JP5183887B2 - Variable dispensing container - Google Patents

Description

The present invention relates to a variable quantitative dispenser capable retrieves the contents of Nozomu Tokoro number.

  As a portable container for using a granular material such as refreshing confectionery or tablet confectionery for dispensing, a cap for opening and closing a dispensing hole provided in a card-type case as shown in Patent Document 1, for example Containers that can be opened and closed by means of are conventionally known. As this type of container, there are many containers that have a size that can be grasped with one hand, that is, a portable size and that contains granular confectionery. Normally, these containers are opened by sliding or rotating a part of the container with a fingertip or the other hand, and receiving the opening with the palm facing downward. It is the structure which shakes out the granular material which is turned out from opening.

As shown in FIG. 38, in the conventional container described above, when the contents are swung out with the opening Q formed in the container P facing downward, particulate matter may come out from the opening Q one after another. In particular, the tendency is remarkable for spherical particles. And when a granular material comes out more than needed, it is troublesome to return in the container P. To avoid incurring such a situation is to make shake carefully wiggle while receiving palm, also vary the number of operations extraction number, only selectively taking out the number of previously contents Nozomu Tokoro Have difficulty.

  In addition, if the intake amount is different from 2 or 3 depending on age or symptoms, etc., it is not possible to cope with a quantitative extraction container that takes out only a predetermined amount, such as medicines and supplements. There's a problem.

Japanese Patent Laying-Open No. 2005-187077

  An object of the present invention is to solve these problems, and to provide a variable quantitative take-out container that can take out a desired number of contents simply by one operation when taking out the contents from the container.

In order to solve the above-mentioned problem, claim 1 of the present invention has a predetermined number of accommodating portions capable of accommodating a predetermined number of contents in a container, and at least two or more contents are taken out from the predetermined number of accommodating portions. The container having a possible opening, wherein the predetermined number accommodating portion is a partition-shaped space partitioned by a partition and capable of moving the contents from the inside of the container to be aligned in a line. A lid having a sliding mechanism that is slidable without protruding from the container covering the opening, and forms a lock mechanism that can lock the lid at an opening position where a desired number of contents can be taken out; A variable quantitative dispensing container characterized in that a body lock position is a position where an opening having a desired number of contents is formed.
The invention according to claim 2 has a predetermined number of accommodating portions capable of accommodating a predetermined number of contents in the container, and has an opening from which at least two or more contents can be taken out from the predetermined number of accommodating portions. The container is a narrow space formed by a protruding portion from which a part of the container protrudes, and the contents can be aligned in a line by moving the contents from the inside of the container. The container has a lid having a slide mechanism that is slidable without jumping out of the container covering the opening, and has a lock mechanism that can lock the lid in an opening position where a desired number of contents can be taken out. The variable quantitative take-out container is characterized in that the lid is formed so that the lock position of the lid is a position where openings of the desired number of contents are formed.
The invention described in claim 3 has a predetermined number of accommodating portions capable of accommodating a predetermined number of contents in the container, and has an opening from which at least two or more contents can be taken out from the predetermined number of accommodating portions. The container is a space that is formed by the shape of the container itself, and the container covers the opening. A lid that has a sliding mechanism that is slidable without jumping out of the container, and forms a locking mechanism in which the lid can be locked at an opening position where a desired number of contents can be taken out; Is a position where an opening having a desired number of contents is formed.

According to a fourth aspect of the present invention, the locking mechanism is engaged by an uneven portion formed at the opening position where the desired number of contents can be taken out formed on the container and the lid. The variable quantitative extraction container is characterized in that an opening capable of taking out a desired number is formed.

In addition, the invention according to claim 5 is a center rail system in which the slide engagement mechanism slides while a convex engagement member formed on the lid is fitted into a slide hole formed on the container. It is a variable fixed quantity extraction container characterized by the above-mentioned.

According to a sixth aspect of the invention, the slide mechanism is engaged with the concave rail formed on the inner periphery of the slide frame on which the lid slides, and the convex rail formed on the lid engages from the inside. It is a variable fixed quantity extraction container characterized by being an inner rail system that slides while sliding.

Further, an invention according to claim 7, wherein the slide mechanism includes a convex rail formed on lid, into concave rail formed on the slide frame, is outside the rail system for sliding while engaged from outside It is a variable fixed quantity extraction container characterized by the above-mentioned.

The invention described in claim 8 is characterized in that the lid covering the opening is a rotary lid formed so as to be rotatable around an axis formed in the container. It is.

Claim 1 of the present invention is a container having a predetermined number of accommodating parts capable of accommodating a predetermined number of contents in the container, and an opening capable of taking out at least two contents from the predetermined number of accommodating parts. The predetermined number accommodating portion is a partition-shaped space in which contents can be moved from the inside of the container and aligned in a line, and is partitioned by a partition, and the container jumps out of the container covering the opening. A lid that has a slide mechanism that is slidable without being formed, forms a lock mechanism that can lock the lid at an opening position where a desired number of contents can be taken out, and the lock position of the lid is the desired number. It is characterized by the position where an opening with the size of the contents is formed. Due to the light vibration generated in the container, a plurality of contents in the container are moved and aligned at any time into the container. Do Next to the, the contents of the desired amount, there is an effect that can be taken out.
The invention according to claim 2 has a predetermined number of accommodating portions capable of accommodating a predetermined number of contents in the container, and has an opening from which at least two or more contents can be taken out from the predetermined number of accommodating portions. The container is a narrow space formed by a protruding portion from which a part of the container protrudes, and the contents can be aligned in a line by moving the contents from the inside of the container. The container has a lid having a slide mechanism that is slidable without jumping out of the container covering the opening, and has a lock mechanism that can lock the lid in an opening position where a desired number of contents can be taken out. Formed, and the locking position of the lid body is a position where an opening having a desired number of contents is formed, so that a plurality of contents in the container can be generated by light vibration generated in the container. Is a predetermined number Will be aligned from time to time move to portion, the contents of the desired amount, there is an effect that can be taken out.
The invention described in claim 3 has a predetermined number of accommodating portions capable of accommodating a predetermined number of contents in the container, and has an opening from which at least two or more contents can be taken out from the predetermined number of accommodating portions. The container is a space that is formed by the shape of the container itself, and the container covers the opening. A lid that has a sliding mechanism that is slidable without jumping out of the container, and forms a locking mechanism in which the lid can be locked at an opening position where a desired number of contents can be taken out; Is a position where the opening of the desired number of contents is formed, so that a plurality of contents in the container can be moved into the container at any time due to light vibration generated in the container. Will be aligned Te, the contents of the desired amount, there is an effect that can be taken out.

