CN111902219B - Suction container and container lid - Google Patents

Abstract

The present invention provides a suction container and a container lid having the following features, the suction container according to the present invention includes: a container body for containing contents and having a pump at an upper end; and a container cover for covering the pump in a manner that a space part is formed between the container cover and the pump, wherein the container cover enables the pump to work through descending so as to contain the content in the space part, and a perforation part is arranged at the upper part side so as to discharge the content contained in the space part when the container cover is turned upside down.

Description

Suction container and container lid

Technical Field

The present invention relates to a pumping container and a container cover, and more particularly, to a pumping container and a container cover which can be used as a washing ball.

Background

Generally, washing in a washing machine is performed by a principle that laundry is put into a washing tub together with water and detergent to forcibly generate a water flow, and foreign substances and the like are separated from the laundry by a washing action of the water and the detergent.

In this case, since a measuring cup or the like is used to put detergent into the washing machine, a certain amount of detergent needs to be directly put in, which is a drawback of being relatively complicated. Further, since the detergent container is lifted up to separate the detergent, there is a disadvantage that the detergent container is heavy when the remaining amount of the detergent is large. In addition, in the case where the detergent container is formed in a pump type, it is difficult to accurately align and use a measuring cup or a detergent drum of a washing machine. Further, it is difficult to perfectly remove foreign substances and the like from the laundry only with water and a detergent.

Therefore, in order to prevent the laundry from being lumped and to increase the washing effect, the laundry balls are put into the washing machine together with the detergent and washed. In this case, the user is required to perform many actions in order to load the detergent into the washing ball. Namely, there is inconvenience as follows: the washing ball is opened, the detergent is discharged, then the washing ball is arranged on the washing ball, and then the washing ball is closed.

Disclosure of Invention

(problems to be solved by the invention)

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 suction container and a container cover, in which contents are injected into the container cover by suction in a state where the container cover is placed on a container body, so that the container cover can be used as a washing ball as well.

Further, an object of the present invention is to provide a suction container and a container lid, in which the upper end of the container lid can be sucked by a palm, not a finger, at the time of suction for discharging contents, and thus suction can be performed more easily.

Another object of the present invention is to provide a suction container and a container lid, in which a scale for measuring the content is marked on the container lid, and the amount of the content sprayed to the container lid can be visually confirmed.

Another object of the present invention is to provide a suction container and a container lid, in which contents are sucked in a state where the container lid is coupled to a container body, thereby allowing the contents to be conveniently used even with one hand.

(measures taken to solve the problems)

A suction container according to an embodiment of the present invention is characterized by comprising: a container body for containing contents, the container body being provided with a pump at an upper end thereof; and a container cover for covering the pump so as to form a space portion between the container cover and the pump, wherein the container cover is lowered to operate the pump so as to accommodate the content in the space portion, and a perforated portion is provided on an upper side of the container cover, and the perforated portion is used for discharging the content accommodated in the space portion when the container cover is inverted.

Specifically, the pump may include: an opening/closing member detachably coupled to an upper end of the container body, the opening/closing member having a through hole formed in one region; and a lifting member inserted into the through hole of the opening/closing member and capable of moving up and down.

Specifically, the elevation member may further include a catching portion protruding along an outer circumference of the outer one region, and the catching portion may be in contact with a lower surface of the container cover.

Specifically, the container cover may further include an insertion portion protruding from the lower portion surface to an inside of the space portion, and penetrating inside so as to surround an outer surface of the elevation member.

Specifically, the insertion portion may further include a sealing member made of an elastic material on the inlet side.

Specifically, a tip member may be coupled to an upper end of the lifting member, the tip member having a flow path connected to the inside of the lifting member, and a discharge port at a distal end of the flow path.

Specifically, the flow path is formed to discharge the content from a direction parallel to a longitudinal direction of the lifting member to a direction perpendicular to the longitudinal direction of the lifting member.

Specifically, the flow path is provided as: the upper surface of the region in which the content is discharged in a direction perpendicular to the longitudinal direction of the lifting member is inclined downward from the center of the tip member to the outside.

Specifically, the length from the catching portion to the lower end of the discharge port is formed to be the same as or longer than the length of the insertion portion.

Specifically, the interior of the lifting member has a flow path having a discharge port at a distal end thereof, and the flow path is formed so as to discharge the content from a direction parallel to the longitudinal direction of the lifting member to a direction perpendicular to the longitudinal direction of the lifting member.

Specifically, the discharge port protrudes from the outside of the elevating member.

Specifically, the insertion portion further includes a discharge port moving portion that protrudes toward the space portion along the longitudinal direction, and a discharge hole that is provided at a position rotated in one direction from the discharge port moving portion.

Specifically, the discharge hole is formed as follows: that is, in a state where the container cover is coupled to the pump, the container cover is formed to penetrate a certain length from one side of the discharge port moving portion corresponding to the height of the discharge port toward a direction perpendicular to the longitudinal direction of the insertion portion.

Specifically, by rotating the container cover to position the discharge port at the discharge hole or the discharge port moving portion, the content can be selectively ejected to the space portion or the container cover can be detached from or attached to the pump.

