CN211919636U - Automatic counting split charging box - Google Patents

Abstract

The utility model relates to an automatic partial shipment box of count, this partial shipment box rotate layer and base including storing storehouse, digital mark layer, getting granule dish, jack restriction, and base upper surface center pin department is fixed and is provided with the center pillar, and supreme and jack restriction rotation layer fixed connection are followed to the center pillar, rotate with getting the granule dish and be connected, and digital mark layer fixed connection, and store storehouse fixed connection. The utility model discloses portable, it is small-size light, can avoid taking wrong quantity's granule (medicine or sugar granule etc.) by automatic counting, the easy scheduling problem that scatters of granule when can avoid getting the granule simultaneously.

Description

Automatic counting split charging box

Technical Field

The utility model relates to a partial shipment box technical field, concretely relates to automatic partial shipment box of count.

Background

Most of current partial shipment boxes are partial to conveniently carrying, but appear the medicine confusion easily in the use, are difficult to remember how much each needs of different kinds are eaten, perhaps at the in-process easy scattering scheduling problem of taking, simultaneously to the amnesia old person, more need can conveniently take the medicine of requirement quantity by direct counting at every turn.

And at present, parents attach great importance to the problem that children eat sugar at random, if sugar particles can be subpackaged out, the number of children eating every day is limited, and the problem that parents worry about eating more sugar is avoided.

But some current branch dress boxes have simple structure, only for the effect of conveniently carrying, can not play the purpose of count, and some intelligence branch dress box structures are complicated intelligent, but the price is more expensive, is not fit for the family and uses widely.

Disclosure of Invention

Utility model purpose: the utility model provides an automatic branch dress box of count, the problem that its purpose solution branch dress box can not automatic counting.

The technical scheme is as follows:

a sub-packaging box capable of automatically counting particles comprises a storage bin, a digital marking layer, a particle taking disc, an insertion hole limiting rotation layer and a base, wherein a center pillar is fixedly arranged at a central shaft of the upper surface of the base and is fixedly connected with the insertion hole limiting rotation layer from bottom to top;

a particle supply hole is arranged in the digital marking layer with numbers on the outer circumference;

a plurality of particle taking holes are formed in the particle taking disc, and each particle taking hole of the particle taking disc can be communicated with the particle supply hole;

the particle outlet hole is formed in the insertion hole limiting rotating layer, the edge where the particle outlet hole is located and the edge where the particle supply hole is located are adjacent edges in the vertical direction, the upper end of the particle outlet hole can be communicated with the particle taking hole, and the lower end of the particle outlet hole is communicated with a particle outlet on the base;

the storage bin is connected with a box cover which can be opened;

the base is hollow and has openings at its periphery.

The height of the particle-taking hole corresponds to the height of the particle.

The diameters of the particle taking hole, the particle supply hole and the particle outlet hole are consistent.

Get granule dish periphery circle and be provided with a plurality of supplementary inserted block jacks, jack restriction rotating layers periphery circle is provided with a plurality of supplementary inserted block jacks of restriction and a restriction fixed block, and supplementary inserted block jack of restriction is unanimous with supplementary inserted block jack quantity, and supplementary inserted block jack of restriction and supplementary inserted block jack staggered arrangement.

The limiting auxiliary insert block jack can be in threaded connection with the limiting auxiliary insert block.

The auxiliary plug block jack can be plugged with an auxiliary plug block.

The auxiliary insertion block is rotated to drive the particle taking disc to rotate within the range of 0-360 degrees.

The box cover can be in threaded connection or in buckle connection or in press connection with the storage bin.

The base can be internally provided with a particle outlet bin matched with the inner circumference of the base, the base is spliced with the particle outlet bin, and the upper end of the particle outlet bin is open.

The lower surface of the particle taking disc is provided with a blind hole, the upper surface of the jack rotation limiting layer is provided with a semi-convex small ball, and the semi-convex small ball can be clamped into the blind hole.

The advantages and effects are as follows:

the utility model discloses portable, it is small-size light, can avoid taking wrong quantity's granule (medicine or sugar granule etc.) by automatic counting, the easy scheduling problem that scatters of granule when can avoid getting the granule simultaneously.

