CN215902011U - Pump container - Google Patents

Abstract

The present invention provides a pump container, which may include: a pumping member which is coupled to a container body containing a liquid and ejects the liquid to the outside; a pumping head which starts the pumping member by pressurization and is provided with a discharge port; a cap in which a slit parallel to the moving direction of the pumping head is formed; and a safety member which moves in conjunction with the pumping head and can fix a position of the pumping head, wherein the safety member includes: a first projection that is guided within the gap when the pumping head moves; and a second protrusion parallel to the first protrusion, protruding into the gap by the movement of the pumping head, thereby preventing the pumping head from returning to an original position, and allowing the pumping head to return to the original position when separated from the gap by external pressurization.

Description

Pump container

Technical Field

The present invention relates to a pump container.

Background

Generally, bathroom supplies such as shampoo and hair conditioner, cosmetics such as skin softening water and skin care cream, disinfectants such as hand washing liquid, and the like are stored in a container in a liquid state and then discharged in an appropriate amount according to the operation of a user. The container may be formed with an opening openable and closable by the lid, and the user may invert the container after separating the lid and discharge the contents through the opening.

Also, a pump type container using a pumping means may be used in order to improve user convenience. The pumping means of the pump type container is adhered to the opening of the container, and a certain amount of the contents can be automatically discharged once the pumping means is actuated by a user.

Among them, the pumping means may employ a vacuum type (airless) in which the volume of a portion in which the content is stored is changed as the content in the container is reduced to not allow inflow of external air, a deep tube type in which the internal pressure of the container is maintained in response to inflow of exhaust air of the content into the container, or the like.

On the other hand, since the pumping member can eject the contents by simple pressurization, the contents are easily available to infants and the like, and there is a risk that the disinfectant and the like may be injured by the infants and children due to the contents.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The present invention has been made to solve the above-mentioned problems occurring in the prior art, and an object of the present invention is to provide a pump type container capable of preventing a safety accident from occurring to a user, particularly, an infant or a child.

Means for solving the technical problem

The pump container according to an aspect of the present invention may include: a pumping member which is coupled to a container body containing a liquid and ejects the liquid to the outside; a pumping head that activates the pumping means by pressurization and that is provided with a discharge port; a cap in which a slit parallel to the moving direction of the pumping head is formed; and a safety member which moves in conjunction with the pumping head and can fix a position of the pumping head, wherein the safety member includes: a first projection that is guided within the gap when the pumping head moves; and a second protrusion parallel to the first protrusion, protruding into the slit by the movement of the pumping head, thereby preventing the pumping head from returning to an original position, and allowing the pumping head to return to the original position when separated from the slit by external pressurization.

Specifically, the cap may include: a cap body coupled to an outer peripheral surface of the inlet of the container body; and a cap extension portion extending upward from the cap body and including a slit forming portion forming the slit.

Specifically, the slit may be parallel to a height direction of the container body.

Specifically, a distance between a lower end of the first protrusion and an upper end of the second protrusion may be the same as a length of the slit in a height direction of the container body.

Specifically, when the pumping head is returned in the opposite direction, the second protrusion may be received in the cap extension.

Specifically, the gap forming portion may have a shape in which a portion of the outer circumferential surface of the cap extension portion is recessed smoothly.

Specifically, the pumping head may include a connection pipe connecting the ejection port and the pumping member, and the safety member may further include a connection pipe connection part having one side connected to the first protrusion and the second protrusion and the other side connected to the connection pipe.

Specifically, the first protrusion may be connected to a lower portion of the second protrusion at the connection pipe connection portion.

Specifically, the protruding length of the first protruding portion may be longer than the protruding length of the second protruding portion.

Specifically, the connection pipe connection portion may be made of an elastic material.

Effect of the utility model

According to the pump type container of the present invention, the safety member is provided, so that the liquid in the container body can be prevented from being accidentally discharged to the outside. Therefore, according to the pump container of the present invention, it is possible to prevent a safety accident from occurring due to an infant or a child.

Drawings

Fig. 1 is a perspective view for explaining a pump type container according to an embodiment of the present invention.

Fig. 2 is a sectional view for explaining the pump container of fig. 1.

Fig. 3 is a partial sectional view for explaining the upper end of the pump type container shown in fig. 2.

Fig. 4 is a sectional view of the pump container for explaining a state where the pumping head moves downward.

Fig. 5 is a partial sectional view for explaining the upper end of the pump container shown in fig. 4.

Fig. 6 is a perspective view for explaining a pumping head and a safety member.

