CN1822994A - Pellets storing container with device for dispensing in lower portion - Google Patents

Abstract

The present invention provides one kind of granular material storing container. The storing container includes one container body with defined granular material storing space; one granular material guiding unit set in the lower part of the container body and provided with hole for the granular material to fall; and one tray unit set inside the container body and below the granular material guiding unit for storing the granular material fallen through the hole. The tray may be ejected out from or retracted into the container body through the opening in the container body. The granular material storing container may be used by the user to take out granular material in one hand.

Description

The pellets storing container that has distributing device in the bottom

Technical field

The present invention relates generally to storage container, more specifically, relates to a kind of storage container that is used for grain, and this container makes the user easily to take out grain from container, as chewing gum grain or pill.

Background technology

Usually, grain (as chewing gum grain or pill) is dispensed on the market with the form that is compressed into reservation shape.The advantage of these grains is: because these grains are not packed individually, just can eat these grains so the user need not to divest the wrapper of grain.Yet grain becomes tide easily, therefore grain must be contained in the special-purpose storage container, and this storage container is stored grain under sealing state.

The conventional storage vessels that is used for grain generally includes: store the container body of grain therein, and by screw type engagement or powerful assembly type engage and on be tightened to lid on the open top of this container body.In order to take out some grains from conventional storage vessels, the user wants uncover, takes out the grain of requirement afterwards from container body by open top, will be tightened on the lid on the container body with sealed storage container then.

Summary of the invention

Technical matters

Yet the lid that is used for the conventional storage vessels of grain has the structure that is difficult to open, this be because lid be by screw type engagement or powerful assembly type engage and on be tightened on the open top of this container body.Like this, some users, particularly child may be not easy to open the lid of conventional storage vessels.And concerning the adult, the lid of opening conventional storage vessels with a hand also is very difficult.

Particularly, work as the user, when particularly child applies excessive power for uncover on lid, because lid opened by brute force, so can be by the open top container body that breaks away as the grain of the contents of storage container.And, as mentioned above, because even the adult can not be with hand uncover from the container body easily, so (as when driving a car) in some cases is inconvenient to use the user of their two hands, the conventional storage vessels that is used for grain is inconvenient.

Technical scheme

Thereby; made the present invention at the problems referred to above that occur in the prior art; and the purpose of this invention is to provide a kind of storage container that is used for grain, it is configured such that the user can easily take out grain with a hand from this container, as chewing gum grain or pill.

To achieve these goals, the invention provides a kind of storage container, it comprises: container body is limited with the space that is used for storing grain in it; Pellet guide unit, it comprises and is used to grain downcast hole that grain is fallen, and is set in the bottom of described container body; And tray unit, it is arranged in the described container body, be in the position of described pellet guide unit below, be used for and be stored in wherein from the grain that described grain downcast hole falls, and this tray unit ejects or is withdrawn into the described container body from described container body by the opening that forms on described container body bottom.

Described pellet guide unit can surperficial thereon upper edge towards the inclination that is directed downwards of described grain downcast hole.And described grain downcast hole can be configured to make the height of its opposite edges different.

Described storage container also can comprise: resilient bias, and it applies elastic force along ejection direction to described tray unit; And lock cell, it locks described tray unit, thereby described tray unit is remained on retracted position.And this lock cell can comprise: lock(ing) bolt, and it is arranged in the described tray unit, thereby by the spring biased downward; And holding element, it is arranged in the described container body, be positioned at the residing position of described lock(ing) bolt when described tray unit is in described retracted position, thereby when retracted orientation promotes described tray unit, this holding element is by singly touching the actuating mode and lock or discharging described tray unit.

Described storage container also can comprise pellet stop unit, this pellet stop unit is arranged in the described container body, with prevent described grain at described tray unit by At time of eject, drop in the back space that between the inside face of the rear end of described tray unit and described container body, forms.

Thereby described tray unit can comprise the grain exit door that joins rotation on the described tray unit to, thereby allows to take out described grain from described tray unit.And this tray unit can comprise: sloping portion, this sloping portion are gently downward-sloping in the part from its rear end to the intermediate portion, and downward-sloping precipitously in another part of assigning to its front end from the intermediate portion; And pellet storage space, it is arranged in the front portion of described tray unit, and its size is suitable for storing therein one or more grains.

Described storage container also can comprise the anchor clamps on the air grid that is releasably attached to automobile.And, these anchor clamps can be on its first end place removably joins in a plurality of clamp seat slot that are formed on the described container body one to, and these anchor clamps can be configured to clip at its second end place form to be being opened, thereby is releasably attached on the described air grid.In addition, these anchor clamps can be installed on the described container body, thereby rotate between level attitude and upright position, and this upright position and level attitude are downward spaced apart angledly.

