WO2015069025A1 - Powder storage container capable of rated amount discharge - Google Patents

Abstract

The present invention relates to a powder storage container capable of rated amount discharge, the container having a storage space provided therein, in which a rated amount of powder can be stored, such that a necessary amount of powder can be discharged and used without any separate tool. To this end, according to a first embodiment of the present invention, a rated amount storage portion is formed on an end of the storage space, the rated amount storage portion and a withdrawal opening are positioned on a straight line, the rated amount storage portion is always filled with a rated amount of powder, and a cap, which opens/closes the withdrawal opening, has a hollow fitting protrusion formed thereon such that the hollow shape ensures elastic coupling and maintains a hermetic seal. According to a second embodiment, a movement passage of the rated amount storage portion is opened/closed by an operating body, thereby ensuring accurately rated amount discharge, and, when the movement passage is to be opened/closed, the withdrawal opening is opened/closed as the operating body rotates, during opening/closing of the cap, in order to withdraw powder through the withdrawal opening, thereby preventing continuous discharge of powder or the like from the storage space through the rated amount discharge portion as the movement passage is opened/closed.

Description

Powder storage container capable of quantitative discharge

The present invention relates to a powder storage container capable of quantitative discharge, and has a storage space for quantitatively storing powder inside the storage container so that the powder can be quantitatively discharged as needed without using a separate tool.

A general powder storage container is composed of a container body for storing a powdered product (seasoning, coffee, etc.) and a stopper to open the discharge port on the top of the container body, a plurality of holes are perforated in the discharge port to discharge the powder in small quantities Emissions can be controlled by eye estimates.

However, if you adjust the emissions in such a snowfall, not only the exact amount can not be discharged, in the case of inexperienced person is more difficult to control the emissions, there is a problem that the emissions are too much or too small.

Therefore, in order to solve the problem that the powder is not discharged quantitatively, a partition is formed in the storage space formed inside the container body so that the storage space is connected to the discharge passage while being separated from the discharge port so that only the powder in the discharge passage is discharged. (Korean Patent Registration No. 1199682)

However, the problem with this is that the amount of powder remaining in the discharge path is not specified, so there is a problem that it cannot be discharged in a quantitative manner.

In other words, when the storage container is standing up and stored, the powder stored in the storage space is filled down into the discharge path and filled. For example, if the storage container is kept upright so as not to move at all, the amount filled in the discharge path is very high. When it is less and shakes the storage container, the filling of the discharge path is filled with powder so that the amount of filling in the discharge path cannot be accurately controlled.

In particular, when the seasoning is used for cooking food, the amount is often adjusted while repeatedly adding the seasoning. As described above, when the amount of discharge is variable, it is very difficult to control the amount. Uncomfortable.

In addition, if you want to add seasonings repeatedly, after filling up the storage container and filling the seasoning in the discharge path and tilted again, if you tilt the storage container repeatedly in such a short time, the amount of seasoning stored in the discharge path is very small. As a result, quantitative discharge is almost impossible.

In addition, since the shape of the discharge path is connected at right angles along the side wall from the bottom surface of the container body, in order to discharge all the powder remaining in the discharge path, the storage container should be discharged at an angle along the shape of the discharge path.

In other words, if the container is turned upside down and the powder is inverted quickly, some of the powder is caught in the discharge path so that it is not discharged. The container is then laid on its side and the powder stored in the discharge path is guided to the side wall of the container body. It is very cumbersome to use because it has to be sent to the side to finally turn over the storage container and discharge the powder.

Therefore, the present invention provides a quantitative storage unit in an oval or circular powder storage container to discharge the stored powder in a quantitative manner, as well as to ensure that the filled powder is completely discharged while the powder is completely filled in the quantitative storage. The variable width is minimized.

In addition, by simplifying the quantitative discharge structure, while quantitative storage is made in a short time, it is possible to easily quantitatively withdraw the storage container regardless of the tilting direction.