Drawings

FIG. 1 is a schematic view of an automatic counting dispensing cartridge;

FIG. 2 is a top view of the automated counting and dispensing cartridge;

FIG. 3 is a cross-sectional view of the O-O face of the automatic counting and dispensing cartridge;

FIG. 4 is a sectional view taken along plane G-G of the automatic counting and dispensing cartridge;

FIG. 5 is a schematic diagram of a storage bin and a digital mark layer;

FIG. 6 is a schematic view of a particle pick-up tray;

FIG. 7 is a schematic view of a rotation limiting layer of the jack;

FIG. 8 is a schematic view of the base and the center pillar;

in the figure, 1, a box cover, 2, a medicine storage bin, 3, a digital marking layer, 4, a rotation auxiliary insertion block insertion hole, 5, a limitation auxiliary insertion block, 6, a limitation rotation layer, 7, a limitation auxiliary insertion block insertion hole, 8, a rotation particle taking disc, 9, a rotation auxiliary insertion block, 10, a limitation fixed block, 11, a particle outlet bin, 12, a base, 13, a medicine supply port, 14, a center column, 15, a particle outlet hole, 16, a blind hole, 17, a semi-convex small ball, 18, a particle taking hole and 19, a particle outlet.

Detailed Description

The utility model discloses an implement according to following technical scheme:

as shown in fig. 1-4, a sub-packaging box for automatically counting particles comprises a storage bin 2, a digital mark layer 3, a particle taking disc 8, an insertion hole limiting rotation layer 6 and a base 12, wherein a central column 14 is fixedly arranged at a central shaft of the upper surface of the base 12, and the central column 14 is fixedly connected with the insertion hole limiting rotation layer 6 through a thread from bottom to top, is rotatably connected with the particle taking disc 8, is fixedly connected with the digital mark layer 3 through a thread, and is fixedly connected with the storage bin 2; the digital mark layer 3, the particle taking disc 8 and the jack limiting rotation layer 6 are in corresponding equilateral polygon three-dimensional structures; the number of sides of the equilateral polygon is set according to the size of the particles. The embodiment is an equilateral hexagon three-dimensional structure, and if the particles are smaller, an equilateral octagon three-dimensional structure can be set.

As shown in fig. 5, a particle supply hole 13 is formed in the digital mark layer 3, and numerals are arranged on the outer circumference of the digital mark layer 3; each face of the outer circumference of the digital marking layer 3 corresponds to a digit, the digits are arranged from 1 in a counterclockwise sequence, the face corresponding to the limiting fixed block 10 on the outer circumference of the digital marking layer 3 is not provided with the digits, and the face adjacent to the face without the digits in the counterclockwise direction is the face marked with the digits 1.

As shown in fig. 6, a plurality of particle taking holes 18 are formed in the particle taking disc 8, each particle taking hole 18 of the particle taking disc 8 can be communicated with the particle supply hole 13, and an auxiliary insertion block insertion hole 4 is formed in the outer periphery of the particle taking disc 8; one auxiliary insert block insertion hole 4 is formed at each side of the outer periphery of the granule hole 18.

As shown in fig. 7, a particle outlet 15 is provided in the insertion hole rotation limiting layer 6, the particle supply hole 13 and the particle outlet 15 are both provided on the movement track of the particle taking hole 18, the edge where the particle outlet 15 is located and the edge where the particle supply hole 13 is located are adjacent edges in the vertical direction, the edge where the particle outlet 15 is located corresponds to the edge where the limiting fixed block 10 is located, the corresponding digital mark layer 3 is a surface on which no number is provided, the edge where the particle supply hole 13 is located is adjacent to the edge where the particle outlet 15 is located in the vertical direction, and the particle supply hole 13 corresponds to the digital mark layer 3 and is a surface on which the number 1 is marked; or it can be described that when one particle taking hole 18 is communicated with the particle supply hole 13, the adjacent particle taking hole 18 of the particle taking hole 18 in the counterclockwise direction is communicated with the particle outlet hole 15, that is, when the particle taking disc 8 rotates counterclockwise, the particle taking hole 18 is communicated with the particle supply hole 13 first and then communicated with the particle outlet hole 15, the upper end of the particle outlet hole 15 can be communicated with the particle taking hole 18, the lower end of the particle outlet hole 15 is communicated with the particle outlet 19 on the base 12, the outer circumference of the insertion hole limiting rotation layer 6 is provided with a plurality of limiting auxiliary insertion block insertion holes 7 and a limiting fixed block 10, the number of the limiting auxiliary insertion block insertion holes 7 is consistent with that of the auxiliary insertion block insertion holes 4, and the limiting auxiliary insertion block insertion holes 7 are staggered with that of the auxiliary insertion block insertion holes 4; each surface of the outer circumference of the insertion hole limiting rotation layer 6 corresponds to one limiting auxiliary insertion block insertion hole 7, that is, as shown in fig. 7, the top view of the insertion hole limiting rotation layer 6 is an equilateral hexagon, six limiting auxiliary insertion block insertion holes 7 are arranged in total, and the limiting auxiliary insertion block insertion holes 7 are arranged on the left side of each edge of the equilateral hexagon of the insertion hole limiting rotation layer 6, as shown in fig. 6, the auxiliary insertion block insertion holes 4 are arranged at the center of each surface of the outer circumference of the particle taking hole 18.