Beneficial effect

The invention provides a kind of storage container that is used for grain, this storage container has tray unit in the bottom of container body, thereby this tray unit ejects or is withdrawn into the described container body from described container body by singly touching the actuating mode.Described tray unit is stored one or more grains therein, and therefore the advantage of described storage container is, the user can easily take out described grain with a hand from described container body.

And storage container of the present invention is releasably attached on the air grid of automobile by the anchor clamps that are arranged on the described container body, thereby the user can easily take out described grain with a hand from described container body when driving a car.Therefore, the user can use described storage container easily when driving a car, and can disperse his/her attention with avoiding.

Description of drawings

From detailed description below in conjunction with accompanying drawing, will be expressly understood above and other purpose, feature and other advantage of the present invention more, in these accompanying drawings:

Fig. 1 is the block diagram of expression according to the storage container of first embodiment of the invention;

Fig. 2 is the exploded perspective view of the storage container of Fig. 1;

Fig. 3 is the section drawing of expression according to the pellet guide unit of the storage container of first embodiment of the invention;

Fig. 4 and Fig. 5 show the tray unit concrete parts on every side according to the storage container of first embodiment of the invention for the line A-A along Fig. 2 cuts open the section drawing of getting;

Fig. 6 is the block diagram of expression according to the storage container outward appearance of second embodiment of the invention;

Fig. 7 is the exploded perspective view of expression according to the structure of the storage container of second embodiment of the invention;

Fig. 8 is the rear perspective view according to the storage container of second embodiment of the invention, and wherein lid separates with clamp;

Fig. 9 is according to the section drawing of concrete parts around the tray unit of the storage container of second embodiment of the invention, shows the operation of storage container when tray unit is in retracted mode; With

Figure 10 is according to the section drawing of concrete parts around the tray unit of the storage container of second embodiment of the invention, shows the operation of storage container when tray unit is in the ejection state.

The specific embodiment

Referring now to accompanying drawing, wherein in all different figure, adopt identical Reference numeral to refer to identical or similar parts.

Fig. 1 is the block diagram of expression according to the storage container of first embodiment of the invention.Fig. 2 is the exploded perspective view of the storage container of Fig. 1.

As depicted in figs. 1 and 2, the storage container that is used for grain according to first embodiment of the invention is included in the container body 10 of wherein storing grain P.This storage container also comprises: pellet guide unit 20, and it is arranged in the container body 10, so that the grain P in the main body 10 controllably falls; And tray unit 30, it is arranged in the bottom of container body 10, grain P controllably is distributed to the outside of main body 10.In the present invention, each grain P is configured as the square body with circular corner and surface.Yet the shape of grain P is not limited to above-mentioned square configuration.

The container body 10 that contents (being grain P, as chewing gum grain, chocolate dragee or pill) are contained in is wherein made by plastics (that is synthetic resin material).Container body 10 can be designed to the form of cylinder form or square configuration in a conventional manner.Replacedly, container body 10 can be designed to attract various role's forms of child attention.Seal cover cap 12 engages the open top that is installed in container body 10 by screw type engagement or powerful assembly type.And, on the bottom of container body 10 sidewalls, form tray openings 14, thereby tray unit 30 ejects from container body 10 and is withdrawn in the container body 10 by tray openings 14.Lower house 11 is installed on the open lower end of container body 10 and is in the position of tray unit 30 belows, thus the open lower end of closing containers main body 10.

Pellet guide unit 20 is installed in the container body 10 and is positioned at the position of tray unit 30 tops, grain P in this pellet guide unit guiding container body 10, thus make grain P be distributed to the outside of container body 10 in check pellet distribution mode.Pellet guide unit 20 part therebetween has grain downcast hole 22.This grain downcast hole 22 has rectangular shape with corresponding with the shape of tray unit 30 upper surfaces.The width of grain downcast hole 22 is a bit larger tham the length of the every side of grain P, thereby the grain P under the horizontal positioned state can pass through this grain downcast hole 22 successively.

Pellet guide unit 20 comprises: left guiding piece 23 and the right guiding piece 24 that is provided with along the relative longer edges of rectangle grain downcast hole 22 respectively, and respectively along the relative preceding guiding piece 25 and the back guiding piece 26 that is provided with than the minor face edge of grain downcast hole 22.Above-mentioned guiding piece 23,24,25 and 26 is provided at inclined downward on the direction at grain downcast hole 22 edges respectively, thereby each grain P can both slip over these guiding pieces downwards towards grain downcast hole 22, drops in the tray unit 30 by grain downcast hole 22 thus.