To this end, in the first embodiment, the present invention forms a quantitative storage unit at one end of the storage space, and the quantitative storage unit and the outlet port are located in a straight line as well as the quantitative storage unit so that the quantitative storage is always filled. In order to maintain the airtightness by forming a hollow pinched portion in the stopper to the elastic coupling to be made due to this hollow phase, in the second embodiment to open and close the moving path of the quantitative storage unit by the actuator to precisely discharge When opening and closing the moving path, the moving body is rotated when opening and closing the stopper to take out the powder through the outlet, and the opening and closing of the outlet as well as opening and closing the moving path, such as powder in the storage space It is to prevent the continuous discharge through.

Therefore, the present invention is able to discharge the powder in a quantitatively accurate amount of space configured in the quantitative storage unit, so anyone can easily discharge only the correct amount even if it is not skilled.

In addition, even when a large amount of powder is to be discharged, the amount repeatedly discharged is relatively constant, so that the required amount can be accurately discharged. Also, since the powder is filled in the quantitative storage portion in a very short time, the container is easily turned over and repeatedly. Quantitative discharge is possible.

In addition, since the powder discharge is made in the state already stored in the quantitative storage by the filling induction drawing, it is very convenient to use because it can be easily discharged out of the storage container regardless of the direction of tilting the quantitative container.

1 is a cross-sectional view showing a first embodiment of the powder storage container of the present invention

2 and 3 are exploded perspective view showing the assembly structure of Figure 1

4a to 4c is a state diagram used in FIG.

Figure 5 is a cross-sectional view showing a second embodiment of the powder storage container of the present invention

6 is an exploded perspective view showing the assembly structure of FIG.

7 is an external perspective view of FIG.

8a to 8d is a state diagram used in FIG.

9 is an operating state of the towing element and the towed element of the present invention.

10 is a state diagram in which the quantitative storage space is in communication with the outlet by the operation of the opening and closing membrane of the present invention.

Best Mode for Carrying out the Invention The best mode for carrying out the present invention is to guide the discharge to the container body in which the outlet is formed by the discharge passage partitioned by the storage space and the partition wall, and the powder stored in the storage space in the lower portion of the container body through the discharge passage. In the lower body and the stopper for opening and closing the outlet opening is formed,

The induction surface of the lower body coupled to the lower portion of the upper body of the container body is formed to be inclined downward from one side of the storage space of the container body to the other side, the lower portion is inclined to form a fixed quantity storage unit,

The fixed quantity storage unit is located on the same line as the discharge path,

The outlet formed at the upper end of the storage space is expanded upward while protruding from the upper surface of the container body,

The stopper for opening and closing the upwardly expanded outlet port is characterized in that the hollow pinion is formed to be concentrically downward while being retracted to be elastically actuated into the outlet of the outlet which is upwardly expanded.

In addition, the container body of the present invention is inserted into the lower body and the lower body formed in the upper body and the outlet opening is formed storage space is exposed to the outlet of the lower body while inducing the rotation of the actuator and the actuator is rotated by the stopper. It consists of a stopper and an auxiliary stopper to open and close the upper end of the upper body,

The lower end of the upper body is formed to be quantitatively stored in the inward direction of the storage space,

The lower body coupled to the upper body is provided with a guide opening for inserting the traction element of the stopper in the state of receiving the actuator for opening and closing the outlet, the shaft hole is coupled to the shaft of the actuator so that the actuator is rotated forward Formed

The actuator, which is inserted into the lower body and rotated, has an opening and closing membrane protruding in the same shape as the fixed quantity storage part formed at the lower end of the upper body, and a filling induction surface for inducing filling into the fixed quantity storage part by rotation of the working body. It is formed, the towing element is formed so as to be rotated while engaging the traction element of the stopper is characterized in that the powder storage container capable of quantitative discharge is formed with a close contact surface for opening and closing the outlet of the lower body during rotation.

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

1 to 4 of the present invention is a configuration in which the container body in the upright state to open the stopper for taking out the powder and the like and inverted to be stored in the quantitative storage unit, Figure 5 to 10 is the container body Inverted in an upright state to store the powder, etc. in the quantitative storage, and then withdraw the cap stored in the quantitative storage while opening the stopper for the withdrawal and tilted upright again.

To this end, the first and second embodiments will now be described in detail with reference to the accompanying drawings.

