user moves the adjusting unit 332 to open the flow path 312, the spring 338 is compressed. It is desirable to. Thus, when the user's hand is separated from the adjuster 338, the adjuster 330 is no longer applied to the adjuster 338 by the elasticity of the spring 338 because the external force that interferes with the elasticity of the spring 338 is no longer applied. The flow path 312 is moved in the direction of blocking.

Therefore, the user opens the flow path 312 only when discharging the fluid from the container 50, and at the end of the use of discharging the fluid from the container 50, the flow path 312 is again blocked by the elasticity of the spring 338. do. Therefore, when the container cap 300 of the present invention is used, a separate cover for blocking the container cap 300 is not required. Moreover, even when the container 50 is carried in a bag or the like, the container 50 is driven by an external force. Even if it is pressed, it will be possible to prevent the fluid from being discharged in the bag.

< Fourth embodiment >

Another example that can be implemented to adjust the amount discharged using the container cap 400 of the present invention will be described with reference to FIG.

9, the fourth embodiment of the present invention squeezes the container 50 and discharges the fluid contained in the container 50. The user adjusts the adjusting unit 432 to control the housing. When adjusting the flow path 412 of the 410, in the embodiment of the present invention based on a state in which the flow path 412 is blocked, the user is configured to move the control unit 432 to open the flow path 412 It is also possible.

In this configuration, the regulator 430 is formed obliquely so that the adjusting unit 432 is downward by gravity, and the flow path 412 is blocked. When the user pushes up the adjusting part 432 to open the flow path 412, the entire regulator 430 is slid upward and the opening 434a formed in the blocking part 434 is upward as the regulator 430 is upward. If it is located corresponding to the 412, the contents can be discharged through the opening groove (434a). After the user pushes up and adjusts the adjusting portion 432 to open the flow passage 412, if the external force applied to the adjusting portion 432 is removed, the adjusting portion 432 naturally slides down and falls on the flow passage 412. The opening groove 434a, which has been correspondingly located, is separated and the flow path 412 is placed in a closed state.

Therefore, the user opens the flow path 412 only when discharging the fluid from the container 50, and the flow path 412 automatically shuts off at the end of the use of discharging the fluid from the container 50. Therefore, when the container cap 400 of the present invention is used, a separate cover for blocking the container cap 400 is not required, and the flow path 412 can be opened and closed by a simple configuration.

< Fifth Embodiment >

Another example that can be implemented to adjust the amount discharged using the container cap 500 of the present invention will be described with reference to FIGS.

Referring to the figure shown in Figure 10, in the fifth embodiment of the present invention is shown to discharge the fluid contained in the container 50 by squeezing the container 50, the difference in the configuration of the control unit and the previous embodiment There is. That is, the container cap 500 according to the fifth embodiment is provided with a regulator 530 inside the housing 510 and is not exposed to the outside, and the opening and closing of the flow path and the flow rate can be adjusted only by tilting the container 50. Container cap 500 having characteristics.

The adjuster 530 configured inside the housing 510 has a rotating shaft 531 fixed to the inside of the housing 510 to enable rotation, an extension part 533 connected to the rotating shaft 531, and an extension part. It consists of a blocking portion 534 extending in the form of an arc in both directions from the end of the 533, the blocking portion 534 extends to a height lower than the rotation axis 531, the weight 532 at both ends Is formed, the open groove 534a is formed in a portion of the blocking portion 534 is configured.

In the fifth embodiment, on the basis of the state in which the flow path is blocked as shown in FIG. 10, when the user tilts as shown in FIG. 11 to discharge the contents, the adjuster 530 maintains its weight center due to the weight 532. The discharge part 514 and the open groove 534a are located to correspond to each other, and the contents are discharged to the discharge part 514 through the open groove 434a. When the user again positions the container 50 horizontally after use as described above, the discharge part 534 and the open groove 534a no longer correspond to each other and the discharge part 534 is blocked by the blocking part 534. Will be placed.

Therefore, the user can open and close the flow path by a simple configuration in which the discharge part 514 is opened and is not exposed in appearance only when it is used inclined to discharge the fluid from the container 50, and it is larger than the diameter of the inlet part 516. Due to the small opening groove 534a it is possible to economically adjust the flow rate.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. And the scope of the present invention should be understood as the following claims and their equivalents.

100, 200, 300, 400, 500: container cap
110, 210, 310, 410, 510: housing
112, 212, 312, 412: Euro
114, 214, 314, 414, 514: discharge part
116, 216, 316, 416, 516: inlet
120, 220: inlet pipe
130, 230, 330, 430, 530: regulator
132, 232, 332, 432: adjuster
134, 234, 334, 434, 534: blocking
20: large cap 30: cylinder
40: connector 50: container

Claims (6)

delete A housing having a flow path through which the fluid moves, and a discharge port configured to discharge the fluid moved through the flow path at one side thereof;
An inlet pipe coupled to a lower side of the housing and into which a fluid stored in a container flows into a flow path of the housing; And
An adjuster provided inside the housing to adjust a size of a flow path of the housing; Including,
The adjuster has one side protruding to the outside of the housing, the other side is formed long along the inner surface of the housing, according to the movement of one side protruding to the outside of the housing to adjust the size of the flow path of the housing by the other side Formed to be characterized in that
Container cap. The method of claim 2,
Protrusions are formed on one surface of the regulator,
A plurality of grooves are formed in a position corresponding to the protrusion on an inner surface of the housing which is in contact with one surface of which the protrusion is formed on the adjuster.
Container cap. A housing having a flow path through which the fluid moves, and a discharge port configured to discharge the fluid moved through the flow path at one side thereof;
An inlet pipe coupled to a lower side of the housing and into which a fluid stored in a container flows into a flow path of the housing; And
An adjuster provided inside the housing to adjust a size of a flow path of the housing; Including,
The regulator is coupled to rotate about a predetermined axis within the housing,
One side of the regulator is projected to the outside of the housing, the adjuster is rotated in accordance with the movement of one side protruding out of the housing, characterized in that for adjusting the flow path size of the housing
Container cap. A housing having a flow path through which the fluid moves, and a discharge port configured to discharge the fluid moved through the flow path at one side thereof;
An inlet pipe coupled to a lower side of the housing and into which a fluid stored in a container flows into a flow path of the housing; And
An adjuster provided inside the housing to adjust a size of a flow path of the housing; Including,
The regulator,
A rotating shaft fixed inside the housing;
An extension part connected to the rotation shaft and rotatable based on the rotation shaft; And
A blocking portion extending from the extension portion in a curved shape and rotatable with rotation of the extension portion; Characterized in that
Container cap. The method of claim 5,
One portion of the blocking portion is formed with an open groove through which the fluid can escape,
Characterized in that the weight portion for the center of gravity of the blocking portion is formed at the end of the blocking portion
Container cap.

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