Specifically, the container cover may further have at least one protrusion on the outside.

Specifically, the opening/closing member may further include a step portion on an upper surface thereof, the step portion accommodating the engaging portion when the container lid is pressed downward.

Specifically, the pump further includes a pump cylinder located inside the container body for movement of the lower portion of the elevation member, and a pipe connected to a lower end of the pump cylinder.

Specifically, the pump cylinder may further include an elastic member at an inner lower portion, and the elevation member is automatically elevated by an elastic force of the elastic member.

Specifically, the container body may have a first coupling portion on an outer peripheral surface of an upper end thereof, and the opening/closing member may have a first coupling portion coupled to the first coupling portion at a lower portion thereof.

Specifically, the opening/closing member may have a second coupling portion on an upper end outer peripheral surface thereof, and the container cover may have a second coupling portion on a lower end inner peripheral surface thereof, the second coupling portion being coupled to the second coupling portion.

A container lid according to another embodiment of the present invention is a container lid that is coupled to a container body that contains contents and has a pump provided at an upper end thereof, the container lid including: a main body for covering the pump so as to form a space between the main body and the pump; and a perforated portion provided at an upper side of the main body, the main body accommodating the contents in the space portion by operating the pump by descending, the perforated portion discharging the contents accommodated in the space portion when the main body is turned upside down.

Specifically, the perforated portion may discharge the contents when the main body is inverted after being separated from the container body.

Specifically, the main body may further include an insertion portion, the insertion portion penetrating inside the main body and protruding from a lower portion to an inside of the space portion so as to surround an outer surface of the pump.

Specifically, the body may have a scale portion on the outside for metering the content.

(Effect of the invention)

The suction container and the container cover of the invention can spray the content into the container cover by suction in the state that the container cover is placed on the container body, so that the container cover is separated from the container body after suction and is directly placed into a washing machine without lifting the container body to topple, and the container cover can be used as a washing ball.

In addition, the suction container and the container lid of the present invention can suck the upper end of the container lid with one hand in order to discharge the contents, so that the suction operation can be performed more easily without lifting up a heavy container body.

In addition, the suction container and the container cover of the present invention can confirm the amount of the contents injected into the container cover through the scale marked on the container cover, thereby injecting the contents in a proper amount and preventing unnecessary waste of the detergent.

In addition, the pumping container and the container cover of the present invention are used as a washing ball after the contents are metered in the container cover, so that the residue is not left in the container cover, and the residue can be prevented from flowing from the container cover to the detergent container when the container cover is mounted on the upper portion of the container body.

In addition, the suction container and the container lid of the present invention can suck contents in a state where the container lid is coupled to the container body, and thus can be used with one hand, thereby increasing convenience in use.

Drawings

Fig. 1 is an integrated perspective view of a pumping container according to an embodiment of the present invention.

Fig. 2 is an exploded perspective view of a suction container according to an embodiment of the present invention.

Figure 3 is a bottom perspective view of a container lid according to one embodiment of the present invention.

Fig. 4 is a bottom perspective view of the opening and closing member according to one embodiment of the present invention.

Fig. 5 is a perspective view showing a state in which the tip member is separated from the elevation member according to one embodiment of the present invention.

Fig. 6 is a perspective view showing a state in which a tip member is coupled to an upper end of a lifting member according to an embodiment of the present invention.

Fig. 7 is a diagram showing a path along which contents move according to an embodiment of the present invention.

Fig. 8a and 8b are perspective views showing a state before the container cover according to the embodiment of the present invention is coupled to the elevating member.

Fig. 9a to 9e are views illustrating a process in which the contents are discharged from the container body to the inside of the container cover to be used as the washing ball according to one embodiment of the present invention.

Fig. 10a to 10c are diagrams illustrating a process of pressurizing a container cover according to an embodiment of the present invention.

Fig. 11a to 11d are views illustrating a process of separating the container cover from the elevation member according to one embodiment of the present invention.

Fig. 12 is a combined perspective view showing a suction container according to another embodiment of the present invention.

Fig. 13 is a sectional view taken along a-a' of fig. 12.

Detailed Description

The objects, specific advantages and novel features of the invention will become more apparent from the following detailed description of the preferred embodiment when considered in conjunction with the accompanying drawings. In the present specification, in terms of assigning reference numerals to components in each drawing, it is to be noted that the components are limited to the same components, and the same reference numerals are assigned as much as possible even when they are displayed in different drawings. In addition, in explaining the present invention, when it is judged that a detailed description of the related known art may unnecessarily obscure the gist of the present invention, the detailed description is omitted.

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Fig. 1 is a combined perspective view of a suction container according to an embodiment of the present invention, fig. 2 is an exploded perspective view of a suction container according to an embodiment of the present invention, fig. 3 is a bottom perspective view of a container cover according to an embodiment of the present invention, and fig. 4 is a bottom perspective view of an opening and closing member according to an embodiment of the present invention.