Fig. 3 is the section drawing of expression according to the pellet guide unit 20 of the storage container of first embodiment of the invention.As shown in the figure, grain downcast hole 22 is configured such that the height at edge in the hole 22 around left guiding piece 23 and right guiding piece 24 is different.The design of the above-mentioned differing heights of the opposite edges of grain downcast hole 22 is for following consideration.When the opposite edges of grain downcast hole 22 were designed to have equal height, two or more grain P can move on left guiding piece 23 and right guiding piece 24 and arrive grain downcast hole 22 simultaneously.Under above state, grain P may interfere mutually and support mutually, thereby is stuck in the entrance in hole 22, and impassabitity hole 22 (seeing the dotted line among Fig. 3).For fear of this interference between the grain P of grain downcast hole 22 entrance, the edge configuration in left guiding piece 23 and right guiding piece 24 hole 22 on every side becomes to have different height.Therefore, even when two or more grain P arrive hole 22 simultaneously after moving on left guiding piece 23 and right guiding piece 24, grain P also can be in the hole 22 entrance stacked mutually, thereby one by one smoothly by hole 22 (seeing the solid line among Fig. 3).

Preceding guiding piece 25 extends upward, and has the crooked backward (see figure 4) in part place of predetermined altitude H at it.Before the height H of sweep of guiding piece 25 almost equate with the height of each grain P when the grain P horizontal positioned.Thereby the sweep of preceding guiding piece 25 prevents that at each grain P grain P enters grain downcast hole 22 with the state of vertical placement when left guiding piece 23 and right guiding piece 24 arrives holes 22.

Fig. 4 and Fig. 5 be for cuing open the section drawing of getting along the line A-A of Fig. 2, thereby show according to the concrete parts around the tray unit of the storage container of first embodiment of the invention.

As Fig. 2, Fig. 4 and shown in Figure 5, tray unit 30 is installed in the container body 10, thereby this tray unit 30 can eject from main body 10 by tray openings 14 and be withdrawn in the main body 10.Tray unit 30 has the structure of drawer-like, and it has open top so that grain P is contained in wherein.Therefore, the grain P that falls from the grain downcast hole 22 of pellet guide unit 20 can be accommodated in the tray unit 30.

Preferably, tray unit 30 is provided with the pellet distribution control unit, optionally closing grain downcast hole 22, and controls the pellet distribution of container simultaneously, thereby once only discharges a grain P.

The pellet distribution control unit comprises the swash plate 32 that is installed in the pellet storage space S, and this space S is limited in the top of tray unit 30.Swash plate 32 gently is inclined upwardly on the direction at rear portion in the front portion from tray unit 30.The height of swash plate 32 rear ends is the height of tray unit 30 no better than, thereby the pellet storage space S of tray unit 30 only can hold a grain P therein.Under above state,, in the process that tray unit 30 is ejected, blocked by the upper limb of tray openings 14 owing to the certain tilt structure of swash plate 32 with another the overlapping grain of grain that is contained in the storage space S.Therefore, the pellet distribution control unit has prevented to distribute simultaneously several stacked grains mutually.

Simultaneously, when ejection tray unit 30, form back space in tray unit 30 back, thereby grain P can fall into this back space, disturbs the ejection and the withdrawal of tray unit 30 thus.Therefore, pellet stop unit 34 is set in lower house 14, enters in the back space to prevent grain P.

This pellet stop unit 34 comprises the plastic sheet in the lower space that is inserted into tray unit 30, and in the following time of retracted mode in tray unit 30 is held in place container body 10, this pellet stop unit is limited to the below of swash plate 32.Simultaneously, when from container body ejection tray unit 30, this plastic sheet of pellet stop unit 34 is closed the back space that is formed on tray unit 30 back.Thereby pellet stop unit 34 prevents that grain P from entering in this back space.

Failure-free moves for tray unit 30 stablize in the process that ejects by tray openings 14 with withdrawal, preferably tray 40 all is set at lower house 11 and tray unit 30 in the two.

This tray 40 comprises: resilient bias 50, and it applies elastic force along ejection direction to tray unit 30; And lock cell 60, it optionally is locked in tray unit 30 retracted position in the lower house 11.

Resilient bias 50 comprises that on even keel is installed in the coil spring 52 between tray unit 30 and the lower house 11.In above-mentioned state, the two ends of spring 52 are enclosed within respectively from two guide posts 54 of tray unit 30 and lower house 11 protrusions.Therefore, coil spring 52 remains on assigned address under it is in the state of elastic deformation.

