KR20110135659A - The liquid container that discharge control is possible - Google Patents

Abstract

PURPOSE: A liquid container capable of controlling the discharging quantity is provided to rapidly and easily discharge and seclude of liquid contents by adjusting a controller. CONSTITUTION: A liquid container capable of controlling the discharging quantity comprises a cylinder shaped body(110), an opening and closing hole(113), a discharging pipe(120), and a controller(140). The body is formed in a sealed cylinder shape for storing liquid(L). The opening and closing hole is installed on the body, and is opened and closed by a cap(115). The discharging pipe is protruded from the outside of the body, and is connected to the inside of the body. The controller is installed on the body for controlling the discharge of the liquid.

Description

The liquid container that discharge control is possible}

The present invention relates to a liquid container capable of controlling discharge, and more particularly, to a liquid container capable of controlling discharge, which can be easily supplied with an appropriate amount of liquid by being configured to stop discharging liquid quickly.

Hereinafter, the prior art will be described with reference to the accompanying drawings.

1 is a cross-sectional view showing a liquid container according to the prior art, Figure 2 is described as a cross-sectional view showing an example of discharging the liquid by tilting the liquid container according to the prior art.

In general, a liquid container 1 containing a liquid L such as water or oil is configured as follows.

A body 10 is formed to accommodate the liquid L, and the opening 10 is formed on the body 10 to inject the liquid L, and the opening 20 is a stopper 30. It is configured to open and close by). In addition, an outlet 40 through which the liquid L is discharged is formed at the upper portion of the body 10. The outlet 40 may be configured to be connected to the hose 50 to facilitate injection into another container.

Looking at the use case and operation example of the prior art as follows.

The stopper 30 is opened, and the liquid L is injected into the opening and closing hole 20 so that the liquid L is accommodated in the body 10. Then, after closing the stopper 30, the liquid (L) is stored. Then, when the liquid (L) is needed, the stopper 30 is released to open and close the opening 20. And, as shown in Figure 2, the body 10 is inclined so that the liquid (L) is discharged to the outlet (40). Then, as the liquid L is discharged, an empty space is formed inside the body 10, and the liquid L is discharged while the empty space is filled with air through the opening and closing hole 20.

In general, in order to discharge the liquid from the liquid container 1, the opening and closing port 20 should be provided, and the liquid flows out by the amount of air introduced through the opening and closing port 20.

If there is no opening / closing opening 20, the liquid L may be discharged while air is introduced into the outlet 40, whereby the liquid L is not continuously discharged, but irregular and everywhere. This results in a discontinuous discharge phenomenon, with repeated discharge and stoppage.

According to the prior art, as shown in Figure 2, while the liquid is discharged by tilting the body, when the discharge of the liquid stops, the body is turned in the reverse direction in the tilted state to stand in the vertical direction. At this time, the discharge of the liquid continues even while the body is rotated in the reverse direction. Therefore, there was a problem that is difficult to discharge the quantitative. For example, if a plurality of containers are provided and the container is divided and filled with an appropriate amount, the liquid does not stop even when the body is rotated in the reverse direction as described above. There was a difficult problem.

In addition, when connecting the hose to the opening and closing to transport the liquid at a distance of more than 3m, it is not possible to rotate the body in the reverse direction in the tilted state due to the hose, even if it rotates in the reverse direction, the liquid filled in the hose is discharged as it is Therefore, there was a problem that can not be discharged by adjusting the appropriate amount.

The liquid container capable of controlling the discharge amount according to the present invention includes a sealed cylindrical body for accommodating liquid, an opening and closing port formed on the body and supplied with liquid and opened and closed by a cap, and in communication with the inside of the body to the outside of the body. And a discharge pipe for discharging liquid by protruding into the room, and a control unit mounted on the body to control discharge of the liquid. The discharge pipe has a rectangular cross section and is hinged to an inner upper surface of the discharge pipe to close the inside of the discharge pipe. The formed upper plate is configured, the control unit is configured to allow the air pipe to penetrate through the body and the air pipe can be closed and open.

In addition, in order to configure the control unit, the air pipe is formed to penetrate through the inside of the body from the top of the body, is configured to protrude to the outside, the cover is configured to open and close the air pipe while hinged to the upper end of the air pipe, A torsion spring is interposed between the cover and the air pipe so that the cover is always in an open state, disposed at the rear of the hinge connection portion of the cover and the air pipe, and a rod fixed to the body to be longer than the length of the air pipe. And a flange is formed at an upper end of the rod, and a cap configured to transfer to the cover while receiving the flange is configured.