Referring to fig. 1 to 4, a pumping container 100 according to an embodiment of the present invention may include a container body 10 having a pump and a container cover 30 covering the pump. In this case, the pump may include an opening and closing member 20 and a lifting member 40. The pump may further include a tip member 50 coupled to an upper end of the elevating member 40, a pump cylinder (cylinder)60 positioned inside the container body 10, and a tube (tube)70 connected to a lower end of the pump cylinder 60. Thus, the pump in one embodiment of the present invention may be a structure in which the contents are discharged to the outside by means of suction.

The container body 10 may have an opening 11 at an upper end as a region having a space for storing contents. An opening/closing member 20 capable of opening and closing the upper end of the container body 10 may be coupled to the opening 11. The opening/closing member 20 may be detachably coupled to the opening 11, and may have a through hole 21 formed in a central region thereof.

In this case, in order to couple the container body 10 and the opening/closing member 20, the container body 10 may have a first coupling portion 12 on the outer peripheral surface of the upper end thereof, and the opening/closing member 20 may have a first coupling portion 24 having a shape corresponding to the first coupling portion 12 at the lower portion thereof. Wherein, the first coupling portion 12 and the first coupling portion 24 may be formed in a screw shape so as to be coupled to and separated from each other. In one embodiment of the present invention, the first coupling portion 12 and the first connecting portion 24 are formed in a screw shape, but may be formed in various shapes for coupling with each other, other than a screw shape.

The elevation member 40 may be formed in a long rod shape penetrating inside, and may be inserted into the through hole 21 of the opening and closing member 20 to move up and down. The elevating member 40 may further have a sealing portion 42 made of an elastic material at a lower end thereof. Further, a catching portion 41 may be formed to protrude along an outer circumference of an outer side region of the elevation member 40, and the catching portion 41 may be a region that contacts a lower surface 36 of the container cover 30 described later. The opening/closing member 20 may further include a step portion 22 on an upper surface thereof, and the step portion 22 may accommodate the engaging portion 41 when the vertically movable member 40 is pressed downward.

In this case, the step portion 22 may be formed in a groove shape on the upper surface of the opening/closing member 20 in the same shape as the engaging portion 41, and the engaging portion 41 may be formed larger than the through hole 21. With this, when a force is applied to the elevation member 40 in the lower direction, the catching portion 41 may function as a stopper portion (stopper) so that the catching portion 41 is seated on the step difference portion 22 without being further moved in the lower direction. That is, only the elevating member 40 below the engaging portion 41 is movable in the through hole 21 of the opening/closing member 20.

Here, the snap-in portion 41 and the step portion 22 are formed in a circular horizontal cross section, but may be formed in various shapes corresponding to each other. When the container cover 30 is used as a washing ball, the catching portion 41 of the elevating member 40 is exposed to the outside, so that the catching portion 41 and the step portion 22 can be formed in a flower shape or the like, thereby improving the appearance of the suction container 100.

The container cover 30 may be coupled to the container body 10 provided with the pump. Such a container cover 30 may include: a main body 37 for covering the pump such that a space portion 31 is formed between the main body 37 and the pump; and a perforated portion 33, the perforated portion 33 being provided on an upper side of the main body 37. In more detail, the body 37 may be spaced apart from the elevation member 40 by a certain interval to form the space part 31 with the elevation member 40, and may have a flat lower surface 36. The container cover 30 may further include an insertion portion 32 protruding from the lower surface 36 of the body 37 toward the inside of the space portion 31. The insertion portion 32 may have a cylindrical shape with an inner portion penetrating therethrough so as to surround the outer surface of the elevation member 40.

The body 37 of the container cover 30 may have a plurality of through holes 33 that penetrate the upper side. Such a perforated portion 33 may allow water to flow in and out when the container cover 30 according to an embodiment of the present invention is used as a washing ball, and may be a region where the contents inside the container cover 30 are discharged to a washing tub. At this time, the perforated portion 33 is provided on the upper side of the container cover 30, so that the contents contained in the space portion 31 can be discharged if the container cover 30 is inverted after being separated from the container body 10. Further, the container cover 30 may have a scale portion 34 for measuring the content on the outer surface thereof.

The container cover 30 may be normally kept coupled to the opening/closing member 20, and therefore, the opening/closing member 20 may have a second coupling portion 23 on an upper end outer peripheral surface thereof, and a second coupling portion 35 corresponding to the second coupling portion 23 on an inner peripheral surface extending downward from a peripheral edge of a lower surface 36 of the container cover 30.

At this time, the second coupling portion 23 and the second coupling portion 35 may be formed in a screw shape, respectively, so as to be coupled to and separated from each other. However, the coupling between the opening/closing member 20 and the container cover 30 is not limited to the screw shape, and it is needless to say that various forms such as a protrusion and a groove structure may be formed.

The tip member 50 may be coupled to surround the upper end of the elevating member 40 as a member for changing the content ejecting direction of the container body 10. The tip member 50 may be coupled to the elevation member 50 by various means, but in one embodiment of the present invention, the elevation member 40 and an inner circumferential surface (not shown) of the tip member 50 may be coupled to each other by respectively forming threads having corresponding shapes on the upper end outer circumferential surface 43 thereof and the inner circumferential surface.