Lock cell 60 is installed between lower house 11 and the tray unit 30, and comprises lock(ing) bolt 64 and guiding piece 70.This lock(ing) bolt 64 is installed in the back-up block 37 that is arranged on the tray unit 30 rear wall outside faces, and a spring 62 is installed in the back-up block 37 with biased downward lock(ing) bolt 64.Guiding piece 70 is arranged on the lower house 11 diapire inside faces, with the horizontal motion of guiding lock(ing) bolt 64.Guiding piece 70 has guide recess 72, thereby lock(ing) bolt 64 is inserted in this guide recess 72, to move at tray unit 30 to be ejected or to move along guide recess 72 when withdrawing.Lock cell 60 also comprises the holding element 80 that wherein has path of navigation.This holding element 80 is arranged on the inside face of lower house 11 diapires, and is positioned at the position of the back of guide recess 72 rear ends, thereby makes path of navigation be communicated with continuously with guide recess 72.Therefore, holding element 80 optionally stops lock(ing) bolt 64 within it and perhaps to unclamp lock(ing) bolt 64, so that tray unit 30 is ejected so that tray unit 30 is locked in retracted mode.

Specifically, holding element 80 has diamond sunk, and is provided with heart-shaped protrusion 82 in this depression.Therefore, path of navigation is limited in this depression.In addition, holding element 80 is a bevelled on the lower surface of path of navigation especially, thereby makes that the rear portion of path of navigation is higher than anterior, and the left part of path of navigation has the different gradients with right part.More particularly, if based on first turning 84 of caving in, then the grade ratio towards second turning 85 that is positioned at the right side is little towards the gradient at the 3rd turning 86 that is positioned at the left side.Simultaneously, if based on the 4th turning 87, then the grade ratio towards the 3rd turning 86 is little towards the gradient at second turning 85.Therefore, when the user promotes tray unit 30 by at compression coil spring 52 time and makes tray unit 30 be withdrawn in the container body 10, lock(ing) bolt 64 enters first turning 84, and subsequently, towards second turning 85 with minor grade along the path of navigation upward movement.Further promote tray unit 30 the user, so that lock(ing) bolt 64 further moves in the same direction and when arriving the 4th turning 87, lock(ing) bolt 64 enters the locking seat 83 that is limited by heart-shaped protrusion 82.Lock(ing) bolt 64 remains in the locking seat 83, thereby tray unit 30 is locked in the retracted mode (see figure 4).

Simultaneously, for from container body 10 ejection tray unit 30, the tray unit 30 that the user has promoted to withdraw so that lock(ing) bolt 64 leaves the locking seat 83 around the 4th turning 87, and moves downward along path of navigation towards the 3rd turning 86 with minor grade.In above state, 52 pairs of tray units 30 of coil spring apply elastic force, so that tray unit 30 moves along ejection direction.Lock(ing) bolt 64 arrives first turning 84 and enters guide recess 72, arrives the front end 74 of guide recess 72 to travel forward, and the ejection of tray unit 30 stops (see figure 5) at these front end 74 places.

Certainly, the structure that should understand tray 40 is not limited to said structure, but can be configured to various ways under the situation that does not influence operation of the present invention.For example, tray 40 can be configured to the form by the conventional confguration of one touch type press-button actuated, and wherein, when the user pressed once this one touch type button, tray unit is withdrawal just, and when the user pressed this button once more, tray unit was just ejected.

Below description is had operation according to the storage container of the said structure of first embodiment of the invention.

At first, after seal cover cap 12 was removed from main body 10, the open top by main body 10 was contained in the grain P of requirement in the container body 10.Like this, because the weight of each grain P, some grain P move downward along the inclined surface of guidance unit 20, thereby grain P is stacked in the entrance of grain downcast hole 22 mutually, and are contained in the tray unit 30 by hole 22 along continuous.That is to say that grain P is guided to grain downcast hole 22 by left guiding piece 23, right guiding piece 24 and back guiding piece 26, and is controlled at suitable position by preceding guiding piece 25, thereby passes through hole 22 with the state of horizontal positioned.Like this, a grain P just is contained in the pellet storage space S of tray unit 30, and another grain is stacked on the grain of placing in the tray unit 30.

For grain P is taken out from container, the user promotes once to be retracted in the tray unit 30 in the container body 10, so that tray unit 30 flexibly ejects from container body 10 under the operation effect of tray 40.In above state,, be stacked in mutually among the grain P on the tray unit 30 and have only one to be distributed by the operation of swash plate 32.