Description of the symbols

100: container body

200: pumping member

300: pipe

400: cap (hat)

410: cap body

420: cap extension

430: gap forming part

440: gap

500: pumping head

510: discharge port

520: connecting pipe

600: safety element

610: connecting pipe connecting part

620: first protruding part

630: second protrusion

Detailed Description

The many objects, specific advantages and novel features of the utility model are apparent from the following detailed description of the preferred embodiment when considered in conjunction with the drawings. In the present specification, when reference numerals are given to constituent elements of respective drawings, the same reference numerals are given to the same constituent elements as much as possible even when they are shown in different drawings. In describing the present invention, it is determined that the gist of the present invention may be confused by detailed descriptions of related known technologies, and detailed descriptions thereof are omitted.

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

Fig. 1 is a perspective view illustrating a pump type container according to an embodiment of the present invention, fig. 2 is a sectional view illustrating the pump type container of fig. 1, fig. 3 is a partial sectional view illustrating an upper end of the pump type container shown in fig. 2, fig. 4 is a sectional view illustrating a state in which a pumping head moves downward, fig. 5 is a partial sectional view illustrating an upper end of the pump type container shown in fig. 4, and fig. 6 is a perspective view illustrating the pumping head and a safety member.

Referring to fig. 1 to 6, the pump container is a member that can discharge the liquid L inside by a pumping action, and can repeatedly discharge the same amount of liquid L.

The pump container may include a container body 100 provided with a space for containing the liquid L, a pumping member 200 coupled to an inlet of the container body 100, a tube 300 connected to the pumping member 200 and positioned inside the container body 100, a cap 400 covering an opening at an upper end of the container body 100, a pumping head 500 connected to the pumping member 200 and having an ejection port 510 for ejecting the liquid L sucked into the tube 300, and a safety member 600 capable of fixing a position of the pumping head 500.

The inner space of the container body 100 may contain liquids such as shampoo, skin cream, hair conditioner, and hand cleanser. The container body 100 may have a substantially flat shape at one side end portion, for example, at least a portion of a bottom surface contacting the ground so as to be able to stand vertically on the ground. The container body 100 may be made of various materials. For example, the container body 100 may be made of a synthetic resin material such as plastic. The container body 100 may be made of a ceramic material or a metal material, as necessary.

The container body 100 may have a shape in which the upper portion has a smaller diameter or width than the lower portion in consideration of the center of weight so as not to easily topple in a vertically erected state. The upper portion may have a smaller diameter or width than the lower portion throughout the length (or height) of the container body 100, but is not limited thereto. For example, the container body 100 may have a shape in which the diameter or width of the upper portion is smaller than the diameter or width of the lower portion in only a part of the length section (or height section).

The container body 100 may have a shape with a part of the upper portion opened, and a screw groove may be formed on an outer circumferential surface of the upper portion.

The pumping member 200 can eject the liquid L such as shampoo, skin cream, conditioner, and hand lotion in the container body 100 to the outside through the ejection port 510 of the pumping head 500. The pumping member 200 may include a thread formed at least a portion of an outer circumferential surface.

The pumping means 200 may include a cylinder (not shown) extending from an upper end of the container body 100 to an inside thereof and a piston unit (not shown) slidably inserted into the cylinder. The cylinder and the piston unit are members used for a general pump container and the like, and detailed description thereof is omitted.

The tube 300 is connected to a lower portion of the pumping member 200, and may have a shape extending toward a lower portion of the container body 100. The tube 300 may be disposed in substantial communication with the cylinder of the pumping member 200. The tube 300 may suck the liquid L inside the container body 100 by the actuation of the pumping member 200 and supply the sucked liquid L to the pumping head 500.

The cap 400 is coupled to the inlet of the container body 100 so as to cover the opening of the upper end of the container body 100. That is, even if the container body 100 is toppled over, the cap 400 can prevent the liquid L inside the container body 100 from flowing to the outside. The cap 400 may include a cap body 410 coupled to an outer circumferential surface of the inlet of the container body 100 to cover an opening of an upper end of the container body 100, and a cap extension part 420 extending upward from the upper end of the cap body 410.

The cap body 410 may have a cylindrical shape with a lower portion opened. In the present embodiment, the cap body 410 has a cylindrical shape, but the present invention is not limited to this. The shape of the cap body 410 may be changed according to the shape of the container body 100.

The cap body 410 may be provided with a thread formed on an inner circumferential surface. Accordingly, the cap body 410 may be screwed to the inlet of the container body 100. The cap body 410 may have a cylindrical hollow portion having a center formed toward the inside of the container body 100, and a thread groove may be formed on an inner circumferential surface of the hollow portion. The pumping member 200 may be screwed into the hollow portion.