Here, the upper end of the elevation member 40 may be formed to have an outer diameter thinner than other regions, by which the outer diameter of the tip member 50 coupled to the upper end of the elevation member 40 may be the same as that of other regions except the upper end of the elevation member 40. Therefore, the tip member 50 coupled to the elevation member 40 may not protrude from other regions of the elevation member 40.

In this case, in the embodiment of the present invention, although the engaging portion 41 is provided to protrude along the outer periphery of the outer side one region of the elevating member 40, the position of the engaging portion 41 is not limited thereto, and may also protrude along the outer periphery of the outer side one region of the distal end member 50. At this time, the snap-in portion 41 is preferably provided on the lower side of the tip member 50.

Such a tip member 50 may have a flow path (not shown in the figure) connected to the penetrating interior of the elevating member 40, and a discharge port 51 at the end of the flow path. In this case, the discharge port may be provided on the side surface of the tip member 50. Accordingly, the content in the container main body 10 can be changed from the vertical direction to the horizontal direction, and the detailed description thereof will be described later with reference to fig. 7.

Further, the pump cylinder 60 is located inside the container body 10, and the lower portion of the elevation member 40 can move. The upper end of the pump cylinder 60 may be coupled to and fixed around the through-hole 21 below the opening/closing member 20. More specifically, the opening/closing member 20 may have a third coupling portion 25 on the outer periphery of the lower through hole 21 and a third coupling portion 61 on the inner peripheral surface of the upper end of the pump cylinder 60, so that they are coupled to each other.

Further, a pipe 70 may be connected to a lower end of the pump cylinder 60, and an elastic member 80 may be provided at an inner lower portion of the pump cylinder 60. With this, the elevation member 40 can be maintained in the automatically-raised state by the elastic force of the elastic member 80 without applying a force to the lower portion.

As described above, the suction container 100 of one embodiment of the present invention may be configured to discharge the contents in the form of a pump. That is, the container cover 30 is separated from the opening and closing member 20, and the contents in the container body 10 can be discharged into the container cover 30 by pressurizing the upper portion of the container cover 30 in a state where the container cover 30 is fitted over the upper portion of the elevating member 40. With this, the container cover 30 itself can be separated from the elevation member 40 and used as a washing ball without separately providing the washing ball.

In general, in a detergent container without a pump, when a container lid is used as a washing ball, the container lid is put into a washing machine with the contents exposed and used as the washing ball. Therefore, in washing, the container body is kept in an open state, and thus an additional stopper for the purpose of closing the container body is necessary, or otherwise, there is a problem that the contents are contaminated by inflow of foreign substances such as dust.

However, the suction container 100 according to the embodiment of the present invention prevents the contents from being exposed to the outside by the opening and closing member 20 and the top member 50 whose upper surface is closed, so that the contents can be prevented from being contaminated even when the container cover 30 is used as a washing ball.

That is, the pumping container 100 according to the embodiment of the present invention pumps (pumping) the container cover 30 in a state where the container cover 30 is placed on the elevation member 40, whereby the contents can be injected to the space portion 31 of the container cover 30 by a certain amount. Therefore, the container cover 30 containing a certain amount of contents is separated from the elevation member 40 and put into the washing machine, thereby being used as a washing ball.

Fig. 5 is a perspective view showing a state in which the tip member according to an embodiment of the present invention is separated from the elevation member, and fig. 6 is a perspective view showing a state in which the tip member according to an embodiment of the present invention is coupled to the upper end of the elevation member.

Referring to fig. 5 to 6, a tip member 50 may be coupled to an upper end of the elevation member 40 according to an embodiment of the present invention. Here, the tip member 50 may be connected while covering a portion of the upper side of the elevation member 40. That is, the upper portion side of the elevation member 40 to which the tip member 50 is coupled may be formed to be thinner than the other region, and a screw thread for coupling with the tip member 50 may be formed on the outer circumferential surface 43. The outer diameter of the tip member 50 may be the same as the outer diameter of the other region of the elevation member 40, and a screw thread for coupling with the elevation member 40 may be formed on the inner circumferential surface of the tip member 50.

With this, the tip member 50 can be coupled to the upper end of the vertically movable member 40 by fitting and rotating the tip member 50 on the upper side of the vertically movable member 40. At this time, the outer diameter of the region other than the upper end of the elevation member 40 is formed to be the same as the outer diameter of the tip member 50, and thus the state in which the tip member 50 is coupled to the elevation member 40 may be a state in which it is formed flat without a protruding portion. The manner of coupling the elevation member 40 and the tip member 50 is not limited thereto, and it is needless to say that the elevation member and the tip member can be coupled in various manners such as a projection and a groove structure.

Further, the catching portion 41 of the vertically movable member 40 may be positioned above the opening/closing member 20, instead of being positioned on the step portion 22 of the opening/closing member 20, without being pressed from the upper side of the vertically movable member 40. That is, the ascending/descending member 40 can be maintained in the ascending state by the elastic force of the elastic member 80 positioned at the inner lower portion of the pump cylinder 60 (see fig. 2).