Take out grain P from the tray unit 30 that ejects after, the user promotes tray unit once more, makes tray unit 30 be withdrawn in the container body 10 by tray openings 14, and is locked in retracted mode under the operation effect of tray 40.That is to say that when the user made tray unit 30 be withdrawn in the container body 10, tray 40 guided the motion of tray units 30, and tray unit 30 is locked in retracted mode.When tray unit 30 arrived its retracted position, the storage space S of the sky of tray unit 30 just will be received in wherein by another grain P of grain downcast hole 22.

In Fig. 2, Reference numeral 38 and 39 each all represented in the ejection and withdrawal process of tray unit the position control projection that the position of the grain P in the container body 10 is controlled.Primary importance control projection 38 is arranged on the lateral edges of swash plate 32, thereby primary importance control projection 38 can make the grain P rotation of undesirable position in the storage space S that is stored in tray unit 30.Therefore, can the grain P at desired location place be corrected to the desired location place with being in not.Second place control projection 39 is arranged on the centre portion of swash plate 32, thereby the grain P that can will be collected on the centre portion of swash plate 32 together is distributed to left guiding piece 23 and right guiding piece 24.

The invention pattern

Fig. 6 is the block diagram of expression according to the storage container outward appearance of second embodiment of the invention.Fig. 7 is the exploded perspective view of Fig. 6.Fig. 8 is the rear perspective view according to the storage container of second embodiment, and wherein lid separates with clamp.

The storage container that is used for grain according to second embodiment comprises container body C, and this container body C is limited with the space therein with storage grain P.This storage container also comprises the pellet guide unit 150 of the bottom that is arranged on container body C, is used to guide grain P, thereby one or more grain P are dropped into downwards in the tray unit 170.This tray unit 170 is arranged in the container body C and is positioned at the position of pellet guide unit 150 belows, thereby the tray openings 132 of tray unit 170 by on the bottom of container body C sidewall, forming, and eject or be withdrawn into the container body C from container body C.

Container body C comprises upper shell 110 and lower house 130, and grain P is stored in the upper shell 110, and lower house 130 is installed in the lower end of upper shell 110, thereby forms a space, and pellet guide unit 150 is in this space.The open top of upper shell 110 is coated with seal cover cap 112, and sealing lid 112 engages by screw type engagement or powerful assembly type and is installed on the top of upper shell 110.Like this, can open the top of upper shell 110 as required.

And container body C has the structure that is releasably attached on the interior required part of automobile.In the present embodiment, container body C has anchor clamps 190 on the predetermined portions of upper shell 110, thereby container body C is releasably attached on the air grid by anchor clamps 190, and this air grid is arranged in the automobile car in order to regulate the air in the car.

Specifically, for anchor clamps 190 are set on container body C, rectangle clamp 114 is outstanding on the predetermined portions of the outside face of upper shell 110.Clamp 114 is coated with openable when needed rectangular cover 116.

On the outside face of upper shell 110, in the predetermined portions that is surrounded by rectangle clamp 114, on even keel forms the clamp seat slot 118 with preset width and length.And, be formed with securing rod 119 along lower edge on each of clamp seat slot 118, make that securing rod 119 is opposed mutually up and down.On each of the clamp seat slot 118 that has securing rod 119 on the predetermined portions of lower edge (preferably, on each of conduit 118 on the centre portion of lower edge) be formed with recess 119a.Like this, changed the gap between the last lower edge of the clamp seat slot 118 that has securing rod 119, made that the gap around recess 119a is bigger than the gap of the other parts of clamp seat slot 118.In the present invention, preferably on the outside face of upper shell 110, form two or more clamp seat slot 118, and between conduit 118, be formed with perpendicular separation.Like this, the storage container with anchor clamps 190 can be matched be installed on the multiple automobile air grid with different size and shape.

In the present invention, two or more anchor clamps 190 are set on storage container preferably, make each anchor clamps 190 removably join on the clamp seat slot 118 of hope at one end place.Each anchor clamps 190 includes the fittings body 192 in the clamp seat slot 118 that is assemblied in hope, and joins on the fittings body 192 with the pivot arm part 194 with respect to fittings body 192 rotation predetermined angulars.This fittings body 192 has rectangular cross section, and has predetermined size so that fittings body 192 is assembled in the clamp seat slot 118 reliably by the wider portion with recess 119a.Fittings body 192 is respectively equipped with assembling groove 192a on the lower surface thereon, thereby fittings body 192 engages with securing rod 119 up and down at assembling groove 192a place.Pivot arm part 194 by articulated joint to fittings body 192, thereby arm portion 194 rotates between level attitude and upright position with respect to the fittings body 192 that is assembled on the clamp seat slot 118, and this upright position becomes an angle of 90 degrees degree spaced apart downwards with respect to described level attitude.The outer end of pivot arm part 194 is constructed to be permeable to the clip-type that elasticity is opened, thereby pivot arm part 194 is releasably attached on the air grid.