The cap extension 420 may have a cylindrical shape extending from the cap body 410 toward the upper portion, and the upper portion of the cap body 410 may have a closed shape. Also, if the upper portion of the cap extension 420 has a closed shape, the upper surface of the cap extension 420 may be formed with a hollow into which the connection pipe 520 can be inserted.

A portion of the cap extension 420 may be provided with a slit formation 430. The slit forming part 430 may be formed with a slit 440 parallel to the moving direction of the pumping head 500. For example, the slit 440 may be parallel to the height direction of the container body 100.

The slit forming part 430 may have a shape in which a portion of the outer circumferential surface of the cap extension part 420 is smoothly recessed. That is, the distance between the center of the cap extension part 420 and the surface of the slit formation part 430 may be shorter than the distance between the center of the cap extension part 420 and the outer circumferential surface of the cap extension part 420. Accordingly, in order to smoothly move the safety member 600, the upper and lower portions of the slit forming part 430 connected to the cap extension part 420 may have an inclined shape.

The pumping head 500 may include an ejection port 510 capable of ejecting the liquid L and a connection pipe 520 connected to an upper portion of the pumping member 200. The connection pipe 520 may be provided to substantially communicate with the ejection port 510 and the cylinder of the pumping member 200. Accordingly, the ejection port 510 of the pumping head 500 may be connected to the cylinder of the pumping member 200 through the connection pipe 520.

The safety member 600 is provided on the outer circumferential surface of the connection pipe 520 so that the position of the pumping member 200 can be fixed.

The safety member 600 may include a connection pipe connection part 610 connected to an outer circumferential surface of the connection pipe 520, a first protrusion 620 having one end connected to the connection pipe connection part 610 and protruding to the outside through the slit 440, and a second protrusion 630 having one end connected to the connection pipe connection part 610 and protruding in parallel with the first protrusion 620.

The connection pipe connection part 610 is made of an elastic material and may be connected to one end of the first protrusion 620 and one end of the second protrusion 630. That is, one side of the connection pipe connection part 610 may be connected to the first protrusion 620 and the second protrusion 630, and the other side of the connection pipe connection part 610 may be connected to the connection pipe 520.

The first protrusion 620 may be guided in the slit 440 to reciprocate. The first protrusion 620 may have a protrusion length to the extent of always protruding outside the slit 440. And, the protruding length of the first protrusion 620 may be longer than that of the second protrusion 630.

One end of the second protrusion 630 may be connected to the connection pipe connection part 610 at the upper end of the first protrusion 620. In the case where the safety member 600 moves downward together with the connection pipe 520, the second protrusion 630 may protrude to the outside of the slit 440. When the safety member 600 moves upward together with the connection pipe 520, the second protrusion 630 may be received in the cap extension part 420.

Also, a distance between a lower end of the first protrusion 620 and an upper end of the second protrusion 630 may be the same as a length of the slit 440 in a height direction of the container body 100.

The operation of the pump container according to an embodiment of the present invention will be described with reference to fig. 2 to 5.

First, as shown in fig. 2 and 3, in a state where no pressure is applied to the pumping head 500, the first protrusion 620 may be located at an upper end of the slit 440, and the second protrusion 630 may be located inside the cap extension 420 at an upper portion of the slit 440.

If downward pressure is applied to the pumping head 500, the pumping head 500 moves downward, the tube 300 sucks in the liquid L through the pumping member 200, and the sucked liquid L can be ejected through the ejection port 510 of the pumping head 500. As the pumping head 500 moves downward, the first protrusion 620 of the safety member 600 may also move downward along the slit 440.

The first protrusion 620 moves downward along the slit 440, and the first protrusion 620 abuts against the lower portion of the slit 440, so that the pumping head 500, the connection pipe 520, and the safety member 600 may stop moving downward.

On the other hand, if the first protrusion 620 moves downward, the second protrusion 630 may also move downward. While the second protrusion 630 is moving downward, the other end of the second protrusion 630 may move in contact with the inner surface of the cap extension 420 due to the elasticity of the connection pipe connection part 610.

While the second protrusion 630 is moved downward in a state where the other end of the second protrusion 630 is in contact with the inner surface of the cap extension 420, the connection pipe connection part 610 may be elastically deformed in the direction of the connection pipe 520.

If the first protrusion 620 moves downward and the first protrusion 620 abuts against the lower portion of the slit 440, the second protrusion 630 may protrude into the slit 440 and be positioned at the upper end of the slit 440. The second protrusion 630 protrudes to be located at the upper end of the slit 440, and the elastically deformed connection pipe connection part 610 is restored to its original shape, and the other end of the second protrusion 630 may protrude in an outward direction at the upper end of the slit 440.