Fig. 7 is a diagram showing a path along which contents move according to an embodiment of the present invention.

Referring to fig. 7, although the cap 30 (see fig. 1) is not shown in fig. 7, the cap 30 is pulled with the palm in a state where the cap 30 is fitted around the top of the tip member 50 and the lifting member 40, and the content can be ejected from the container body 10 (see fig. 1) to the discharge port 51.

When the path along which the contents move is examined, the contents of the container body 10 can move along the inside of the pump cylinder 60 (see fig. 2) from the lower end of the elevation member 40. The content can move along the flow path 52 of the tip member 50 coupled to the upper end of the elevation member 40, and can be ejected to the ejection port 51 located at the end of the flow path 52.

At this time, in order to eject the content from the vertical direction to the horizontal direction, the upper surface of the tip member 50 is closed, a flow path 52 in the vertical direction is formed inside, and the discharge port 51 may be formed in the side surface of the tip member 50. With this, the content can be discharged from the direction parallel to the longitudinal direction of the elevating member 40 to the direction perpendicular thereto.

In the case where the tip member 50 is not coupled to the elevation member 40, the content can be ejected from the upper end of the cylindrical elevation member 40 penetrating the inside toward the upper portion. Since the plurality of perforated portions 33 are formed on the upper side of the container cover 30, if the tip member 50 is not provided, the contents are discharged through the perforated portions 33 and are stained on the hand.

Therefore, the tip member 50 according to an embodiment of the present invention can change the injection direction of the contents from the vertical direction to the horizontal direction, and thus the contents can be discharged into the space 31 (see fig. 1) of the container lid 30.

Here, the flow path 52 of the tip member 50 may be formed such that the upper surface of a region in which the content is discharged in a direction perpendicular to the longitudinal direction of the elevation member 40 is inclined. In more detail, the upper surface of the flow path 52 may be disposed to be inclined more and more downward from the center of the tip member 50 to the outside. With this, the content can be discharged toward the lower portion at a certain angle, not in the direction perpendicular to the longitudinal direction of the elevating member 40. In this case, the upper surface of the flow path 52 may be formed as a curved surface so as to have a gently inclined surface, or may be formed as an inclined surface having a pyramid shape.

Fig. 8a and 8b are perspective views showing a state before the container cover according to the embodiment of the present invention is coupled to the elevation member.

Referring to fig. 8a to 8b, the elevation member 40 can be maximally elevated by the elastic force of the elastic member 80 in a state where the second coupling portion 35 of the container cover 30 is separated from the second coupling portion 23 of the opening and closing member 20. As described above, when the container cover 30 is used as the washing ball, the lifting member 40 can be maintained in a lifted state after the container cover 30 is separated from the opening and closing member 20.

At this time, since the inside of the container main body 10 is closed by the opening and closing member 20 and the elevating member 40, it is possible to prevent foreign substances from flowing into the contents inside the container main body 10.

In addition, when the container cover 30 is examined, the insertion portion 32 penetrating inside is formed to protrude from the lower surface 36 toward the space portion 31, and a passage through which only the distal end member 50 and the elevating member 40 can be inserted is designed. A sealing member 38 made of an elastic material may be provided on the inlet side of the insertion portion 32, and the sealing member 38 may be formed in a ring shape so that the elevating member 40 passes through. Also, the through hole at the center of the sealing member 38 may be formed to be the same as or smaller than the outer diameter of the elevation member 40. With this, in a state where the container cover 30 is fitted over the elevating member 40, the space between the sealing member 38 on the inlet side of the insertion portion 32 and the elevating member 40 can be sealed. When the container lid 30 is separated from the elevation member 40 and the tip member 50 after the content is ejected toward the space portion 31, the sealing member 38 can scrape the content residue flowing down along the outer surfaces of the elevation member 40 and the tip member 50.

The lower surface 36 of the container cover 30 is formed flat, and the lower surface 36 of the container cover 30 can be fitted over the elevating member 40 in contact with the engaging portion 41 of the elevating member 40. That is, the engagement portion 41 is in contact with the lower surface 36 of the container cover 30 to restrict the movement of the lower portion of the container cover 30, and thereby the upper end of the tip member 50 is prevented from being in contact with the inner upper end portion of the container cover 30.

Fig. 9a to 9e are views illustrating a process in which the contents are discharged from the container body to the inside of the container cover to be used as the washing ball according to one embodiment of the present invention.

As shown in fig. 9a, in the initial packaging state of the suction container 100, the opening/closing member 20 may be coupled to the opening 11 of the container body 10, and the container cover 30 may be coupled to the upper portion of the opening/closing member 20. The opening and closing member 20 is combined with the container cover 30, so that the lower surface 36 of the container cover 30 can maintain a state in which the catching portion 41 is received in the step portion 22 of the opening and closing member 20 while pressurizing the catching portion 41 of the elevation member 40.