Pellet guide unit 150 is installed in the container body C, and is placed on the connecting portion office between upper shell 110 and the lower house 130.Pellet guide unit 150 has the grain downcast hole 152 that runs through pellet guide unit 150 formation, thereby grain P falls by hole 152.Grain downcast hole 152 has rectangular shape, and its long axis extends and be parallel with the diameter of container body C.

Grain downcast hole 152 an also shorter side place in two shorter side is an opening.Because the open side in hole 152, pellet guide unit 150 is an opening in its outer peripheral front portion, thereby forms open front 153.Surperficial thereon 154 upper edges of pellet guide unit 150 are towards the direction of grain downcast hole 152 and downward-sloping.Like this, the upper surface 154 of pellet guide unit 150 forms inclined surface, so that grain P is guided to grain downcast hole 152.

Certainly, the size of grain downcast hole 152 width is suitable for allowing each grain P to fall by hole 152.

Tray unit 170 is installed in the lower house 130, thereby tray unit 170 will temporarily be stored in wherein by the grain P that grain downcast hole 152 falls.Tray unit 170 is ejected or is retracted back in the lower house 130 from lower house 130 by the tray openings 132 that forms on the bottom of lower house 130 sidewalls.In above state, tray unit 170 ejected or the sense of motion of withdrawing parallel with the longitudinal direction of grain downcast hole 152.

Tray unit 170 comprises two vertical sidewalls 172, and these two sidewalls are provided with based on the longitudinal axis of tray unit 170 left side and the right side along tray unit 170.Grain exit door 174 is by the bottom of articulated joint to two vertical sidewall 172 front ends, to rotate around hinge.The upper surface 171 of tray unit 170 (surrounding) by two vertical sidewalls 172 and grain exit door 174 at its rear portion (from the rear end of upper surface 171 to centre portion) gently downward-sloping.Upper surface 171 in its front portion (from the centre part to front end) downward-sloping also precipitously, thereby be formed with pellet storage space 176 in the front portion of tray unit 170.The size of pellet storage space 176 is suitable for storing therein one or more grain P.In above state, grain exit door 174 is installed in the front end of two sidewalls 172 by hinge, thereby door 174 rotates between the upright position of closing tray unit 170 front ends and open position, at this open position, door 174 is opened enough angles fully forward and downwards, thereby allows the user to take out grain P from pellet storage space 176.

And pellet stop unit 178 is arranged in the lower house 130, thereby prevents that grain P drops in the back space that forms between the inside face of the rear end of tray unit 170 and container body C after tray unit 170 is ejected.Pellet stop unit 178 comprises that this rectangular plate and open front 153 are opposed by the rectangular plate of articulated joint to pellet guide unit 150 rear ends.Like this, the rectangular plate of pellet stop unit 178 rotates up and down around hinge.As Fig. 9 and shown in Figure 10, pellet stop unit 178 is inserted into to be held in the conduit 180, and this holds conduit 180 and extends to the middle part from the rear end of tray unit 170.

In the present invention, can a plurality of retainer (not shown) be set the pre-position in container body, in order to the ejection and the retracted position of restriction tray unit 170.Here be not described in detail the retainer of above-mentioned restriction tray unit 170 positions.

The upper surface 171 of tray unit 170 is provided with a plurality of lateral edges of upper surface 171 and position control projections 182 and 183 on the centre portion of being separately positioned on.Because above-mentioned projection 182 and 183, grain P can be easily grain downcast hole 152 by grain guiding piece 150 fall, and move to pellet storage space 176 smoothly along the upper surface 171 of tray unit 170.

In addition, the storage container of second embodiment comprises tray, the failure-free motion to allow tray unit 170 to stablize in the process that ejects by tray openings 132 and withdraw.This tray comprises: two resilient bias 184, and they apply elastic force along ejection direction to tray unit 170; And lock cell, it remains on retracted mode with tray unit 170.Resilient bias 184 preferably includes coil spring.

Resilient bias 184 as described below being installed among the container body C.Two longitudinal guide posts 185 are separately positioned on the bottom of tray unit 170, thereby these guide posts 185 extend in the axial direction, and sliding part 186 is enclosed within two guide posts 185 each movingly.Two resilient bias 184 are enclosed within respectively on two guide posts 185, thereby resilient bias 184 is along making sliding part 186 apply elastic force from the direction that guide post 185 extends to tray unit 170.The rear end of sliding part 186 is placed on respectively in the slider bar conduit 131 that is arranged in the lower house 130.