In addition, the lower plate on the inner side of the discharge pipe is configured to rotate corresponding to the upper plate.

In addition, the inner lower end of the air pipe is formed to become narrower toward the lower side, a wire is attached to the lower surface of the cover is formed extending to the inside of the air pipe, a stopper for closing the lower end of the air pipe to the end of the wire Is attached.

The liquid container capable of controlling the discharge amount according to the present invention can be easily and quickly discharged and shut off of the liquid simply by adjusting the control unit in a state in which the discharge pipe is directed downward by rotating the present invention. In addition to being able to discharge, there is an effect that can transport the liquid over a long distance.

1 is a cross-sectional view showing a liquid container according to the prior art.
Figure 2 is a cross-sectional view showing an example of discharging the liquid by tilting the liquid container according to the prior art.
3 is a cross-sectional view showing a liquid container capable of controlling the discharge amount according to the present invention.
4 is an enlarged view of a portion A of FIG. 3;
5 is a cross-sectional view taken along the line CC ′ of FIG. 4.
Figure 6 is a cross-sectional view showing an example of discharging the liquid by tilting the liquid container capable of controlling the discharge according to the technique of the present invention.
FIG. 7 is an enlarged view of part B of FIG. 6;
8 is a cross-sectional view showing a state in which the discharge of the liquid is stopped by the closing operation of the control unit as a liquid container capable of controlling the discharge according to the technique of the present invention.
9 is a cross-sectional view showing a state in which the discharge of the liquid is stopped in the inverted state as a liquid container capable of controlling the discharge according to the technique of the present invention.

Hereinafter, a configuration and an operation example of the present invention for solving the above problems with reference to the accompanying drawings are as follows.

Figure 3 is a cross-sectional view showing a liquid container capable of controlling the discharge according to the technique of the present invention, Figure 4 is an enlarged view showing a portion A of Figure 3, Figure 5 is a cross-sectional view taken along the line CC 'of FIG. 6 is a cross-sectional view showing an example of discharging liquid by tilting a liquid container capable of controlling the discharge according to the technique of the present invention, FIG. 7 is an enlarged view of part B of FIG. 6, and FIG. 8 is a discharge control using the technique of the present invention. As a liquid container capable of discharging, a cross-sectional view showing a state in which the discharge of the liquid is stopped by the closing operation of the control unit, and FIG. 9 is a liquid container capable of controlling the discharge according to the technique of the present invention. It demonstrates together as sectional drawing.

The present invention is characterized in that it is configured to be discharged by adjusting the appropriate amount easily because the discharge can be stopped quickly when discharged in the state containing the liquid (L).

To this end, the present invention is configured as follows.

A sealed tubular body 110 containing liquid L, and a liquid L formed in the body 110 and supplied with an opening and closing hole 113 closed and opened by the cap 115 are configured. In addition, the body 110 is configured to communicate with the inside of the body 110 and the discharge pipe 120 through which the liquid (L) is discharged by protruding outward. Then, the control unit 140 is mounted to the body 110 to adjust the discharge of the liquid (L).

The control unit 140 is configured to close and open the air pipe 141 and the air pipe 141 penetrating the body 110, and whether the liquid (L) is discharged by opening or closing the air pipe 141. Is configured to be adjusted.

Looking at a more detailed embodiment of the configuration as follows.

The discharge pipe 120 is formed in a rectangular cross section, and the check valve 130 is mounted inside the discharge pipe 120 is configured. The check valve 130 is hingedly connected to the inner upper surface 123 of the discharge pipe 120 is configured to rotate the upper plate 135 formed to close the inside of the discharge pipe 120. The lower plate 137 may be further hinged to correspond to the lower portion of the discharge pipe 120 and formed to close the discharge pipe 120. Both the upper plate 135 and the lower plate 137 are formed to extend in the discharge direction of the liquid, and are formed in a quadrangular shape so as to close the inside of the discharge pipe 120. In addition, when the length of the upper plate 135 is rotated downward by gravity downward, as shown in Figure 3, whether the end portion 136 touches the inner bottom 125 of the discharge pipe 120, the lower plate 137 And the lower plate 137 also, when the body 110 is turned upside down, the end portion 138 touches the inner upper surface 123 of the discharge pipe 120, or the upper plate 135 It is formed to touch.

In addition, in order for the upper plate 135 and the lower plate 137 to be hinged, the hinge is attached to the inner upper surface 123 and the inner lower surface 125 of the discharge pipe 120, and then the upper plate 135 to the hinge. And the lower plate 137 can be attached. However, the upper plate 135 and the lower plate 137 is not limited to the configuration by the hinge only if it is configured only to rotate all will correspond to the rights of the present invention.