Referring to fig. 9b, if the coupling of the container cover 30 is released from the opening and closing member 20 in order to use the container cover 30, the elastic member 80 located inside the pump cylinder 60 pushes the elevation member 40 upward. With this, the elevation member 40 and the container cover 30 can be elevated to the maximum height while the container cover 30 is separated from the opening and closing member 20.

When the contents are to be discharged into the space 31 of the container lid 30 by suction, as shown in fig. 9c, if the upper end of the container lid 30 is pressed with the palm, the container lid 30 and the lifting member 40 can be moved to the lower portion. At this time, the catching portion 41 of the elevation member 40 is seated on the step portion 22 of the opening and closing member 20 and can restrict the elevation member 40 from moving to the lower portion. As described above, the contents in the container main body 10 can be discharged to the discharge port 51 of the distal end member 50 through the tube 70, the pump cylinder 60, and the elevating member 40 while the elevating member 40 moves downward.

Further, if the container cover 30 is not pressed downward, the elevation member 40 and the container cover 30 can be raised again by the elastic member 80. Since a predetermined amount of contents is discharged every 1 time the pressure is applied to the upper portion of the container cap 30, a desired amount of contents can be discharged by repeating the up-and-down suction. In this case, since the scale portion 34 for measuring the content is marked on the outer surface of the container cover 30, the amount of the content can be confirmed more easily.

Then, as shown in fig. 9d, the container lid 30 with the contents can be pulled out upward and separated from the elevation member 40. The container cover 30 is separated in this way, and can be directly put into a washing machine to be used as a washing ball. Since the plurality of perforated portions 33 are formed in the container cover 30, the contents located inside the space portion 31 can be discharged to the outside of the container cover 30 while water flows in or out through the perforated portions 33.

As such, according to an embodiment of the present invention, the contents can be discharged to the inside of the container cap 30 in a state where the container cap 30 is positioned at the container body 10, and thus the container cap 30 can be used as a laundry ball without lifting up the heavy container body 10.

Fig. 10a to 10c are diagrams illustrating a process of pressurizing a container cover according to an embodiment of the present invention.

First, if referring to fig. 10a, the container cover 30 is separated from the opening and closing member 20, and the elevation member 40 can be located at the maximum height by means of the elastic force of the elastic member 80. The container cover 30 may be fitted over the elevation member 40 in a state where the lower surface 36 of the container cover 30 contacts the catching portion 41 of the elevation member 40.

Further, as shown in fig. 10b and 10c, if a force is applied from the upper portion to the lower portion of the cover 30, the elastic member 80 located at the inner lower portion of the pump cylinder 60 is pressed, and at the same time, the elevation member 40 may be gradually moved toward the inner lower portion of the pump cylinder 60. At this time, the sealing portion 42 having the same inner diameter as the pump cylinder 60 is provided at the lower end of the elevating member 40, and the contents corresponding to the compressed air amount can be discharged as the elevating member 40 moves downward.

Although not shown in fig. 10a to 10c, the discharge port 51 of the tip member 50 may be exposed outside the insertion portion 32 in a state where the tip member 50 and the lifting member 40 are inserted into the insertion portion 32. This is explained in detail with reference to fig. 11 a. Further, if the catching portion 41 is seated on the step portion 22 of the opening and closing member 20 while the elevation member 40 is lowered, the elevation member 40 stops being lowered.

Fig. 11a to 11d are views showing a process of separating the container cover from the elevation member according to one embodiment of the present invention.

Referring to fig. 11a to 11d, by pressurizing the container cover 30 to the lower side, a desired amount of contents is injected into the space 31 of the container cover 30, and the container cover 30 can be separated from the elevation member 40 to be used as a washing ball.

At this time, the elastic member 80 positioned inside the pump cylinder 60 may be in a state of exhibiting the maximum elastic force, and thus the elevation member 40 may be positioned at the maximum height. When the force is not applied from above the container cover 30, the lower surface 36 of the container cover 30 can be in contact with the catching portion 41 of the elevation member 40, and the elevation member 40 and the tip member 50 can be inserted into the insertion portion 32 of the container cover 30.

As shown in fig. 11a, a length L1 from the catching portion 41 to the lower end of the discharge port 51 may be equal to or longer than a length L2 of the insertion portion 32. With this, the discharge port 51 is always positioned above the elevating member 40, and thus the contents can be easily discharged toward the space 31 of the container lid 30 while the elevating member 40 moves up and down.

In addition, the length L3 from the snap-in portion 41 to the upper end of the tip member 50 may be formed shorter than the height L4 of the cap 30. With this, the upper end of the top member 50 does not contact the inner upper surface of the container cover 30, and the lower surface 36 of the container cover 30 can contact the catching portion 41. That is, since the snap-in portion 41 and the lower surface 36 of the container cover 30 are formed as flat surfaces, the state in which the elevating member 40 is inserted into the insertion portion 32 of the container cover 30 can be maintained more stably.

The container cover 30 can be pulled out and separated upward from the elevating member 40. At this time, a sealing member 38 (see fig. 8b) made of an elastic material may be provided on the inlet side of the insertion portion 32 of the container cover 30. The sealing member 38 is annular, and a hole penetrating through the center thereof may be formed to have the same or smaller outer diameter than the elevating member 40 and the tip member 50.