According to a fourth aspect of the present invention, the locking mechanism is engaged by an uneven portion formed at the opening position where the desired number of contents can be taken out formed on the container and the lid. Since a desired number of openings can be formed, a lock mechanism can be formed with a simple configuration. Furthermore, a variable quantitative extraction step can be performed during a slide operation with a finger. It is possible to feel with the feeling of the ears and fingers that the lid has locked in place by a clicking sound when the concave and convex portions corresponding to the are engaged and a slight vertical movement of the lid It is.

In addition, the invention according to claim 5 is a center rail system in which the slide engagement mechanism slides while a convex engagement member formed on the lid is fitted into a slide hole formed on the container. Therefore, it is possible to form a strong slide mechanism with a simple configuration.

According to a sixth aspect of the invention, the slide mechanism is engaged with the concave rail formed on the inner periphery of the slide frame on which the lid slides, and the convex rail formed on the lid engages from the inside. Since the inner rail system is slid while moving, the lid and the slide frame can be particularly reduced in size.

Further, an invention according to claim 7, wherein the slide mechanism includes a convex rail formed on lid, into concave rail formed on the slide frame, is outside the rail system for sliding while engaged from outside Therefore, the lid can be formed small, and the slide mechanism can be formed in the thin portion of the container body.

Further, the invention according to claim 8 is characterized in that the lid covering the opening is a rotary lid formed so as to be rotatable around an axis formed in the container. The slide mechanism can be formed on the curved surface portion of the container, and the design is improved.

  Hereinafter, a configuration and an example of the variable fixed quantity extraction container 10 of the present invention will be described with reference to the drawings. FIG. 1A is a perspective view showing a closed state of a variable quantitative take-out container 10 (container 10) according to the present invention, FIG. 1B is a perspective view showing a state in which a lid 30 is opened one stage, and FIG. It is a figure which shows the state which opened the body 30 in two steps.

The take-out container 10 includes a container body 20 having an opening 9 for taking out contents, and a lid 30 that covers the opening 9 so as to be openable and closable. Each of the container body 20 and the lid body 30 is made of a plastic injection molded product, and is designed to have a size that can be gripped by hand. When taking out the contents, the container 10 is held with one hand and the opening is tilted downward, or the contents previously stored in the predetermined number of storage portions 7 described later are moved through the opening 9 by gently shaking the container. It is the structure taken out. In particular the lid 30 is in a position capable of taking out the contents of Nozomu Tokoro number, slide has a locking mechanism to stop, in this example, adjustable sliding of the lid 30 to the size of the two-step is there.

  Below, the structure of this container 10 is demonstrated. As shown in FIG. 2, the container main body 20 includes an upper container main body 21 and a lower container main body 22 that are combined to form one container 20. Is formed with a predetermined number of accommodating portions 7 partitioned by a partition 3 and an inner wall. Hereinafter, the predetermined number accommodation section 7 composed of the space partitioned by the partition 3 is referred to as a “partition type”. The upper container body 21 is formed with an opening 9 having substantially the same area as the predetermined number accommodating portion 7, and the contents accommodated in the predetermined number accommodating portion 7 are taken out from the opening 9. .

  For example, when the content B is a granular material having a cylindrical shape with a diameter of 5 mm and a height of 3 mm, and this content can be accommodated in two pieces (B, B ′), the predetermined number of accommodating portions 7 is: It is necessary to form a space having at least a width x of 5 mm and a length y of 10 mm or more. Thereby, a plurality of contents in the container are moved and aligned at any time into the predetermined number of accommodating portions 7 partitioned by the partition 3 due to light vibration generated in the container.

  In addition, the upper container body 21 is formed with a concave slide frame 27 that is a space for a lid 30 (not shown) to slide back and forth and in the horizontal direction. The opening 9 for taking out the contents is formed at one end of the slide frame 27, and an engaging member 35 of the lid 30 (not shown) is fitted in the center of the slide frame 27 while being fitted to the left and right. A slide hole 25 for sliding the cover 30 is formed, and at the other end of the slide frame 27, two lock grooves 28 for locking the slide of the lid 30 in two stages are formed. Further, the slide frame 27 has functions as left and right guides when the lid 30 slides and as front and rear slide ends.

  As shown in FIG. 3, the lid 30 for engaging with the slide frame 27 has a plurality of convex members 31 formed on the surface 33 of the lid 30, and the plurality of convex members 31. Has an effect of preventing the slipping of the finger when sliding the lid 30 and information on the direction of the slide and the lock position. Further, as shown in FIG. 3B, an engaging member 35 for engaging and sliding with the slide hole 25 formed in the container body 20 is provided at a substantially central portion of the back surface 34 of the lid 30. Is formed. A convex slide protrusion 38 is formed near the end of the back surface 34 of the lid 30, and the slide protrusion 38 is engaged with the lock groove 28 formed in the slide frame 27 of the container body 20. By doing so, it is possible to stop the slide at a predetermined position. The method in which the engaging member 35 of the lid 30 is slidably formed while being engaged with the slide hole 25 formed in the container body 20 in this manner is hereinafter referred to as “center rail method”. Further, the slide protrusion 38 (uneven member) of the lid 30 may be any one that engages with a lock groove 28 (uneven member) formed in the container body 20, which will be described later. Various shapes such as a linear protrusion are conceivable, but the shape is not limited.