1 to 4 illustrate a structure in which powder to be withdrawn is withdrawn to the upper side, and the storage space 11 in which the powder to be withdrawn is stored is partition wall 13. The upper body 10 constituting the container body 1 in which the outlet opening 12 through which the powder or the like (the concept including particles of granules) is drawn out is formed by the discharge passage 16 partitioned by; An induction surface 15 for guiding the powder stored in the storage space 11 at the lower portion of the upper body 10 to the discharge path 16 through the moving path 14 opened at the bottom of the partition wall 13. ) Is formed of a stopper 30 for opening and closing the lower body 20 and the outlet 12 is formed.

In the present invention, the guide surface 15 of the lower body 20 coupled to the lower part of the upper body 10 constituting the container body 1 is the container body 1 is formed in the shape of an oblong type rectangular upper portion A quantitative storage 21 is formed to be inclined downward from one side of the storage space 11 of the sieve 10 to the other side, and to be concaved in a shape having a predetermined depth and an area at the lower inclined bottom.

At this time, the quantitative storage portion 21 is located on the same line as the discharge path 16 formed in the upper body 10 and has almost the same area and shape, so that the quantitative value at the time of withdrawal is accurately determined through the outlet 12. This can be withdrawn.

The powder and the like stored in the quantitative storage unit 21 is the degree of opening of the moving passage 14 and the powder or the like stored in the storage space 11 to the quantitative storage unit 21 to move to the quantitative storage unit 21. The inclination is changeable by the inclination, and the inclination should be made to have a hardness to cover the open moving path 14. When the container body 1 is overturned and the powder is taken out, the powder remaining in the storage space 11 is not continuously drawn out. It will not be.

Meanwhile, the outlet 12 formed at the upper end of the storage space 11 is protruded from the upper surface 10a of the upper body 10 constituting the container body 1 so that the upper end is expanded, and the upper end is expanded. The stopper 30 for opening and closing the outlet 12 is formed with a hollow pinching protrusion 31 which is downwardly axially contiguous and is easily accessible into the outlet 12 which is expanded to the upper end. The ease of course, as well as the contact surface becomes more easy to maintain the airtight, and even when pressed, it is pinched while acting elastically by taking a hollow form.

In the present invention, the partition wall 13 partitioning the discharge path 16 in the storage space 11 of the upper body 10 constituting the container body 1 is discharged at the time of discharge as shown in FIG. 16 is made of a tubular body 13a so that there is no residual amount in the inside, and the moving path 14 for moving from the storage space 11 to the quantitative storage unit 21 is cut only a part of the lower end of the tubular body 13a. By moving the stored powder of the storage space 11 to the discharge path 16 only to be moved.

In addition, the lower body 20 coupled to the lower part of the upper body 10 constituting the container body 1 has a quantitative storage part 21 spaced apart from each other at the outer wall 22 of the lower body 20. Is formed is coupled to the elastic operation is to be closely coupled with the upper body 10 constituting the container body (1).

Therefore, for quantitative withdrawal, the lower body 20 is coupled to the upper body 10 constituting the container body 1, the stopper 30 is inverted in the combined state of the lower body 20 in an upright state. The quantification is filled in the quantitative storage unit 21 by the induction surface 15 and the quantitative movement of the quantitative storage unit 21 is the same as that of the discharge passage 16 because the area of the quantitative storage unit 21 is the same. At this time, the powder remaining in the storage space 11 by the induction surface 15 having a predetermined inclination angle is to flow as shown in Figure 4c is not a continuous discharge.

This withdrawal is to open and withdraw the stopper 30, and when closing the stopper 30, the hollow pinching protrusion 31, which is concentric with the upper end of the outlet (12) by the expanded portion is easily pinched and resilient operation To be tightly sealed.

At this time, the moving path 14 is formed in communication with the quantitative storage 21 and the storage space 11 is formed by forming the short (13, 13a) of the partition wall (13, 13a) in accordance with the particle size of the powder is stored in the moving path (14). ) Width can be expanded or reduced.

That is, for example, when the powder particles are relatively large such as coffee or coarse salt, the length of the partition walls 13 and 13a is shortened to extend the width of the moving path 14, and the sugar, prim, and salt salts are relatively large. When the powder particles are small, it is preferable to make the quantitative discharge more precisely by lengthening the lengths of the partitions 13 and 13a to reduce the width of the moving path 14.