The sealing member 38 made of an elastic material in this manner can bring the content stuck on the outer peripheral surfaces of the elevation member 40 and the tip member 50 while closely adhering to the outer peripheral surfaces of the elevation member 40 and the tip member 50 as the cap 30 is moved upward, and can make the content flow into the discharge port 51. Therefore, it is possible to prevent the contents from flowing to the outer circumferential surfaces of the tip member 50 and the elevation member 40 after the container lid 30 is separated from the elevation member 40.

Fig. 12 is a combined perspective view showing a suction container according to another embodiment of the present invention, and fig. 13 is a sectional view taken along a-a' of fig. 12.

Referring to fig. 12 and 13, a pumping container 200 according to another embodiment of the present invention may include a pump having an opening and closing member 20 (see fig. 1) and a lifting member 250 at an upper end of a container body 10 (see fig. 1) for storing contents. The same structure as that of the first embodiment in the pumping container 200 according to another embodiment of the present invention will be omitted from detailed description.

First, the elevation member 250 may have a flow path 252 inside. At this time, the flow path 252 may be formed such that the content can be discharged from a direction parallel to the longitudinal direction of the elevating member 250 to a direction perpendicular to the longitudinal direction. In addition, a discharge port 251 may be provided at the end of the flow path 252, and such a discharge port 251 may be provided to protrude from the outer surface of the elevation member 250.

Further, the container cover 230 may further include an insertion portion 232, and the insertion portion 232 penetrates inside so as to surround the outer surface of the elevation member 250. Here, the insertion portion 232 may be a region protruding from the lower portion of the cover 230 toward the inside of the space portion 231. The insertion portion 232 may further include a discharge port moving portion 234 and a discharge port 235.

First, the discharge port moving portion 234 may protrude from one region of the insertion portion 232 toward the space portion 231 along the longitudinal direction of the insertion portion 232, and at this time, the discharge port moving portion 234 may protrude to such an extent as to surround the discharge port 251. The discharge hole 235 may be provided at a position rotated in one direction from the discharge port moving portion 234. Such a discharge hole 235 may be a region that penetrates from the discharge port moving portion 234 side corresponding to the height of the discharge port 251 toward a direction perpendicular to the longitudinal direction of the insertion portion 232 to form a constant length in a state where the container cover 230 is coupled to the pump.

That is, in a state where the container cover 230 is coupled to the pump, the container cover 230 is rotated in a certain direction, and the discharge port 251 can be positioned to correspond to the discharge port moving portion 234 or the discharge hole 235. With this, the discharge opening 251 is positioned corresponding to the discharge opening moving unit 234 during storage, and the discharge opening 251 can be protected. In addition, when the contents are discharged, the container cover 230 is slightly rotated in one direction so that the discharge port 251 is positioned corresponding to the discharge hole 235, and then the contents can be discharged to the space 231 by spraying.

After the discharge of the content into the space 231 is completed, the container lid 230 is rotated again in the opposite direction so that the discharge port 251 is positioned corresponding to the discharge port moving portion 234, and then the container lid 230 can be separated from the container body. At this time, the discharge port moving portion 234 may be used as a passage through which the discharge port 251 moves up and down.

By providing the discharge port moving portion 234 and the discharge port 235 in the insertion portion 232 of the container lid 230 in this manner, the content can be selectively discharged to the space portion 231 or the container lid 230 can be detached from or attached to the pump as needed.

The container cover 230 may further include at least one protrusion 237 on the outer circumferential surface. Such a protrusion 237 makes it easier to clean foreign materials contaminated with laundry when the container cover 230 is used as a washing ball. The container lid 230 may further include a perforated portion 233 having an upper side opened. With such a perforated portion 233, the contents contained in the space portion 231 can flow out when the container lid 230 is used as a washing ball. Here, the shape of the perforated portion 233 is not limited to this, and may be formed of a plurality of holes, as in the perforated portion of one embodiment.

The present invention has been described in detail with reference to the specific embodiments, but it is needless to say that the present invention is not limited thereto, and it is possible to modify or improve the present invention by those skilled in the art within the technical spirit of the present invention.

The present invention is not limited to the above embodiments, and various modifications and changes can be made without departing from the scope of the present invention.

(description of reference numerals)

10: a container body; 11: an opening part;

12: a first coupling portion; 20: an opening/closing member;

21: a through hole; 22: a step difference portion;

23: a second joint part; 24: a first connecting portion;

30: a container cover; 31: a space section;

32: an insertion portion; 34: a scale section;

35: a second coupling portion; 36: a lower face;

40: a lifting member; 41: a clamping part;

42: a sealing part; 50: a tip member;

51: a discharge port; 60: a pump barrel;

70: a tube; 80: an elastic member;

100: the container is aspirated.