  4 (a) and 4 (b), the upper container main body 21 and the lower container main body 22 are combined, and the engagement member 35 on the back surface 34 of the lid 30 is connected to the upper container main body 21. Engage with the slide hole 25 to complete the container 10 as shown in FIG. In this example, the combination of the upper container main body 21 and the lower container main body 22 shows a boss fitting method, but the container combination method can be appropriately and selectively designed according to the shape of the container.

As shown in FIG. 5, the container 10 formed as described above can adjust the opening amount of the opening 9 by locking the slide at a predetermined position (multi-stage slide). That is, the first-stage lock for taking out one content is the size (opening amount) of the opening 9 at a position where the slide protrusion 38 of the lid 30 and the lock groove 28 of the container body 20 are engaged. Is configured to have a size corresponding to one of the contents. In addition, the second-stage lock for taking out two contents includes the slide projection 38 of the lid 30 and the container body 20 so that the size of the opening 9 corresponds to two of the contents. The lock groove 28 is configured to be engaged. Thus, the locked position of the lid 30, by the position where the opening 9 magnitude of at least Nozomu Tokoro number of contents are formed, it is possible to adjust the amount of the contents removed. Further, the lock groove 28 only needs to have a shape with which the slide protrusion of the lid is engaged, and various shapes such as a concave depression, a hole, and an uneven portion can be considered, but the shape is limited. is not.

When taking out the contents of the container 10 Karasho Nozomu number is, after the lid 30 slide into a position corresponding to the desired extraction amount, by tilting the container 10, the openings 9 Karasho Nozomu amount The contents will be taken out. Subsequently, if you want to retrieve the contents of Nozomu Tokoro number, gently shaking the container 10 horizontally, by applying vibration, and the contents of the inner container is slid in the container, guiding to a predetermined number receiving section It is burned. Then, by tilting the vessel 10 can be removed similarly opening 9 Karasho Nozomu amount of the contents. Also, even if you've taken out the contents over Nozomu Tokoro amount, by tilting lightly container 10, in the empty state within a predetermined number storage portion 7, to return the contents easily from the opening 9 Can do.

  As described above, the variable quantitative take-out container 10 of the present invention is simple by covering the opening 9 for taking out a predetermined number of contents stored in the predetermined number of storage portions 7 with the multi-slidable lid 30. Only a desired number of contents can be selectively extracted depending on the configuration.

  The slide mechanism of the lid body 30 is not limited to a system (center rail system) in which the lid engaging member 35 is slidably engaged with the slide hole 25 of the container body 20 as described above. Furthermore, the “outer rail system” or “inner rail system” may be used, and the predetermined number of container portions 7 of the container main body 20 are not limited to the partition type, but will be described later, “narrow entry type” or “straight-ahead type”. Furthermore, by combining these, it is possible to form the variable quantitative take-out container 10 having a large number of patterns.

Next, an “outer rail system” will be described as an example of the slide mechanism of the lid 30.
As shown in FIG. 6, the “outer rail system” is a convex convex rail formed on the lid 30 on a concave concave rail 26 formed along the side of the slide frame 27 of the container body 20. The lid 30 is slidably formed by engaging 36 so as to be sandwiched from the outside. A multi-stage slide mechanism having a two-stage lock mechanism is obtained by engaging the two lock grooves 28 formed on the slide frame 27 and the slide protrusions 38 formed on the back surface of the lid 30 at predetermined positions. Can be formed.

  In this case, as shown in FIGS. 7A and 7B, the lid 30 is formed with convex rails 36 made of convex rails on both sides of the lid 30 along the sides of the lid 30. Has been. A convex slide protrusion 38 is formed inside the lid 30. The slide protrusions 38 are sequentially engaged with a plurality of lock grooves 28 formed on the slide frame 27 of the container body 20, whereby the lid 30 can be locked at a predetermined position.

  As shown in FIG. 8A, the container main body 20 is formed with a partition-type predetermined number accommodation section 7 partitioned by a partition 3 inside the upper container main body 21 and the lower container main body 22. The slide frame 27 of the upper container body 21 and the lower container body 22 is formed with a concave rail 26 along the side of the slide frame 27, and for stopping the sliding of the lid 30 at a predetermined position. A lock groove 28 composed of two concave grooves is formed. The position of the lock groove 28 varies depending on the length and shape of the lid 30, but at a position where the lid 30 slides and the slide of the lid 30 is gradually locked at a position where a predetermined opening amount is formed. It is formed. And after combining the upper container main body 21 and the lower container main body 22, respectively, as shown in FIG.8 (b), the convex rail 36 of the cover body 30 is inserted | pinched into the concave rail 26 of the container main body 20 from the outer side. And the container 10 is completed.

  In particular, as shown in FIG. 9, the slide mechanism of the lid 30 is configured such that the convex rail 36 of the lid 30 engages and slides from the outside to the concave rail 26 formed on the slide frame 27 of the container body 20. This is a free outer rail system. The locking mechanism for stopping the sliding of the lid 30 at a predetermined position is such that the slide protrusion 38 formed on the lid 30 is engaged with the locking groove 28 formed on the slide frame 27 in a stepwise manner. As shown in FIG. 10, a multi-stage slide that locks the slide of the lid 30 in stages is possible.

  For example, when the slide protrusion 38 formed on the lid 30 is engaged with the first-stage lock groove 28 formed on the slide frame 27 as shown in FIG. An opening 9 through which can pass is formed. Therefore, only one content can be taken out. Further, as shown in FIG. 10C, when the slide protrusion 38 of the lid 30 is engaged with the second-stage lock groove 28 ', the opening 9 through which the two contents B and B' can pass. Is formed. That is, only two contents can be taken out. In this way, by adjusting the opening area of the opening 9 for taking out the predetermined number of contents stored in the predetermined number of containers 7 by the multi-slidable lid 30, only the desired number of contents can be obtained. It is possible to selectively take out.

  In particular, when the slide mechanism of the lid body 30 is an outer rail system, the lid body 30 can be formed small, and the slide mechanism can be formed in the thin portion of the container body. The center rail method requires a slide hole 25 in addition to the opening 9, but the outer rail method does not require an opening portion such as the slide hole 25 in addition to the opening 9. The effect is good.