In addition, the outlet 127 of the discharge pipe 120 is formed to be narrow so that the inflow of air is limited as much as possible.

The air pipe 141 of the controller 140 is formed to penetrate into the body 110 from the upper portion of the body 110, and is configured to protrude outward. The cover 142 opens and closes the air pipe 141 while being hinged to the upper end of the air pipe 141. A torsion spring 144 is interposed between the cover 142 and the air pipe 141 so that the cover 142 is always open.

Looking at an example in which the air pipe 141 and the cover 142 is hinged, as shown in Figure 4, it is possible by the hinge (H) is interposed between the air pipe 141 and the cover 142. This, of course, is not limited only to the rotation by the hinge (H).

Looking at an example in which the torsion spring 144 is interposed, a fin 143 penetrating the air pipe 141 is configured, and after the torsion spring 144 is fitted to the pin 143, one end of the torsion spring 144 is air pipe 141. ) And the opposite end is supported by supporting the lower surface of the cover 142.

In addition, the cover 142 is configured to maintain the state of closing the top of the air pipe 141 and to be opened, the rod 145 is fixed to the body 110 to be parallel to the side of the air pipe 141 is configured The cover 142 is formed at the rear of the hinge connection portion of the air pipe 141, and the rod 145 is formed to be longer than the length of the air pipe 141. That is, as shown in FIG. 4, when the cover 142 is standing outwardly by the torsion spring 144, a rod 145 is formed at the rear of the cover 142. A flange 146 is formed at an upper end of the rod 145, and includes a cap 147 that receives the flange 146 and moves toward the cover 142. Therefore, when the cap 147 is pushed, the cover 142 rotates downward to close the upper end of the air pipe 141. When the cap 147 is pulled to the rear, the cover 142 rotates and the air pipe 141 is opened by the expansion of the torsion spring 144. As the rod 145 is longer than the length of the tube 141, the cover 142 can be pushed out when the cap 147 is pushed.

In addition, the cap 147 is a block (B) as shown in Figure 5, the lower portion of the block (B) is inserted into the rod (145) slot (S) formed long in the transport direction of the block (B) Is formed and the insertion groove (K) is formed in the upper end of the slot (S) in which the flange 146 is fitted. Of course, the insertion groove (K) is also formed long in the transport direction of the block (B). Therefore, the cap 147 is prevented from being separated by the flange 146 is caught in the insertion groove (K), it is possible to linear movement.

In addition, the inner lower end portion M of the air pipe 141 is formed to become narrower toward the lower side, the wire 148 is attached to the lower surface of the cover 142 is formed extending to the inside of the air pipe 141 A stopper 149 for closing the lower end portion M of the air pipe 141 is attached to a side end portion of the wire 148 that is not attached to the cover 142. Accordingly, when the cover 142 is opened, the wire 148 is upward while the stopper 149 opens the lower end portion M of the air pipe 141. On the contrary, when the cover 142 is closed, the wire 148 is lowered. While the stopper 149 is to block the lower end (M) of the air pipe (141). At this time, the lower end portion (M) is formed to be narrower toward the lower portion, so that the stopper 149 easily blocks the lower end portion, of course.

Hereinafter, the operation of the present invention will be described.

First, the cap 147 is pushed so that the cover 142 blocks the air pipe 141. Then, the liquid L is poured into the opening and closing 113 so that the liquid is accommodated in the body 110, and then the opening and closing 113 is closed.

In this way, the liquid L is stored, and when it is necessary to supply to the outside, the cap 147 is pulled backward. Then, the cover 142 is rotated outward by the expansion force of the torsion spring 144 and the air pipe 141 is opened while the stopper 149 attached to the wire 148 is lifted. Then, outside air is introduced into the body 110 through the air pipe 141.

In this state, as shown in FIG. 6, when the body 110 is rotated to face the discharge pipe 120 downward, the liquid L is discharged while the upper plate 135 is opened. At this time, when the discharge is to be stopped, the inflow of air is stopped if the air pipe 141 is blocked by pushing the cap 147 without rotating the body 110. In addition, the phenomenon in which air flows in the reverse direction is also prevented through the discharge pipe 120. As can be seen from FIG. 6, the upper plate 135 is rotated only by the height H of the liquid L discharged. Therefore, a phenomenon in which air is introduced between the liquid L and the discharge pipe 120 is prevented. That is, since the upper plate 135 is interposed between the liquid (L) and the discharge pipe 120, the inflow of air is prevented. Therefore, the discharge of the liquid L is stopped in an instant.