In the present invention, can freely design lock cell with traditional one touch type actuating structure, wherein when tray unit is pushed one time on retracted orientation, tray unit can be contracted to be locked in retracted mode, and when tray unit was promoted on identical direction once more, tray unit can be ejected.

In the present embodiment, lock cell comprises lock(ing) bolt 162, and it is installed in tray unit 170 rear end lower with by spring 161 biased downward.This lock(ing) bolt 162 also engages with guide recess 134, and this guide recess 134 is arranged on the inside face of lower house 130 diapires along the direction parallel with moving of tray unit 170, thereby lock(ing) bolt 162 moves along guide recess 134.This lock cell also comprises the holding element 164 that is arranged on lower house 130 diapires, and this holding element is in such position, that is, and and the lock(ing) bolt 162 that moves simultaneously with tray unit 170 residing position in tray unit 170 is fully retracted to container body C the time.

Specifically, holding element 164 comprises depression, thereby for lock(ing) bolt 162 provides path of navigation, and be provided with heart-shaped protrusion at the middle part of this depression.In addition, holding element 164 is provided with the triangle locking seat towards this heart-shaped protrusion.The bottom surface of the path of navigation of holding element 164 specifically tilts, thereby make a part of bottom surface around the inlet of path of navigation have the less gradient, thereby and gently be inclined upwardly and form acclivitous surface, and another part bottom surface around the outlet of path of navigation is gently downward-sloping to form downward-sloping surface.Like this, along tray unit 170 of retracted orientation promotion the time, lock(ing) bolt 162 moves backward from the inlet of path of navigation, to lock the space between the seat by heart-shaped protrusion and triangle, thereby be maintained in the locking seat, so that tray unit 170 is locked in retracted mode.Simultaneously, when once more when retracted orientation promotes tray unit 170, lock(ing) bolt 162 passes the outlet of path of navigation and breaks away from the path of navigation of holding element 164 under the effect of the elastic force of spring 184.Therefore, tray unit 170 is ejected.

Have according to the operation of the storage container of the said structure of second embodiment as follows.

At first, the grain P of requirement is contained in the container body C, then, container body C is installed on the air grid of automobile by anchor clamps 190.

In above state, some grain P that are contained in the container body C bottom move downward along the upper surface 154 of pellet guide unit 150, thereby one or more grain P falls by grain downcast hole 152.Then, the grain P that falls from pellet guide unit 150 along the upper surface 171 of tray unit 170 to lower slider, to be stored in the pellet storage space 176.In above state, when tray unit 170 is maintained at the retracted position of tray unit 170 by stopping at lock(ing) bolt 162 in the holding element 164, be one or more from pallet guidance unit 150 by the quantity that grain downcast hole 152 falls with the grain P in the storage space 176 that is stored in tray unit 170 simultaneously.

When the user promoted to be in the tray unit 170 of above state, lock(ing) bolt 162 broke away from holding element 164, thereby resilient bias 184 flexibly ejects tray unit 170 from container body C.Like this, the user can take out one or more grain P from the pellet storage space 176 of the tray unit 170 that ejects.In above state, the user can open grain exit door 174, to take out grain P more easily from tray unit 170.

After the tray unit 170 that ejects takes out one or more grain P, the user promotes tray unit 170 once more, while elasticity of compression bias piece 184, thus tray unit 170 is withdrawn among the container body C.When tray unit 170 was fully retracted among the container body C, lock(ing) bolt 162 stopped in the holding element 164, thereby made tray unit 170 be locked in retracted mode and can not ejected by accident.

Industrial applicibility

The invention provides a kind of storage container for shot-like particle, this container structure becomes to allow to use The person takes out described shot-like particle with a hand from described container, such as chewing gum grain or pill.

Claims

(according to the modification of the 19th of treaty)

1, a kind of storage container, it comprises:

Container body is limited with the space that is used for storing grain therein;

Pellet guide unit, it comprises and is used for the grain downcast hole that falls for described grain, and this pellet guide unit is arranged in the bottom of described container body;

Tray unit, it is arranged in the described container body and is positioned at the position of described pellet guide unit below, be used for and be stored in wherein from the grain that described grain downcast hole falls, and this tray unit ejects or is withdrawn into the described container body from described container body by the opening that forms on the bottom of described container body;

Resilient bias is used for along ejection direction described tray unit being applied elastic force;

Lock cell is used to lock described tray unit, thereby described tray unit is remained on retracted position; And

Pellet stop unit, it is arranged in the described container body, with prevent described grain at described tray unit by At time of eject, drop in the back space that between the inside face of the rear end of described tray unit and described container body, forms.

2, storage container according to claim 1 is characterized in that, the surperficial thereon upper edge of described pellet guide unit is towards the inclination that is directed downwards of described grain downcast hole.