Next, as an example of the slide mechanism, an “inner rail system” will be described below.
In the “inner rail system”, as shown in FIG. 11, the convex rail 36 of the lid 30 is placed inside the concave rail 26 formed of a concave groove formed along the inner periphery of the slide frame 27 of the container body 20. The lid body 30 is slidably formed. The two locking grooves 28 formed on the slide frame 27 and the slide protrusions 38 formed on the back surface of the lid 30 are engaged at a predetermined position, whereby a slide mechanism having a two-stage lock mechanism is obtained. Is possible.

  In this case, as shown in FIGS. 12 (a) and 12 (b), the cover 30 is formed with a convex rail 36 on the outer periphery of the cover 30 at a position slightly lower than the surface. A convex slide protrusion 38 is formed on the back surface 34 of the lid 30 to engage with the lock groove 28 formed in the container body 20. The slide protrusions 38 are sequentially engaged with a plurality of lock grooves 28 formed on the slide frame 27 of the container body 20, whereby the lid 30 can be locked at a predetermined position.

  As shown in FIG. 13A, the container main body 20 is partitioned by a partition 3 inside the upper container main body 21 and the lower container main body 22, and has a predetermined number of sizes that can accommodate two contents. A housing portion 7 is formed. The slide frame 27 of the upper container body 21 is formed with a concave rail 26 that is concave along the inner peripheral edge of the slide frame 27, and three slides for stopping the slide of the lid 30 at a predetermined position. A lock groove 28 is formed. Then, the upper container main body 21 and the lower container main body 22 are respectively combined, and as shown in FIG. 13B, the convex rail 36 of the lid 30 is connected to the concave rail 26 of the container main body 20 on the inner side. The lid 30 is formed to be slidable by being engaged from above.

  In particular, as shown in FIG. 14A, the sliding mechanism of the lid 30 is such that the convex rail 36 formed on the lid 30 is connected to the concave rail 26 formed on the slide frame 27 of the container body 20. It is an inner rail system that slides while being engaged. Then, as shown in FIG. 14B, the slide protrusion 38 of the lid 30 is engaged with the three lock grooves (28, 28 ′, 28 ″) formed in the slide frame 27, respectively. As shown in FIG. 15, the lid 30 can be locked in accordance with three stages of locking, one-stage opening, two-stage opening.

  For example, as shown in FIG. 15A, when the slide protrusion 38 formed on the lid 30 is engaged with the first-stage lock groove 28 formed on the slide frame 27, the lid 30 is closed. As shown in FIG. 15B, when the slide protrusion 38 of the lid 30 is engaged with the second-stage lock groove 28 ', an opening 9 through which one content can pass is formed. . Therefore, only one content B can be taken out. Further, as shown in FIG. 15C, when the slide protrusion 38 of the lid 30 is engaged with the third-stage lock groove 28 '', the opening through which the two contents B and B 'can pass is provided. 9 is opened. That is, only two contents can be taken out. In this way, only the desired number of contents can be selected by adjusting the opening area of the opening 9 for taking out the predetermined number of contents stored in the predetermined number of containers 7 by the multi-slidable lid 30. Can be taken out automatically.

  In particular, there is an effect that the size of the lid 30 and the slide frame 27 can be reduced by using the inner rail system as the slide mechanism of the lid 30. The slide frame 27 only needs to have at least twice the size of the opening 9, and the lid 30 only needs to have approximately the same area as the opening 9. Further, since there is no need to provide a separate opening portion such as the slide hole 25 in the center rail system other than the opening 9, there is an effect that the container 10 is highly sealed.

  As described above, the slide mechanism of the lid 30 can be formed according to the shape of the container 10 such as a center rail system, an outer rail system, and an inner rail system. And the predetermined number accommodation part 7 can form the space which can accommodate the predetermined number of contents by simple structure by making it the partition-type space divided by the partition 3 formed in the container inside.

Further, the slide protrusion 38 formed on the lid 30 and the lock groove 28 formed on the slide frame 27 may be formed in reverse, for example, the slide protrusion 38 is formed on the slide frame 27 of the container body 20. Then, the lock groove 28 may be formed in the lid 30. Further, the variable projection take-out mechanism (slide mechanism) may be formed by forming the slide protrusions 38 in a plurality of stages and engaging the lock grooves 28 with the slide protrusions 38 in the plurality of stages.
Moreover, the formation position of the slide protrusion formed on the inner side of the lid and the lock groove formed on the slide frame is not limited to the central portion inside the lid, and may be formed closer to the left and right sides. Thereby, it is possible to prevent the slide and the lock from becoming heavy due to the downward force generated when the lid is slid while being pressed downward with a finger during sliding.

  In addition to the “partition type” partitioned by the partition 3 inside the container, the “predetermined number accommodating portion 7” may be a “narrow entry type” or “straight-ahead type”, which will be described later, and is combined with the slide mechanism. Thus, it is possible to form the variable fixed quantity extraction container 10 having various shapes.

Next, a “narrow place entry type” in which the partial shape of the container 10 itself is a space capable of accommodating a predetermined number of contents as the predetermined number accommodating portion 7 will be described. As an example of the “narrow place entry type”, as shown in FIG. 16, the protruding portion T from which a part of the container 10 protrudes is defined as a predetermined number accommodating portion 7, and an opening 9 is formed above the predetermined number accommodating portion 7. In addition, by forming the slide frame 27 in the opening 9 portion to form the above-described slide mechanism, the variable fixed quantity extraction container 10 can be formed.

For example, when applying the "center rail system" a "narrow office enters type" a predetermined number storage portion 7, and the slide mechanism, as shown in FIG. 17 (a) (b), the protruding portion T of the container, A predetermined number accommodating portion 7 capable of accommodating a maximum of two contents is formed, and an opening 9 having a size capable of taking out the two contents is formed in the upper container body 21 of the predetermined number accommodating portion 7. Then, a center rail type slide hole 25 is formed next to the opening 9, and lock grooves 28, 28 ′ that are convex inward are formed inside the slide hole 25. Then, the engaging member 35 of the lid 30 is engaged with the slide hole 25 of the upper container body 21. Then, as shown in FIG. 18, by engaging the engaging member 35 of the lid body 30 with the convex lock grooves 28, 28 ′ of the slide hole 25, a multistage slide mechanism can be formed. is there. As described above, the lock grooves 28 and 28 ′ constituting the multistage slide mechanism may be convex lock grooves 28 and 28 ′ formed inside the slide hole 25, and such a multistage slide mechanism is provided. The upper container main body 21 and the lower container main body 22 formed with the above are combined to form a variable quantitative take-out container 10 as shown in FIG.

