CN109733748B

CN109733748B - Quantitative medicine taking bottle

Info

Publication number: CN109733748B
Application number: CN201910155589.5A
Authority: CN
Inventors: 王政乾
Original assignee: Individual
Current assignee: Fujian Jinying Technology Co ltd
Priority date: 2019-03-01
Filing date: 2019-03-01
Publication date: 2020-06-30
Anticipated expiration: 2039-03-01
Also published as: CN109733748A

Abstract

The invention discloses a quantitative medicine taking bottle which comprises a bottle body, a bottle cap and a quantitative medicine taking assembly, wherein the quantitative medicine taking assembly is arranged in a space surrounded by the bottle body, the quantitative medicine taking assembly comprises a batcher and a partition, the batcher comprises a cylinder and a handle, the cylinder is accommodated in the partition and is in sliding connection with the partition, the top surface and the bottom surface of the cylinder are in rotating connection with the partition through a shaft, the upper surface of the partition is provided with an inclined surface and a V-shaped inclined surface, the bottom of the V-shaped inclined surface is provided with an inclined medicine feeding chute, and the medicine feeding chute penetrates through the cylinder to form a quantitative medicine bin. A medicine outlet chute is also arranged in the separator. The handle is fixedly connected with the shaft below the cylinder, and the quantitative medicine bin can be butted with the medicine inlet chute or the medicine outlet chute by rotating the handle. The medicine taking device can take medicine quantitatively only by rotating the handle, is simple to operate, has a medicine marking function, and is very convenient and practical.

Description

Quantitative medicine taking bottle

Technical Field

The invention relates to the technical field of medicine bottles, in particular to a quantitative medicine taking bottle.

Background

The medicine bottle body of prior art is thick, the bottleneck is thin, when getting it filled, need open the bottle lid earlier, shake the medicine bottle again and tremble out tablet (pill), at the in-process of operation, the range and the dynamics that need accurate control to tremble, just can get it filled smoothly, and the condition that often takes place is then, trembled half a day and also be difficult to control out the dose, can tremble out unnecessary medicine occasionally, shake the medicine on the ground even, especially to the brain dull, the nimble child of hand inadequately, the old man, the disability personage, this kind of mode of getting it filled has very big defect.

The patent numbers are: 201721038972.5 discloses a bottle capable of taking medicine quantitatively, which provides convenience for the elderly to take medicine by setting a medicine bin in a bottle cap, and the tablet can enter the medicine bin only by turning the medicine bottle upside down during operation, and then can take medicine by screwing down the bottle cap. Although the technical scheme has a simple structure and makes certain technical progress, the following defects still exist: 1. when the bottle cap is screwed off, the opening of the bottle cap is downward, and at this time, the tablets in the medicine bin are easy to fall to the ground and need to be taken again; 2. the medicine bin is provided with a one-way opening, so that the medicine tablet cannot be thrown back into the medicine bottle again in the process that the medicine bottle is turned upside down and then turned over; 3. the medicine taking in the medicine bin can only provide a fuzzy medicine amount range, and accurate medicine taking cannot be achieved, for example, the medicine taking can not be achieved by taking one medicine at a time.

In fact, it is difficult to achieve precise medicine taking, and it is relatively easy to obtain medicine in various forms in a medicine bottle, and if the medicine is powder, quantitative medicine taking is relatively easy, and if the medicine is oblate tablets, spherical pills, oval tablets, capsules and the like, different postures of the medicine during medicine taking need to be considered, and if the technology is not over-critical, the medicine is easily worn during quantitative medicine taking.

Based on the above disadvantages and difficulties in the prior art, there is a need for a medicine bottle that can be used with high precision and quantitative medicine taking and is convenient to use.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention discloses a quantitative medicine taking bottle.

In order to achieve the purpose, the technical scheme of the invention is as follows:

a quantitative medicine taking bottle comprises a bottle body, a bottle cap 3 and a quantitative medicine taking assembly, wherein the bottle body comprises a bottle body 1 and a bottle neck 2, the bottle cap 3 is in threaded connection with the bottle neck 2, the quantitative medicine taking assembly is arranged in a space surrounded by the bottle body 1 and comprises a batcher and a spacer 22, the batcher comprises a cylinder 8 and a handle 17, the cylinder 8 is vertically arranged at the middle lower part of the space surrounded by the bottle body 1, the spacer 22 is filled around the cylinder 8 and is fixedly connected with the inner surface of the side wall and the inner surface of the bottom surface of the bottle body 1, the spacer 22 is in sliding connection with the cylinder 8, the spacer 22 is solid, the top surface and the bottom surface of the cylinder 8 are rotatably connected with the spacer 22 through a shaft, the cylinder 8 is fixedly connected with the shaft, and the shaft at the bottom surface of the cylinder 8 penetrates through the bottom surface of the bottle body 1 to extend downwards, And is fixedly connected with a handle 17, the handle 17 is rotated to enable the cylinder 8 to rotate around the axis, the upper surface of the partition 22 is divided into an inclined surface 19 and a V-shaped inclined surface 21, the inclined surface 19 is arranged above the top surface of the cylinder 8 and extends obliquely upwards, the inclined surface 19 is intersected with the inner surface of the side wall of the bottle body 1 and is fixedly connected with the inner surface of the side wall, the V-shaped inclined surface 21 is positioned at the opposite side of the inclined surface 19, the V-shaped inclined surface 21 forms a valley-shaped chute, a medicine feeding chute 7 is arranged at the bottom of the chute, the medicine feeding chute 7 extends along the straight line and obliquely downwards, penetrates through the partition 22 layer outside the side wall of the cylinder 8, then penetrates through the cylinder 8 and forms a through hole on the cylinder 8, the space surrounded by the through hole forms a quantitative medicine bin 9, the capacity of the medicine feeding chute 7 in unit length is the same, the tablets or pills can slide into the quantitative medicine bin 9 along the medicine feeding chute 7 in the medicine feeding, the V-shaped inclined plane 21 is crossed and fixedly connected with the inner surface of the side wall of the bottle body 1, the end part below the V-shaped inclined plane 21 is positioned in a vertical plane, the end part below the V-shaped inclined plane 21 is crossed with the vertical plane to form 2 intersecting lines A25, the vertical plane extends upwards to be crossed with the inclined plane 19 to form an intersecting line B26, the top point of the 2 intersecting lines A25 is respectively superposed with 2 end points of the intersecting line B26, the 2 intersecting lines A25, the intersecting line B26 and the end part below the inclined plane of the medicine inlet chute 7 are enclosed to form a vertical plane, the V-shaped inclined plane 21 is connected with the inclined plane 19 through the vertical plane, a medicine outlet chute 15 is further arranged in the isolator 22, the medicine outlet chute 15 extends along a straight inclined line and is crossed with the side wall of the bottle body 1 to form a medicine outlet 14, the height of the medicine inlet 13 of the medicine outlet chute 15 is the same as the height of the outlet 10 below the quantitative medicine bin 9, the size of medicine inlet 13 and outlet 10 the same, when the entry 11 of ration medicine storehouse 9 and the lower open-end 12 of advancing medicine spout 7 coincide, export 10 staggers with advancing medicine mouth 13, and twist grip 17 makes export 10 and advance medicine mouth 13 coincide, entry 11 staggers with lower open-end 12, and tablet or pellet can follow a medicine chute 15 through a medicine mouth 14 roll-off medicine bottle, the surface of body 1 bottom surface be equipped with packing ring 4, handle 17 hold in the space that the surface of packing ring 4 and body 1 bottom surface encloses and close.

Preferably, the outer surface of the sidewall of the cylinder 8 is provided with an elastic body 23, the spacer 22 slidably connected with the outer surface of the sidewall of the cylinder 8 is provided with a groove 24 matched with the elastic body 23, and when the lower opening 12 is overlapped with the inlet 11, the elastic body 23 is clamped in the groove 24; the outer surface of the side wall of the cylinder 8 is provided with an elastic body 23, a groove 24 matched with the elastic body 23 is arranged on a partition 22 connected with the outer surface of the side wall of the cylinder 8 in a sliding way, and when the outlet 10 is coincided with the medicine inlet 13, the elastic body 23 is clamped in the groove 24.

Preferably, the partition 22 is in snap-fit connection with the inner surface of the sidewall of the bottle body 1 or the inner surface of the bottom of the bottle body 1.

Preferably, a desiccant chamber 18 for containing a desiccant is further disposed in the partition 22, and an air hole 20 is disposed at the top of the desiccant chamber 18.

Preferably, a medicine receiving device 16 is further arranged at the outer edge of the medicine outlet 14.

Preferably, one end of the medicine receiving device 16 is hinged to the lower edge of the medicine outlet through a horizontal shaft, the other end of the medicine receiving device 16 is connected with the outer surface of the side wall of the bottle body 1 in a buckling mode, the buckling mode is opened, the medicine receiving device 16 is placed flatly, and tablets or pills sliding out from the medicine outlet can slide into the medicine receiving device 16.

Preferably, the outer surface of the top of the bottle cap 3 is provided with an identification area 27 for identifying the medicine taking time.