The reason for this phenomenon is that the liquid L is discharged as much as the volume of the air introduced by the air flowing into the body 110, the outflow of the air is stopped by the liquid (L) is stopped. This example is equivalent to keeping water inside the straw when the straw is put in the water and then blocked by one side. In this state, when the state of blocking the straw is released, water naturally flows downward. If the upper plate 135 is not present, a problem may occur in which air is introduced from the outlet 127 of the discharge pipe 120 to discharge the liquid L inside the discharge pipe 120.

In addition, when the air pipe 141 is blocked, since the air pressure inside the body 110 is smaller than the outside air pressure, atmospheric pressure acts in a reverse direction at the inlet of the discharge pipe 120, so that the upper plate 135 is the body 110. ) Is rotated in the closing direction. Therefore, this action helps to block the discharge of the liquid L more quickly.

In addition, since the outlet 127 is narrowed, the phenomenon that air flows into the outlet 127 can be blocked as much as possible.

In addition, since the stopper 149 closes the lower end portion M of the air pipe 141 at a short distance, the air pipe 141 may be prevented from entering the air inside the body 110. The liquid L may be discharged as much as the air therein. In addition, since the air pipe 141 is closed by the cover 142 and the stopper 149, there is an advantage that can block the inflow of air in a double.

In addition, when discharging the liquid L by turning the body 110 upside down, the lower plate 137 has the same function as the upper plate 135.

According to this invention by the said structure, since there exists an advantage that the discharge | release of the liquid L can be interrupted in an instant, it can discharge the liquid L of a suitable quantity. In addition, by adjusting the control unit 140 in a state in which the discharge pipe 120 is directed downward by rotating the body 110, the liquid L can be easily discharged and blocked quickly and easily. That is, it is not necessary to repeatedly turn the heavy body 110 in the forward and reverse directions for the discharge and blocking of the liquid (L).

In addition, according to the present invention, there is an advantage that the liquid can be transported over a long distance. For example, after connecting the hose 3m or more to the outlet 127 of the discharge pipe 120, the body 110 is rotated to direct the discharge pipe 120, the liquid (L) is guided to the hose It is discharged to a long distance. At this time, when the appropriate amount, only the control unit 140 is adjusted as described above it is possible to quickly shut off the discharge.

100: liquid container capable of controlling emission 110: body
113: opening and closing 115: cap
120: discharge pipe 127: outlet
130: check valve 135: top plate
137: lower plate 140: control unit
141: air pipe 142: cover
143: pin 144: torsion spring
145: rod 146: flange
147: cap 148: wire
149: plug

Claims (4)

A hermetically sealed cylindrical body 110 containing liquid L,
Opening and closing port 113 is formed in the body 110 is supplied with the liquid (L) is closed and opened by the cap 115,
A discharge pipe 120 communicating with the inside of the body 110 and protruding outward to the body 110 to discharge the liquid L;
Is mounted to the body 110 is composed of a control unit 140 for adjusting the discharge of the liquid (L),
The discharge pipe 120 is formed in a rectangular cross section, the upper plate 135 is formed to be hinged to the inner upper surface 123 of the discharge pipe 120 to close the discharge pipe 120 inside,
The control unit 140 is a liquid container capable of controlling the discharge, characterized in that the air pipe 141 is configured to penetrate through the body 110, the air pipe 141 is configured to be closed and open. The method of claim 1,
In order to configure the control unit 140,
The air pipe 141 is configured to protrude outward from the top of the body 110,
The cover 142 is hinged to the upper end of the air pipe 141 is rotated to open and close the air pipe 141,
A torsion spring 144 is interposed between the cover 142 and the air pipe 141 so that the cover 142 is always open.
The rod 145 is disposed at the rear of the hinge connection portion of the cover 142 and the air pipe 141 and fixed to the body 110 to be longer than the length of the air pipe 141.
Flange 146 is formed on the top of the rod 145,
Caps (147) is characterized in that the cap 147 is transferred to the cover 142 while receiving the flange 146 is configured to control the discharge. The method according to claim 1 or 2,
The lower container 137 is rotated in correspondence with the upper plate 135 on the inner side (125) of the discharge pipe 120, characterized in that the liquid container capable of discharge control. The method of claim 2,
The inner lower end portion M of the air pipe 141 is formed to become narrower downwards,
A wire 148 is attached to a lower surface of the cover 142 to extend inwardly of the air pipe 141.
Discharge control liquid container, characterized in that the stopper (149) for closing the lower end (M) of the air pipe 141 is attached to the end of the wire (148).

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