  FIG. 19 shows a variable fixed quantity extraction container 10 in which the narrow space approach type is applied to the predetermined number of accommodating portions 7 and the center rail method is applied to the slide mechanism, and the lid body is similar to the above-described center rail type slide mechanism. The slide protrusion 38 formed on the back surface of the 30 is engaged with the convex lock grooves 28 and 28 ′ formed on the container body 20, thereby forming a multistage slide mechanism. FIG. 19A shows the time of closing, FIG. 19B shows the time of opening one stage where one content B can be taken out, and FIG. 19C shows the two contents B and B. Shown at the time of two-stage opening that can be taken out.

Next, when the “narrow entry type” is applied to the predetermined number of accommodating portions 7 and the “inner rail system” is applied to the slide mechanism, it is possible to form the variable fixed quantity take-out container 10 as shown in FIG. is there. In particular, when the inner rail system is used as the slide mechanism, the slide frame can be formed small. Therefore, it is suitable for multistage slide mechanisms such as three stages and four stages. In this case, the projecting portion T of the container 10 is used as a predetermined number accommodating portion 7, an opening 9 is formed above the predetermined number accommodating portion 7, and a slide frame 27 is formed in the opening 9 portion, thereby By forming the slide mechanism, the variable fixed quantity extraction container 10 can be formed.

For example, as shown in FIGS. 21 (a) and 21 (b), the upper container body 21 and the lower container body 22 have a protruding portion T as a predetermined number of container portions 7 that can accommodate a maximum of two contents. An opening 9 having a size allowing two contents to be taken out is formed above the predetermined number accommodating portion 7 of the main body 21, and a slide frame 27 that allows the lid 30 to slide back and forth in the opening 9 portion. Form. Then, the concave rail 26 is formed on the inner peripheral edge of the slide frame 27. Then, by combining the upper container main body 21 and the lower container main body 22 and engaging the convex rail 36 of the lid 30 with the concave rail 26 of the slide frame 27 from the inside, a variable quantitative take-out as shown in FIG. A container 10 is formed.

  FIG. 22 shows a variable fixed quantity take-out container 10 in which the narrow space approach type is applied to the predetermined number of accommodating portions 7 and the inner rail system is applied to the slide mechanism, and the lid body is similar to the above-described inner rail type slide mechanism. The slide protrusion 38 formed on the back surface of the 30 engages with the lock groove 28 formed in the container body 20 to form a multistage slide mechanism. 22 (a) shows the time of closing, FIG. 22 (b) shows the time of opening one stage where one content B can be taken out, and FIG. 22 (c) shows the two contents B, B. Shown at the time of two-stage opening that can be taken out.

Next, when the “narrow entry type” is applied to the predetermined number of accommodating portions 7 and the “outer rail method” is applied to the slide mechanism, it is possible to form the variable fixed quantity take-out container 10 as shown in FIG. It is. In particular, when the slide mechanism is an outer rail type, the cross section of the container body is suitable for a thin or thin shape. In this case, the protruding portion T of the container 10 is a predetermined number accommodating portion 7, an opening 9 is formed above the predetermined number accommodating portion 7, and a slide frame 27 is formed in the opening 9 portion to form the above-described outer rail type. By forming the slide mechanism, the variable fixed quantity extraction container 10 can be formed.

For example, as shown in FIG. 24A, a part of the tip portion of the protruding portion T of the upper container main body 21 and the lower container main body 22 is a predetermined number of accommodating portions 7 that can accommodate two contents. An opening 9 having a size that allows two contents to be taken out is formed above the predetermined number accommodating portion 7 of the container body 21, and a slide frame that allows the lid 30 to slide back and forth in the opening 9 portion. 27 is formed. Then, the concave rail 26 is formed along both side end portions of the slide frame 27. Then, as shown in FIG. 24B, the upper container body 21 and the lower container body 22 are combined, and the convex rail 36 of the lid 30 is engaged with the concave rail 26 of the slide frame 27 so as to be sandwiched from the outside. By doing so, the variable fixed quantity extraction container 10 as shown in FIG. 25 is formed.

  FIG. 25 shows the variable fixed quantity take-out container 10 in which the predetermined number of accommodating portions 7 are the narrow entrance type and the outer rail system is applied to the slide mechanism, and the lid body is similar to the above-described outer rail type slide mechanism. The slide protrusion 38 formed on the back surface of the 30 engages with the lock groove 28 formed in the container body 20 to form a multistage slide mechanism. FIG. 25 (a) shows the time of closing, FIG. 25 (b) shows the time of opening one stage where one content B can be taken out, and FIG. 25 (c) shows the two contents B, B. Shown at the time of two-stage opening that can be taken out.

As described above, the predetermined number of accommodating portions 7 are formed in the protruding portion T protruding from the container, and the above three patterns (inner rail method, outer rail method, center rail method) are combined as a slide mechanism. It is possible to form the variable quantitative removal container 10.

  In particular, when the predetermined number of accommodating portions 7 are made into a narrow space entry type, there is no need to separately form a member such as a partition inside the container, and the protruding portion of the container is used directly. A container can be formed. Furthermore, when the predetermined number of accommodating portions 7 are of a narrow space entry type, the contents can be narrowed down in the three-dimensional direction of the vertical direction, the horizontal direction, and the height direction. It is possible to form the predetermined number of accommodating portions 7 in accordance with the shape of the contents having various three-dimensional shapes. And by combining the above-mentioned slide mechanism, various slide mechanisms can be formed in accordance with the container shape.