In addition, the assembling structure of the upper body 10 and the lower body 20 can be manufactured to be assembled in a spiral manner or assembled by force fitting, or assembled using a separate fastening means (not shown), most preferably It is preferable to form the projection frame 24 around the lower body 20 to be assembled by force fitting. When the lower end of the upper body 10 is made of thin flesh, the outer peripheral surface of the lower end of the upper body 10 is formed. The circumference is to have a constant elasticity, to form a concave frame (17) around the periphery frame 24 and the concave frame (17) can be fitted and fixed by pressing, separate by the protrusion frame (24) The upper body 10 and the lower body 20 will be tightly sealed without the need for packing or sealing means.

5 to 10 illustrate a second embodiment of the present invention. The basic configuration thereof includes a storage space 110 in which a powder and the like for withdrawal are stored in a predetermined amount and an outer wall 120 forming the storage space 110. An upper body 100 constituting the container body 1 having a quantitative storage portion 130 which is formed inside of the bottom and downwardly opened; An auxiliary stopper 500 which is removably coupled to the upper end of the upper body 100 to repeatedly fill the powder to be withdrawn; The auxiliary stopper 500 is mounted on the lower end of the upper body 100 on which the auxiliary plug 500 is connected to the quantitative storage unit 130 to form a discharge path 220 in the lower body 200 to the outlet 210. A lower body 200 configured to receive the actuator 400 to be pulled out and to connect the stopper 300 to rotate the accommodated actuator 400; The actuator is mounted inside the lower body 200 and interlocked or communicated with the quantitative storage unit 130 and at the same time to open and close the outlet 210 of the lower body 200 to interlock with the rotation of the stopper 300 ( 400); Covering the outlet 210 to be opened and closed while rotating the actuator 400 and made of a stopper 300 to be separated from the lower body 200 when the powder or the like is taken out.

At this time, the container body 1 is inserted into the guide opening 230 of the lower body 200 and the lower body 200, the upper body 100 and the outlet 210 formed with the storage space 110 is plug 300 The upper end of the stopper 300 and the upper body 100 to expose the outlet 210 of the lower body 200 while inducing the rotation of the actuator 400 and the actuator 400 rotated by the rotation of the It is made of an auxiliary plug 500 to open and close, the lower end of the upper body 100 is formed so that the quantitative storage unit 130 is embedded in the inward direction of the storage space 110, coupled with the upper body 100 The lower body 200 is a guide opening 230 for intermittent right and left movement is inserted into the traction element 310 formed in the stopper 300 in the state accommodating the actuator 400 for opening and closing the outlet 210 is Is provided, the shaft hole 240 is coupled to the shaft 430 of the actuator 400 is formed so that the actuator 400 is rotated forward, it is embedded in the lower body 200 The rotatable actuator 400 has the same shape as the quantitative storage 130 formed at the lower end of the upper body 100, and the opening and closing membrane 410 protrudes upward, and rotates in one direction of the actuator 400. The filling guide surface 420 is formed to induce filling in the quantitative storage unit 130, and the towing element 450 is formed to be rotated while being engaged with the traction element 320 of the stopper 300. A close contact surface 440 is formed to open and close the outlet 210 of the sieve 200.

Opening and closing of the lower body 200 and the stopper 300 in the present invention is a structure in which each thread (270,320) is engaged.

In addition, when the upper body 100 and the lower body 200 of the container body 1 is combined, the upper body 100 and the lower body 200 during the rotation of the stopper 300, respectively, to prevent waste A stopper is formed at the coupling parts 150 and 260, and the stopper is formed at the coupling part 150 of the upper part 100 by an opening 151 formed by cutting, and the lower body 200 is fitted into the opening part 151. The coupling portion 260 is formed as a protrusion 261 so as to protrude from the inner wall, so that the opening 151 is sandwiched in the protrusion 261 so as to prevent flattening even when the stopper 300 is rotated.