3, storage container according to claim 1 is characterized in that, described grain downcast hole is configured to make the height of its opposite edges different.

4, storage container according to claim 1 is characterized in that, described lock cell comprises:

Lock(ing) bolt, it is arranged in the described tray unit, thereby by the spring biased downward; And

Holding element, it is arranged in the described container body and is positioned at such position, this position is the residing position of described lock(ing) bolt when described tray unit is in described retracted position, thereby when retracted orientation was pushed, this holding element locked by one touch type actuating mode or discharges described tray unit at described tray unit.

5, storage container according to claim 1 is characterized in that, thereby described tray unit comprises the grain exit door that joins rotation on the described tray unit to, thereby allows to take out described grain from described tray unit.

6, storage container according to claim 1 is characterized in that, described tray unit comprises:

Sloping portion, this sloping portion is gently downward-sloping in from the rear end of described tray unit to the part of intermediate portion, and downward-sloping precipitously in from the centre portion of described tray unit to another part of its front end; And

Pellet storage space, it is arranged in the front portion of described tray unit, and its size is suitable for storing therein one or more grains.

7, according to each described storage container in the claim 1 to 6, it is characterized in that, also comprise:

Anchor clamps, it is releasably attached on the air grid of automobile.

8, storage container according to claim 7, it is characterized in that, described anchor clamps are on its first end place removably joins in a plurality of clamp seat slot that are formed on the described container body one to, and these anchor clamps are configured to clip-type being opened at its second end place, thereby are releasably attached on the air grid of automobile.

9, storage container according to claim 7 is characterized in that, described anchor clamps are installed on the described container body, thereby rotates between level attitude and upright position, and this upright position and described level attitude are angledly spaced apart downwards.

Claims (11)

1, a kind of storage container, it comprises:

Container body is limited with the space that is used for storing grain therein;

Pellet guide unit, it comprises and is used for the grain downcast hole that falls for described grain, and this pellet guide unit is arranged in the bottom of described container body; And

Tray unit, it is arranged in the described container body and is positioned at the position of described pellet guide unit below, be used for and be stored in wherein from the grain that described grain downcast hole falls, and this tray unit ejects or is withdrawn into the described container body from described container body by the opening that forms on the bottom of described container body.

2, storage container according to claim 1 is characterized in that, the surperficial thereon upper edge of described pellet guide unit is towards the inclination that is directed downwards of described grain downcast hole.

3, storage container according to claim 2 is characterized in that, described grain downcast hole is configured to make the height of its opposite edges different.

4, storage container according to claim 1 is characterized in that, also comprises:

Resilient bias is used for along ejection direction described tray unit being applied elastic force; And

Lock cell is used to lock described tray unit, thereby described tray unit is remained on retracted position.

5, storage container according to claim 4 is characterized in that, described lock cell comprises:

Lock(ing) bolt, it is arranged in the described tray unit, thereby by the spring biased downward; And

Holding element, it is arranged in the described container body and is positioned at such position, this position is the residing position of described lock(ing) bolt when described tray unit is in described retracted position, thereby when retracted orientation was pushed, described holding element locked by one touch type actuating mode or discharges described tray unit at described tray unit.

6, storage container according to claim 4 is characterized in that, also comprises:

Pellet stop unit, it is arranged in the described container body, with prevent described grain at described tray unit by At time of eject, drop in the back space that between the inside face of the rear end of described tray unit and described container body, forms.

7, storage container according to claim 1 is characterized in that, thereby described tray unit comprises the grain exit door that joins rotation on the described tray unit to, thereby allows to take out described grain from described tray unit.

8, storage container according to claim 7 is characterized in that, described tray unit comprises:

Sloping portion, this sloping portion is gently downward-sloping in from the rear end of described tray unit to the part of intermediate portion, and downward-sloping precipitously in from the centre portion of described tray unit to another part of its front end; And

Pellet storage space, it is arranged in the front portion of described tray unit, and its size is suitable for storing therein one or more grains.

9, according to each described storage container in the claim 1 to 8, it is characterized in that, also comprise:

Anchor clamps, it is releasably attached on the air grid of automobile.

10, storage container according to claim 9, it is characterized in that, described anchor clamps are on its first end place removably joins in a plurality of clamp seat slot that are formed on the described container body one to, and these anchor clamps are configured to clip-type being opened at its second end place, thereby are releasably attached on the described air grid.

11, storage container according to claim 9 is characterized in that, described anchor clamps are installed on the described container body, thereby rotates between level attitude and upright position, and this upright position and described level attitude are angledly spaced apart downwards.

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