The storage bin 2 is connected with a box cover 1 which can be opened;

the base 12 is hollow and has openings at its periphery.

The height of the particle hole 18 is taken to correspond to the particle height. That is, only one particle can be accommodated in the particle taking hole 18, so that the particle taking plate 8 is ensured to fall by one particle each time, and the rotation angle is also fixed by the limiting auxiliary insertion block 5 and the limiting fixing block 10, thereby ensuring the accuracy of counting.

The particle supply hole 13, the particle taking hole 18 and the particle outlet hole 15 have the same hole diameter (i.e., the diameter of the hole).

Different specifications of tablets or sugar granules are specified by different specifications of split charging boxes, and the diameter of the tablets on the market is generally between 4mm and 21mm, so that the granule supply hole 13, the granule taking hole 18 and the granule outlet hole 15 in the split charging box can be set to be three specifications of 7.5 mm, 14.5mm and 22 mm; the height of the tablet taking hole 18 is the same as the thickness of the corresponding tablet.

The auxiliary plug jack 4 can be plugged with an auxiliary plug 9. The auxiliary insertion block 9 is rotated to drive the particle taking disc 8 to rotate within a range of 0-360 degrees.

The restriction auxiliary block insertion hole 7 can be threadedly connected with the restriction auxiliary block 5. I.e. the screw thread provided in the restricting auxiliary block insert hole 7 matches the screw thread provided on the restricting auxiliary block insert 5.

The box cover 1 can be in threaded connection or in buckling connection or in pressing connection with the storage bin 2. The buckle is connected for current connected mode, for example the connected mode of the bottle lid of the strong vitamin C piece of tomicrin doubly and bottle, presses the connected mode also for current connected mode, for example the connected mode that children pressed the medicine bottle with safe, and the connected mode of 15 mL's of meilin ibuprofen suspensoid drop (infant) bottle lid and bottle. If this partial shipment box is used for the splendid attire medicine, lid 1 can with store 2 arbitrary connected modes of storehouse, if this partial shipment box is used for the splendid attire sugar granule, can adopt lid 1 can press connected mode with storing 2 storehouses and be connected, avoid the very easy opening of children.

As shown in fig. 1 and 8, a particle discharging bin 11 matched with the inner circumference of the base 12 can be arranged in the base 12, the base 12 is inserted into the particle discharging bin 11, and the upper end of the particle discharging bin 11 is open. When the particle outlet bin 11 is taken out, the particles can be conveniently taken out.

The lower surface of the particle taking disc 8 is provided with a blind hole 16, the upper surface of the jack rotation limiting layer 6 is provided with a semi-convex small ball 17, and the semi-convex small ball 17 can be clamped into the blind hole 16. Get the contact surface of granule dish 8 and jack restriction rotation layer 6 and set up blind hole 16 and half protruding bobble 17 and rotate the frictional force when getting granule dish 8 in order to increase, avoid taking out granule quantity and make mistakes.

Opening the box cover 1, putting tablets or sugar granules into the storage bin 2, covering the box cover 1, screwing the limiting auxiliary insert block 5 into the limiting auxiliary insert block jack 7 below the digital label of the corresponding digital label layer 3 according to the quantity of the required granules, namely, inserting the limiting auxiliary insert block jack 7 corresponding to the limiting auxiliary insert block 5 as the initial position of the rotation of the rotating auxiliary insert block 9, inserting the rotating auxiliary insert block 9 into the rotating auxiliary insert block jack 4 corresponding to the upper side of the limiting auxiliary insert block jack 7, rotating the rotating auxiliary insert block 9, driving the granule taking disc 8 to rotate by rotating the rotating auxiliary insert block 9, wherein the granule taking hole 18 is firstly communicated with the granule supplying hole 13 when the granule taking disc 8 rotates anticlockwise as the granule outlet hole 15 corresponds to the digital label layer 3 without numbers, the granule supplying hole 13 corresponds to the digital label layer 3 as the side marked with the numbers 1, and the granule supplying hole 13 and the granule outlet hole 15 are both arranged on the motion track of the granule taking hole 18, and then the particle outlet hole 15 is communicated, namely, the particles in the storage bin 2 enter the particle taking hole 18 of the particle taking plate 8 from the particle supply hole 13, the auxiliary insertion block 9 is rotated continuously to take the particles in the particle taking hole 18 to enter the particle outlet hole 15, one particle can be contained in the particle taking hole 18, the number of the number marks on the number mark layer 3 is several, the particles are contained in the particle taking holes 18, the auxiliary insertion block 9 is rotated to start anticlockwise from the auxiliary insertion block 5 to stop at the limit fixed block 10, finally, the particles with the corresponding number drop into the particle outlet bin 11, and the particles with the corresponding number are taken out from the particle bin 11 for eating.