  Next, a description will be given of the “straight-running type” as the predetermined number accommodating portion 7 in which the shape of the container 10 itself is a rectangular parallelepiped shape in which the contents can be aligned in series. To do. As an example of the “straight-running type”, as shown in FIG. 26, one end portion of the container 10 is a predetermined number accommodating portion 7, an opening 9 is formed above the predetermined number accommodating portion 7, and the opening 9 portion By forming the slide frame 27 to form the above-mentioned slide mechanism, the variable fixed quantity extraction container 10 can be formed.

  For example, when the “straight type” is applied to the predetermined number of accommodating portions 7 and the “inner rail system” is applied to the slide mechanism, the upper container body 21 and the lower container body 22 as shown in FIGS. A predetermined number accommodating portion 7 capable of accommodating two contents B and B ′, and a size capable of taking out two contents above the predetermined number accommodating portion 7 of the upper container body 21. An opening 9 having a thickness is formed, a slide frame 27 that allows the lid 30 to slide back and forth is formed in the opening 9 portion, and a concave rail 26 is formed on the inner periphery of the slide frame 27. Then, a two-stage lock groove 28 is formed in the slide frame 27. The variable container 10 as shown in FIG. 28 is obtained by combining the upper container body 21 and the lower container body 22 and engaging the convex rail 36 of the lid 30 with the concave rail 26 of the slide frame 27 from the inside. Form.

  FIG. 28 shows the variable fixed quantity take-out container 10 in which the predetermined number accommodating portion 7 is of the straight advance type and the inner rail system is applied to the slide mechanism, and is similar to the above-described inner rail type slide mechanism on the back surface of the lid 30. The formed slide protrusion 38 is engaged with the lock groove 28 formed in the container body 20 to form a multistage slide mechanism. FIG. 28A shows a closed state, FIG. 28B shows a one-stage opening where one content B can be taken out, and FIG. 28C shows two contents B and B. Shown at the time of two-stage opening that can be taken out.

  Next, when the “straight-ahead type” is applied to the predetermined number of accommodating portions 7 and the “outer rail system” is applied to the slide mechanism, it is possible to form the variable fixed quantity take-out container 10 as shown in FIG. . In this case, one end portion of the container 10 is used as the predetermined number accommodating portion 7, the opening 9 is formed above the predetermined number accommodating portion 7, and the slide frame 27 is formed in the opening 9 portion, so that the above-described outer rail type slide is formed. By forming the mechanism, it is possible to form the variable quantitative take-out container 10.

  For example, as shown in FIG. 30 (a), one end portion of the upper container main body 21 and the lower container main body 22 is used as a predetermined number accommodating portion 7 capable of accommodating two contents, and the predetermined predetermined amount of the upper container main body 21 is set. An opening 9 having a size that allows two contents to be taken out is formed on the side of the number accommodating portion 7, and a slide frame 27 that allows the lid 30 to slide back and forth is formed in the opening 9 portion. In particular, the lock groove 28 may be formed along the frame portion of the slide frame 27, and the slide protrusion 38 may be formed on the side surface portion of the lid 30. Then, as shown in FIG. 30B, the upper container body 21 and the lower container body 22 are combined, and the convex rail 36 of the lid 30 is formed on the concave rail 26 formed along both side end portions of the slide frame 27. Are engaged so as to be sandwiched from the outside to form a variable fixed quantity extraction container 10 as shown in FIG.

  FIG. 31 shows the variable fixed quantity extraction container 10 in which the straight type is applied to the predetermined number of accommodating portions 7 and the outer rail system is applied to the slide mechanism, and in particular, the slide protrusion 38 formed on the side surface portion of the lid 30 is shown. By engaging the plurality of lock grooves 28 formed along the frame portion of the slide frame 27 of the container body 20, the lock sound when the slide protrusions 38 and the lock grooves 28 are engaged is increased. It is possible to form a multistage slide mechanism in which the engagement between the lid 30 and the container body 20 is stronger. Fig. 31 (a) shows the time of closing, Fig. 31 (b) shows the time of opening one stage where one content B can be taken out, and Fig. 31 (c) shows the two contents B, B. Shown at the time of two-stage opening that can be taken out.

  Next, when the “straight-ahead type” is applied to the predetermined number of accommodating portions 7 and the “center rail system” is applied to the slide mechanism, it is possible to form the variable fixed quantity take-out container 10 as shown in FIG. . In this case, one end portion of the container 10 is used as the predetermined number accommodating portion 7, the opening 9 is formed above the predetermined number accommodating portion 7, and the slide frame 27 is formed in the opening 9 portion, so that the above-described center rail type slide is formed. By forming the mechanism, it is possible to form the variable quantitative take-out container 10.

  For example, when the straight type is applied to the predetermined number of accommodating portions 7 and the center rail system is applied to the slide mechanism, as shown in FIG. 33, three contents are attached to one end portion of the upper container body 21 and the lower container body 22. An opening 9 having a size that allows three contents to be taken out is formed in the upper container body 21 above the predetermined number storage section 7. A center rail type slide hole 25 is formed in the center, and a three-stage lock groove 28 is formed next to the slide hole 25. Then, the upper container main body 21 and the lower container main body 22 are combined, and the engaging member 35 of the lid 30 is engaged with the slide hole 25 to form the variable fixed quantity take-out container 10 as shown in FIG. .

  FIG. 34 shows the variable fixed quantity take-out container 10 in which the straight type is used for the predetermined number of accommodating portions 7 and the center rail system is applied to the slide mechanism, and the lid 30 is similar to the center rail type slide mechanism described above. The slide protrusion 38 formed on the back surface engages with the lock groove 28 formed in the container body 20 to form a multistage slide mechanism. FIG. 34 (a) shows the closed state, FIG. 34 (b) shows the one-stage opened state where one content B can be taken out, and FIG. 34 (c) shows the two content B, B. FIG. 34 (d) shows a three-stage opening when three contents B and B ′ can be taken out, respectively, at the time of two-stage opening at which “can be taken out”.