In addition, in the closed state when the close contact surface 450 of the actuator 400 opens and closes the outlet 210 of the lower body 200, the close contact surface 450 forms the outlet 210 of the lower body 200. Is located on the upper side of the support jaw (210a) is to prevent the leakage of powder or the like.

In the present invention, the opening and closing membrane 410 of the actuator 400 is the same form as the quantitative storage unit 130 to form a quantitative storage unit 130 and the discharge path 220 formed on the lower end of the upper body 100 It is made to have a curved surface with the area, and the outlet 210 is also formed while opening the same.

In addition, when the upper body 100 and the lower body 200 are assembled using a forced fitting structure, the openings 151 and the protrusions 261 formed in the respective coupling parts 150 and 260 are joined to form a stopper to form the upper body. When the stopper 300 is rotated in the state in which the 100 and the lower body 200 are assembled, it can be prevented from turning.

Quantitative storage unit 130 in the present invention is formed at the lower end of the upper body 100 to be incorporated into the coupling portion 260 formed on the upper side of the lower body 200, the quantitative storage unit 130 and the outlet 210 ) Is spaced apart by the protruding width of the opening and closing membrane 410 of the actuator 400, the discharge of the powder to move the storage space 110 and the fixed-quantity storage unit 130 by the rotation of the opening and closing membrane 410 While forming the furnace 220 or isolating the outlet 210 to form a discharge outlet 220 to be discharged to the outlet 210 is stored in the quantitative storage unit 130, or the outlet 210 through the discharge passage 220 Withdrawable).

The actuator 400 having the opening and closing membrane 410 is rotated by being coupled to the shaft hole 240 of the lower body 200 by the shaft 430. By the rotation operation of the actuator 400 is connected to the quantitative storage unit 130 and the storage space 110 of the upper body 100 so that the powder filling in the quantitative storage unit 130 or the quantitative storage unit By connecting the 130 and the discharge passage 220 in communication, it is possible to accurately discharge the powder stored in the quantitative storage unit 130.

The quantitative storage unit 130 is formed in the form of the inlet 210 is formed at the lower end of the lower body 200, the shape of the quantitative storage unit 130 is inserted into the upper side, the quantitative storage unit 130 In order to induce powder filling, an actuator 400 is provided with a filling guide surface 420 which is inclined at a predetermined angle.

Therefore, when the quantitative discharge is completed, the moving unit 400 is rotated to form the movement path 140 so that the quantitative storage unit 130 and the storage space 110 communicate with each other, and are stored in the storage space 110 as shown in FIG. 8A. The powder is collected at the lower side of the quantitative storage unit 130 along the filling guide surface 420, and when the container body 1 is inverted in this state, the powder is accurately filled only in the quantitative storage unit 130 as shown in FIG.

In this state, as shown in FIG. 8C, when the stopper 300 is opened, the actuator 400 rotates to form the discharge path 220 while the opening / closing membrane 410 isolates the quantitative storage 130 from the storage space 110. When the container body 1 is inclined as shown in FIG. 8D, only the powder stored in the quantitative storage unit 130 may be discharged through the outlet 210.

On the other hand, the container body (1) is to be made in a cylindrical shape so that the rotating operation is made in the state in which the actuator 400 is built, the container body (1) is made of a circular stopper 300 is a spiral structure By assembling the stopper 300 by rotating or separating the assembly 300 to open and close the outlet (210) while allowing the actuator 400 to rotate.

At this time, the towing element 450 and the traction element 310 to correspond to each other in the stopper 300 coupled to the actuator 400 and the lower body 200 built in the lower body 200 of the container body (1) When the actuator 300 is interlocked by the operation of the stopper 300, the actuator 400 is interlocked, and there is no need to operate the actuator 400 separately. 400 is rotated so that the outlet 210 is opened or blocked.

At this time, the traction element 310 is formed to protrude to be engaged with the towing element 450, the lower body 200 is the traction element 310 is entered into the guide opening 230 for the left and right flow is formed. Thus, the traction element 310 formed in the stopper 300 is assembled to penetrate so as to correspond to the towing element 450 of the actuator 400.

In addition, as shown in FIG. 6, the traction element 310 is formed with a plurality of protrusions so as to control the forward and reverse directions respectively, and the towing element 450 forms only one protrusion so as to operate the actuator 400 in both directions. It is desirable to make the traction of).