Claims (24)

1. A suction container, comprising:

a container body for containing contents, the container body being provided with a pump at an upper end thereof; and

a container cover for covering the pump in such a manner that a space portion is formed between the container cover and the pump,

the container cover is lowered to operate the pump, thereby accommodating the contents in the space portion, and is provided with a perforated portion at an upper side for discharging the contents accommodated in the space portion when the container cover is turned upside down,

when the contents are contained in the space portion, the container lid is separated from the container body and put into the washing machine, and the container lid is used as a washing ball while the contents are discharged into the washing machine through the perforated portion.

2. The extraction vessel according to claim 1,

the pump includes:

an opening/closing member detachably coupled to an upper end of the container body, the opening/closing member having a through hole formed in one region; and

and an elevating member which is inserted into the through hole of the opening/closing member and is vertically movable.

3. The extraction vessel according to claim 2,

the elevation member further includes a catching portion protruding along an outer circumference of an outer one of the regions, the catching portion contacting a lower surface of the container cover.

4. The extraction vessel according to claim 3,

the container cover further includes an insertion portion protruding from the lower portion toward an inside of the space portion, and an inside thereof penetrates so as to surround an outer surface of the elevation member.

5. The extraction vessel according to claim 4,

the insertion portion is further provided with a sealing member made of an elastic material on an inlet side.

6. The extraction vessel according to claim 4,

a tip member having a flow path connected to the inside of the lifting member and having a discharge port at a distal end of the flow path is coupled to an upper end of the lifting member.

7. The extraction vessel according to claim 6,

the flow path is formed to discharge the content from a direction parallel to a longitudinal direction of the lifting member to a direction perpendicular to the longitudinal direction of the lifting member.

8. The extraction vessel of claim 7,

the flow path is provided with: the upper surface of the region in which the content is discharged in a direction perpendicular to the longitudinal direction of the lifting member is inclined downward from the center of the tip member to the outside.

9. The extraction vessel according to claim 6,

the length from the catching portion to the lower end of the discharge port is formed to be the same as or longer than the length of the insertion portion.

10. The extraction vessel according to claim 4,

the lifting member has a flow path inside, and the flow path has a discharge port at a distal end thereof, and the flow path is formed so as to discharge the content from a direction parallel to a longitudinal direction of the lifting member to a direction perpendicular to the longitudinal direction of the lifting member.

11. The extraction vessel of claim 10,

the discharge port protrudes from the outside of the elevation member.

12. The extraction vessel of claim 11,

the insertion portion further includes a discharge port moving portion that protrudes toward the space portion along the longitudinal direction, and a discharge hole that is provided at a position rotated in one direction from the discharge port moving portion.

13. The extraction vessel of claim 12,

the discharge hole is formed to penetrate a predetermined length from one side of the discharge port moving portion corresponding to the height of the discharge port to a direction perpendicular to the longitudinal direction of the insertion portion in a state where the container cover is coupled to the pump.

14. The extraction vessel of claim 12,

the content can be selectively ejected into the space or the cap can be detached from or attached to the pump by positioning the discharge port at the discharge hole or the discharge port moving portion as the cap is rotated.

15. The extraction vessel according to claim 1,

the container lid also has at least one protrusion on the outside.

16. The extraction vessel according to claim 3,

the opening/closing member further includes a step portion on an upper surface thereof, and the step portion accommodates the engaging portion when the container cover is pressurized toward a lower portion.

17. The extraction vessel according to claim 2,

the pump further comprises a pump cylinder and a pipe, the pump cylinder is located inside the container body and used for moving the lower portion of the lifting component, and the pipe is connected to the lower end of the pump cylinder.

18. The extraction vessel of claim 17,

the pump cylinder further includes an elastic member at an inner lower portion thereof, and the elevation member is automatically elevated by an elastic force of the elastic member.

19. The extraction vessel according to claim 2,

a first coupling portion is provided on an outer peripheral surface of an upper end of the container body, and a first coupling portion coupled to the first coupling portion is provided at a lower portion of the opening/closing member.

20. The extraction vessel according to claim 2,

a second coupling portion is provided on an upper end outer peripheral surface of the opening/closing member, and a second coupling portion coupled to the second coupling portion is provided on a lower end inner peripheral surface of the container lid.

21. A container lid coupled to a container body that contains contents and is provided with a pump at an upper end thereof, comprising:

a main body for covering the pump so as to form a space between the main body and the pump; and

a perforated portion provided on an upper side of the main body,

the main body operates the pump by descending to accommodate the content into the space part,

the perforated portion discharges the contents contained in the space portion when the main body is turned upside down,

when the contents are contained in the space portion, the container lid is separated from the container body and put into the washing machine, and the container lid is used as a washing ball while the contents are discharged into the washing machine through the perforated portion.

22. The container lid according to claim 21,

the perforation part discharges the contents when the main body is reversed after being separated from the container body.

23. The container lid according to claim 21,

the main body further includes an insertion portion, and the insertion portion having an inner portion penetrating therethrough protrudes from a lower portion to an inner side of the space portion so as to surround an outer surface of the pump.

24. The container lid according to claim 21,

the body has a scale portion on an outer surface for metering the content.

Images