As described above, the variable quantity take- out container 10 is obtained by combining the above three patterns (inner rail system, outer rail system, and center rail system) as a slide mechanism with the predetermined number of accommodating portions 7 as a part of the container. Can be formed.

  In particular, when the predetermined number of accommodating portions 7 are of the straight type, it is not necessary to separately form a member such as a partition inside the container, and the shape of the container itself is used, so that a variable quantitative take-out container can be formed with a simple configuration. Is possible. Furthermore, by combining the above-mentioned slide mechanisms, various slide mechanisms can be formed in accordance with the container shape.

  As described above, the variable quantitative take-out container according to the present invention can form variable quantitative take-out containers having various configurations by combining various types of slide mechanisms and a predetermined number of accommodating portions. Therefore, variable quantitative take-out containers having various configurations can be formed by appropriately combining these patterns depending on the design of the container and the amount of the contents to be taken out.

  In addition, the slide mechanism and the predetermined number accommodating portion 7 of the variable fixed quantity take-out container 10 of the present invention may be formed not only on the straight portion but also on the curved portion. For example, as shown in FIG. 35, when a part of the container 10 has a semicircular shape W (curved surface part W), in addition to the above-mentioned slide mechanism, in addition to the above, a part of the container 10 A rotary slide system using a lid 30 that forms K and can rotate around the axis K may be used. As an example of the “rotating slide method”, as shown in FIG. 35, a predetermined number of accommodating portions 7 are formed on the curved surface portion of the container 10, an opening 9 is formed above the predetermined number of accommodating portions 7, and The variable fixed quantity extraction container 10 is formed by forming a rotary slide type lid that covers the opening 9 portion.

  For example, when the “partition type” is applied to the predetermined number of accommodating portions 7 and the “rotating slide method” is applied to the slide mechanism, the curved surfaces of the upper container body 21 and the lower container body 22 as shown in FIG. The portion W is formed with a predetermined number accommodating portion 7 in which a partition 3 capable of accommodating two contents is formed, and the two contents are taken out into the upper container body 21 above the predetermined number accommodating portion 7. An opening 9 having a possible size is formed, and a three-stage lock groove 28 is formed adjacent to the opening 9. Then, as shown in FIG. 36B, the upper container body 21 and the lower container body 22 are combined, and the engagement hole D of the lid 30 is engaged with the rotation axis K (axis K) of the container body 20. As a result, the variable fixed quantity extraction container 10 as shown in FIG. 37 is formed.

  FIG. 37 shows the variable fixed quantity extraction container 10 in which the partition type is applied to the predetermined number of accommodating portions 7 and the rotary slide method is applied to the slide mechanism, and is formed on the back surface of the lid body 30 in the same manner as the slide mechanism described above. The multi-slide mechanism is formed by engaging the slide protrusion 38 with the lock groove 28 formed in the container body 20. FIG. 37 (a) shows the time of closing, FIG. 37 (b) shows the time of opening one stage where one content B can be taken out, and FIG. 37 (c) shows the two contents B, B. Shown at the time of two-stage opening that can be taken out.

  In particular, it is possible to form a highly designable container by applying a rotary slide method as a slide mechanism. Furthermore, by combining the above-mentioned slide mechanisms, various slide mechanisms can be formed in accordance with the container shape.

  Thus, the variable fixed quantity extraction container 10 of the present invention can apply slide mechanisms having various configurations such as a center rail system, an inner rail system, an outer rail system, and a rotating slide system as a slide mechanism. In addition, as the predetermined number accommodation portion, it is possible to apply a predetermined number accommodation portion having various configurations such as a partition type, a narrow space entry type, and a straight advance type. Therefore, variable quantitative extraction containers having various configurations can be formed by appropriately combining these configurations according to purposes such as the type of contents and the shape of the containers.

Applications of the variable quantification dispenser of the present invention, the particulate or granular tablet菓類, vitamins, supplements, health supplements, such as accommodating a medicament, be used as a portable container capable taken out Nozomu Tokoro number Conceivable. In particular, when the contents that are ingested at a time are determined to some extent, the effects of the variable quantitative take-out container of the present invention are exhibited. In addition, the predetermined number of accommodating portions or the container main body may be formed of a transparent resin or the like, and the contents can be directly confirmed, so that the variable quantitative extraction can be more reliably performed. The shape of the container main body and the lid is not limited to a rectangular parallelepiped shape, a rod shape, or a semicircular shape as shown in FIGS. 1 to 37, and may be a polygonal shape. The shape is not limited. In addition, the contents may be various shapes such as a sugar-coated tablet and a rugby ball, as well as tablets and balls shown in the above example, and the shape of the contents is not limited. . Further, the shape of the lid 30 is not limited as long as it is a slidable shape. Furthermore, the position where the lid is attached is not limited to the top or side of the container, but also the center of the container or the container. The part which straddles the upper part and side part of may be sufficient. Further, the slide protrusion 38 of the lid 30 and the lock groove 28 of the container main body 20 may be formed as a concavo-convex member that can be engaged with each other. The lid 30 has a concave slide protrusion 38, and the container main body has a convex shape. The lock groove 28 may be used. Further, as shown in FIG. 1, the lid 30, the container body 20, in Nozomu Tokoro number retrieval position, it may be provided a display concerning the locked position as shown, locks easily desired number extraction stage Since the position can be recognized, there is an effect of increasing convenience.