That is, Figure 9 shows the operating state of the towing element 310 of the stopper 300 and the towing element 450 of the actuator 400, the towing element 310 of the stopper 300 to the rotation of the stopper 300 ) Is an operation state of the actuator 400 is engaged or released with the towing element 450 of the actuator 400, Figure 10 shows the opening and closing membrane 410 by the rotation of the actuator 400 It shows a state in which the communication with the quantitative storage unit 130 of the upper body 100 is formed staggered.

In addition, the auxiliary stopper 500 in the present invention is preferably formed so as to be curved in an upward direction as shown, so that it can not always stand upright on the bottom surface, always the outlet 300 and the outlet of the lower body 200 210 can be induced to be stored upright in the form located downwards, accordingly the user lifts the powder container body upside down to remove the stopper 300, and then tilted and then immediately tilted storage unit ( It is possible to take out the powder stored in 130).

Claims (7)

1. A container body in which a discharge port is formed by a discharge path partitioned by a storage space and a partition wall, and a lower body in which a guide surface for guiding discharge of the powder stored in the storage space from the lower part of the container body through the discharge path is formed. In what consists of a stopper for opening and closing the said drawer,

   The induction surface of the lower body coupled to the lower portion of the upper body of the container body is formed to be inclined downward from one side of the storage space of the container body to the other side, the lower portion is inclined to form a fixed quantity storage unit,

   The fixed quantity storage unit is located on the same line as the discharge path,

   The outlet formed at the upper end of the storage space is expanded upward while protruding from the upper surface of the container body,

   The stopper for opening and closing the upwardly expanded outlet port is formed with a hollow pinion protrusion which is downwardly and concentrically formed, and is squeezed while being elastically actuated into the outlet of the outlet port which is upwardly expanded. .
2. The method of claim 1,

   The partition wall is made of a tubular body (13a), the powder storage container capable of quantitative discharge characterized in that it forms a moving path 14 to cut only a portion of the lower end of the tubular body to move the stored powder of the storage space to the discharge path. .
3. The method of claim 1,

   The lower body coupled to the lower portion of the container body is a powder storage container capable of quantitative discharge, characterized in that the quantitative storage portion is formed in the outer wall of the lower body, each of which is spaced apart and elastically coupled to form a close coupling with the container body.
4. The container body is inserted into the upper body and the lower body and the lower body formed in the outlet opening and the stopper and the upper portion to expose the outlet of the lower body while inducing the rotation of the actuator and the actuator is rotated by the rotation of the stopper It consists of an auxiliary stopper to open and close the top of the sieve,

   The lower end of the upper body is formed to be quantitatively stored in the inward direction of the storage space,

   The lower body coupled to the upper body is provided with a guide opening for inserting the traction element of the stopper in the state of receiving the actuator for opening and closing the outlet, the shaft hole is coupled to the shaft of the actuator so that the actuator is rotated forward Formed

   The actuator, which is inserted into the lower body and rotated, has an opening and closing membrane protruding in the same shape as the fixed quantity storage part formed at the lower end of the upper body, and a filling induction surface for inducing filling into the fixed quantity storage part by rotation of the working body. Formed, the towing element is formed to be rotated while engaging the traction element of the stopper, and the powder storage container capable of quantitative discharge that forms a close contact surface for opening and closing the outlet of the lower body during the rotation.
5. The method of claim 4, wherein

   When the upper body and the lower body of the container body is combined, the stopper is formed to prevent the upper body and the lower body,

   The stopper is formed by the opening of the coupling portion formed in the upper body and the protrusion of the coupling portion formed in the lower body so that the coupling portion is engaged, the powder storage container capable of quantitative discharge to prevent the waste dodging is caught in the protrusion.
6. The method of claim 4, wherein

   Powder storage container capable of quantitative discharge that is in close contact with the support body of the lower body in the closed state when the close contact surface of the actuator to open and close the outlet of the lower body
7. The method of claim 4, wherein

   The opening and closing membrane of the actuator is a powder storage container capable of quantitative discharge, which is made in the same form as the quantitative storage unit and the outlet port.

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