When the auxiliary insertion block is used again, the rotary auxiliary insertion block 9 is pulled out, the operation is repeated, the simple operation is that an eater rotates the auxiliary insertion block 9 from the limiting auxiliary insertion block 5 to the limiting fixed block 10 in the anticlockwise direction, and then the corresponding quantity of particles can be obtained.

Claims (10)

1. The utility model provides an automatic partial shipment box of count which characterized in that: the subpackaging box comprises a storage bin (2), a digital mark layer (3), a particle taking disc (8), an insertion hole limiting rotation layer (6) and a base (12), wherein a center column (14) is fixedly arranged at the central shaft of the upper surface of the base (12), the center column (14) from bottom to top is fixedly connected with the insertion hole limiting rotation layer (6), the center column (14) is rotatably connected with the particle taking disc (8), the center column (14) is fixedly connected with the digital mark layer (3), and the center column (14) is fixedly connected with the storage bin (2);

a particle supply hole (13) is arranged in the digital marking layer (3) with the number on the outer circumference;

a plurality of particle taking holes (18) are formed in the particle taking disc (8), and each particle taking hole (18) of the particle taking disc (8) can be communicated with the particle supply hole (13);

a particle outlet hole (15) is arranged in the jack limiting rotation layer (6), the edge where the particle outlet hole (15) is positioned and the edge where the particle supply hole (13) is positioned are adjacent edges in the vertical direction, the upper end of the particle outlet hole (15) can be communicated with a particle taking hole (18), and the lower end of the particle outlet hole (15) is communicated with a particle outlet (19) on the base (12);

the storage bin (2) is connected with a box cover (1) which can be opened;

the base (12) is hollow and is provided with openings on the periphery.

2. The automated counting dispensing cartridge of claim 1, wherein: the particle-removing openings (18) have an opening height corresponding to the height of the particles.

3. The automated counting dispensing cartridge of claim 1, wherein: the particle taking hole (18), the particle supply hole (13) and the particle outlet hole (15) have the same aperture.

4. The automated counting dispensing cartridge of claim 1, wherein: get granule dish (8) outer periphery and be provided with a plurality of supplementary inserted block jacks (4), jack restriction rotation layer (6) outer periphery is provided with a plurality of supplementary inserted block jacks of restriction (7) and a restriction fixed block (10), and supplementary inserted block jack of restriction (7) is unanimous with supplementary inserted block jack (4) quantity, and supplementary inserted block jack of restriction (7) staggers the setting mutually with supplementary inserted block jack (4).

5. The automated counting dispensing cartridge of claim 4, wherein: the limiting auxiliary insert block jack (7) can be in threaded connection with the limiting auxiliary insert block (5).

6. The automated counting dispensing cartridge of claim 4, wherein: the auxiliary plug block jack (4) can be inserted with an auxiliary plug block (9).

7. The automated counting dispensing cartridge of claim 6, wherein: the auxiliary rotary insert block (9) drives the particle taking disc (8) to rotate within the range of 0-360 degrees.

8. The automated counting dispensing cartridge of claim 1, wherein: the box cover (1) can be in threaded connection or in buckling connection or in pressing connection with the storage bin (2).

9. The automated counting dispensing cartridge of claim 1, wherein: the base (12) can be internally provided with a particle outlet bin (11) matched with the inner circumference of the base (12), the base (12) is inserted with the particle outlet bin (11), and the upper end of the particle outlet bin (11) is open.

10. The automated counting dispensing cartridge of claim 1, wherein: the lower surface of the particle taking disc (8) is provided with a blind hole (16), the upper surface of the jack rotation limiting layer (6) is provided with a semi-convex small ball (17), and the semi-convex small ball (17) can be clamped into the blind hole (16).

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