(A) (b) (c) It is a figure which shows an example of the variable fixed quantity extraction container of this invention. It is a figure which shows the time of an assembly of a container main body. It is a figure which shows the (a) surface of a cover body, (b) is a figure which shows the back surface. It is explanatory drawing which shows the case of assembling a container, (a) When looking up from the bottom, (b) The case where it looks down from the top. It is explanatory drawing which shows the lock | rock of the cover body in a predetermined position. It is a figure which shows another example of the variable fixed quantity extraction container of this invention. It is a figure which shows the (a) surface and (b) inner side of a cover body. (A) It is explanatory drawing which shows the time of an assembly of a container main body, (b) It is explanatory drawing which shows the time of attachment of a cover body. It is a partial cutaway perspective view of an upper container main part which shows a slide of a lid. (A) (b) (c) It is a figure which shows the lock | rock of the cover body in a predetermined position. It is a figure which shows another example of the variable fixed quantity extraction container of this invention. It is a figure which shows the (a) surface of a cover body, (b) is a figure which shows the back surface. (A) The figure which shows the time of an assembly of a container, (b) It is a partial cutaway figure of a container. (A) (b) It is a partial cutaway figure of the container which shows the inner rail system of a slide mechanism. (A) (b) (c) It is a figure which shows the lock | rock of the cover body in a predetermined position. It is a figure which shows another example of the variable fixed quantity extraction container of this invention. It is explanatory drawing which shows the case of assembling a container, (a) When looking down from the top, (b) Looking up from the bottom. It is explanatory drawing which shows the case where it looks up from the bottom which shows the time of an assembly of a container. (A) (b) (c) It is a figure which shows the lock | rock of the cover body in a predetermined position. It is a figure which shows another example of the variable fixed quantity extraction container of this invention. It is explanatory drawing which shows the case of assembling a container, (a) When looking down from the top, (b) Looking up from the bottom. (A) (b) (c) It is a figure which shows the lock | rock of the cover body in a predetermined position. It is a figure which shows another example of the variable fixed quantity extraction container of this invention. (A) It is explanatory drawing which shows the time of an assembly of a container main body, (b) It is explanatory drawing which shows the time of attachment of a cover body. (A) (b) (c) It is a figure which shows the lock | rock of the cover body in a predetermined position. It is a figure which shows another example of the variable fixed quantity extraction container of this invention. It is explanatory drawing which shows the case of assembling a container, (a) When looking down from the top, (b) Looking up from the bottom. (A) (b) (c) It is a figure which shows the lock | rock of the cover body in a predetermined position. It is a figure which shows another example of the variable fixed quantity extraction container of this invention. (A) It is explanatory drawing which shows the time of an assembly of a container main body, (b) It is explanatory drawing which shows the time of attachment of a cover body. (A) (b) (c) It is a figure which shows the lock | rock of the cover body in a predetermined position. It is a figure which shows another example of the variable fixed quantity extraction container of this invention. It is explanatory drawing which shows the time of an assembly of a container. (A) (b) (c) (d) It is a figure which shows the lock | rock of the cover body in a predetermined position. It is a figure which shows another example of the variable fixed quantity extraction container of this invention. (A) It is explanatory drawing which shows the time of an assembly of a container main body, (b) It is explanatory drawing which shows the time of attachment of a cover body. (A) (b) (c) It is a figure which shows the lock | rock of the cover body in a predetermined position. It is explanatory drawing which shows taking out the contents in the conventional container.

Explanation of symbols

3 Partition 7 Predetermined number accommodation part 9 Opening 10 Variable fixed quantity extraction container (container)
20 Container body 21 Upper container body 22 Lower container body 25 Slide hole 26 Concave rail 27 Slide frame 28, 28 ', 28''Lock groove (uneven member)
30 Lid 31 Protruding member 33 Front surface 34 Back surface 35 Engaging member 36 Convex rail 38 Slide protrusion (uneven member)
B, B 'Contents T Protrusion K Rotation axis (axis)
W Curved part D Engagement hole

Claims (8)

A container having a predetermined number of accommodating portions capable of accommodating a predetermined number of contents in the container and having an opening from which at least two or more contents can be taken out from the predetermined number of accommodating portions;
The predetermined number accommodating portion is a partition-shaped space partitioned by a partition as the contents can be moved from the inside of the container and aligned in a line.
The container has a lid having a sliding mechanism that can slide freely without protruding from the container covering the opening, and forms a locking mechanism that can lock the lid in an opening position where a desired number of contents can be taken out. And
The variable fixed quantity extraction container according to claim 1, wherein the lock position of the lid is a position where an opening having a desired number of contents is formed. A container having a predetermined number of accommodating portions capable of accommodating a predetermined number of contents in the container and having an opening from which at least two or more contents can be taken out from the predetermined number of accommodating portions;
The predetermined number accommodating part is a narrow space formed by a protruding part from which a part of the container protrudes, while the contents can be moved from the inside of the container and aligned in a line.
The container has a lid having a sliding mechanism that can slide freely without protruding from the container covering the opening, and forms a locking mechanism that can lock the lid in an opening position where a desired number of contents can be taken out. And
The variable fixed quantity extraction container according to claim 1, wherein the lock position of the lid is a position where an opening having a desired number of contents is formed. A container having a predetermined number of accommodating portions capable of accommodating a predetermined number of contents in the container and having an opening from which at least two or more contents can be taken out from the predetermined number of accommodating portions;
The predetermined number accommodating portion is a space formed by the shape of the container itself, while the contents can be moved from the inside of the container and aligned in a line.
The container has a lid having a sliding mechanism that can slide freely without protruding from the container covering the opening, and forms a locking mechanism that can lock the lid in an opening position where a desired number of contents can be taken out. And
The variable fixed quantity extraction container according to claim 1, wherein the lock position of the lid is a position where an opening having a desired number of contents is formed. The lock mechanism has an opening that allows the desired number of contents to be taken out by engaging the concave and convex portions formed at the opening position where the desired number of contents can be taken out. The variable fixed quantity take-out container according to any one of claims 1 to 3 , which is formed. The said slide mechanism is a center rail system which slides, while the convex-shaped engagement member formed in the cover body fits into the slide hole formed in the said container. 4. The variable quantitative take-out container according to any one of 4 above. The slide mechanism is an inner rail system in which the convex rail formed on the lid slides while engaging from the inside to the concave rail formed on the inner periphery of the slide frame on which the lid slides. The variable quantitative take-out container according to any one of claims 1 to 4 , characterized in that it is characterized in that The slide mechanism is an outer rail type in which a convex rail formed on a lid slides while engaging with a concave rail formed on the slide frame from the outside. 4. The variable quantitative take-out container according to any one of 4 above. The variable quantitative take-out according to any one of claims 1 to 7, wherein the lid covering the opening is a rotary lid formed so as to be rotatable around an axis formed in the container. container.

Images