If the second protrusion 630 protrudes outward at the upper end of the slit 440, the second protrusion 630 is fixed to the upper end of the slit 440, and the pumping head 500, the connection pipe 520, and the safety member 600 cannot move upward due to the reducing force of the pumping member 200. That is, if the second protrusion 630 protrudes outward at the upper end of the slit 440, the pumping head 500, the connection pipe 520, and the safety member 600 can be prevented from being moved upward, i.e., restored to the original positions, by the pumping member 200.

Further, since the distance between the lower end of the first protrusion 620 and the upper end of the second protrusion 630 is the same as the length of the gap 440 in the height direction of the container body 100, the pumping head 500, the connection pipe 520, and the safety member 600 cannot move downward even if pressure is applied to the pumping head 500. Therefore, the pump container can be in a state in which the liquid L in the container body 100 can no longer be discharged to the outside. That is, the pumping head 500 of the pump container is fixed, so that the risk of safety accidents can be reduced.

In a state where the second protrusion 630 is fixed to the upper end of the slit 440, when a user wants to use the pump container, the user may apply pressure to the first protrusion 620 or the second protrusion 630 in the direction of the connection pipe 520. If external pressure is applied to the first protrusion 620 or the second protrusion 630 in the direction of the connection pipe 520, the second protrusion 630 may move toward the inside of the cap extension 420. If the second protrusion 630 is moved toward the inside of the cap extension 420, the pumping head 500, the connection pipe 520, and the safety member 600 may be lifted due to the restoring force of the pumping member 200. That is, if external pressure is applied to the first protrusion 620 or the second protrusion 630, the second protrusion 630 moves toward the inside of the cap extension 420, and the pumping head 500, the connection pipe 520, and the safety member 600 move upward, i.e., are allowed to return to the original position.

After the pumping head 500, the connection pipe 520, and the safety part 600 are raised by the restoring force of the pumping part 200, the user may use the pump container by pressing the pumping head 500.

As described above, according to the pump container of the embodiment of the present invention, a certain amount of the liquid L can be repeatedly discharged by the pumping member 200.

Also, according to the pump container of the embodiment of the present invention, the pumping head 500 may be fixed in a state of being pressed by the safety member 600. Therefore, a safety accident in which the pumping head 500 is accidentally pressed can be prevented.

The present invention is not limited to the embodiments described above, and may include, as a new embodiment, an embodiment in which at least two or more of the above-described embodiments are combined or an embodiment in which at least any one of the above-described embodiments and common general knowledge are combined.

The present invention has been described in detail with reference to specific examples, but these examples are only for the purpose of specifically describing the present invention, and the present invention is not limited to these examples, and it is to be understood that variations or modifications may be made by those skilled in the art without departing from the scope of the technical idea of the present invention.

The scope of the present invention is intended to include all such modifications and alterations, and the scope of the present invention should be determined by the appended claims.

Claims (10)

1. A pump container, comprising:

a pumping member which is coupled to a container body containing a liquid and ejects the liquid to the outside;

a pumping head that activates the pumping means by pressurization and that is provided with a discharge port;

a cap in which a slit parallel to the moving direction of the pumping head is formed; and

a safety member moving in conjunction with the pumping head and capable of fixing the position of the pumping head,

wherein, above-mentioned safety member includes:

a first projection that is guided within the gap when the pumping head moves; and

and a second protrusion parallel to the first protrusion, protruding into the gap by one-directional movement of the pumping head, preventing reverse-directional return of the pumping head, and allowing reverse-directional return of the pumping head when the pumping head is separated from the gap by external pressure.

2. Pump container according to claim 1,

the above-mentioned cap includes:

a cap body coupled to an outer peripheral surface of the inlet of the container body; and

and a cap extension portion extending upward from the cap body and including a slit forming portion forming the slit.

3. Pump container according to claim 2,

the slit is parallel to the height direction of the container body.

4. Pump container according to claim 3,

the distance between the lower end of the first projection and the upper end of the second projection is the same as the length of the slit in the height direction of the container body.

5. Pump container according to claim 2,

when the pumping head returns in the opposite direction, the second protrusion is received in the cap extension.

6. Pump container according to claim 2,

the gap forming portion has a shape in which a part of the outer peripheral surface of the cap extension portion is recessed smoothly.

7. Pump container according to claim 2,

the pumping head includes a connection pipe connecting the discharge port and the pumping member,

the safety member further includes a connection pipe connection part having one side connected to the first protrusion and the second protrusion and the other side connected to the connection pipe.

8. Pump container according to claim 7,

in the connection pipe connection portion, the first protrusion is connected to a lower portion of the second protrusion.

9. Pump container according to claim 7,

the first protruding portion has a protruding length longer than that of the second protruding portion.

10. Pump container according to claim 7,

the connecting part of the connecting pipe is made of elastic material.

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