Preferably, 3 top surface's of bottle lid central point put and be equipped with vertical direction's pivot 5, pivot 5 rotate with 3 tops of bottle lid and be connected, it has pointer 6 to articulate in 5 upper ends of pivot, pointer 6 can lift or put down around the articulated shaft.

Preferably, a clamping groove 28 is arranged in the identification area 27, a protrusion 29 is arranged on the lower edge of the pointer 6, and the clamping groove 28 is matched with the protrusion 29.

Preferably, the spacer 22 is made of PE or PP or PET.

Advantageous effects

The quantitative medicine taking bottle has the following beneficial effects:

1. the quantitative medicine bin 9 and the medicine feeding chute 7 can be designed into different sizes according to the sizes of the tablets (pills), so that accurate medicine taking is realized, for example, in the medicine feeding chute 7, the tablets (pills) slide into the quantitative medicine bin 9 in a mode that single tablets (pills) are abutted end to end, if the quantitative medicine bin 9 is set to be the capacity of 1 tablet (pill), 1 tablet (pill) can be taken out by rotating the handle 17 for 1 time, and if the quantitative medicine bin 9 is set to be the capacity of 2 tablets (pills), 2 tablets (pills) can be taken out by rotating the handle 17 for 1 time, and so on;

2. the technical difficulty is overcome, the accurate quantitative medicine taking of various types of tablets (pills) is realized, and the abrasion to the medicines is avoided: no matter the tablet or the capsule is round, oblate or oval, the device can be used for accurately and quantitatively taking the medicine, the quantitative medicine bin 9 can be accurately set to be the length matched with the size of the tablet (pill), the tablet at the inlet 11 of the quantitative medicine bin 9 is abutted against the tablet at the lower opening 12 end to end, a dividing point is formed at the abutting position, when the handle 17 is rotated, the outer surface of the side wall of the cylinder is cut into the dividing point, the tablet (pill) in the quantitative medicine bin 9 is divided, and meanwhile, the tablet (pill) at the lower opening 12 is retained in the medicine inlet chute 7, so that the abrasion to the medicine during quantitative medicine taking is avoided;

3. the medicine taking is simple and convenient, quantitative medicine taking can be realized only by rotating the handle 17, and inconvenience caused by the fact that a bottle cover needs to be unscrewed and then a medicine bottle needs to be shaken when the medicine is taken in the traditional method is avoided.

4. In the preferred scheme, the pointer 6 and the identification area 27 are further arranged, so that the old can conveniently identify whether to take the medicine or not, after the old takes the medicine, the old can record whether to take the medicine or not and the time of taking the medicine only by clamping the pointer 6 into the corresponding clamping groove 28 of the identification area 27, and the problem that the old takes the medicine more or less due to memory decline is solved;

5. in the preferred scheme, the drying agent is separated from the tablets, so that the problem of mutual abrasion caused by mixing of the tablets and the drying agent in the prior art is avoided.

Drawings

FIG. 1: is a longitudinal sectional view of a quantitative medicine taking bottle when taking medicine;

FIG. 2: is a longitudinal sectional view of a quantitative medicine taking bottle when the medicine is taken out;

FIG. 3: is a schematic cross-sectional view at one end obliquely below the V-shaped inclined plane;

FIG. 4: a schematic diagram of the position relationship between the identification area and the pointer is viewed from above;

FIG. 5: is a side sectional view of the pointer;

FIG. 6: is a schematic diagram of the position relationship between the medicine inlet chute and the V-shaped inclined plane in the embodiment 2;

1: body, 2: bottleneck, 3: bottle cap, 4: gasket, 5: rotating shaft, 6: pointer, 7: medicine feeding chute, 8: cylinder, 9: quantitative medicine bin, 10: outlet, 11: inlet, 12: lower opening, 13: medicine inlet, 14: medicine outlet, 15: discharge chute, 16: medicine receiving device, 17: handle, 18: desiccant chamber, 19: inclined plane, 20: air hole, 21: v-shaped slope, 22: spacer, 23: elastomer, 24: groove, 25: intersection line a, 26: intersection B, 27: identification area, 28: card slot, 29: projection, 30: and (6) erecting.

Detailed Description

The following description is only exemplary of the present invention and should not be construed as limiting the scope of the present invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention should be included in the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations and positional relationships based on the orientations and positional relationships shown in the drawings, and are only used for describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation and a specific orientation configuration and operation, and thus, the present invention is not to be construed as being limited thereto.

Example 1:

a quantitative medicine taking bottle comprises a bottle body, a bottle cap 3 and a quantitative medicine taking assembly, wherein the bottle body comprises a bottle body 1 and a bottle neck 2, the bottle cap 3 is in threaded connection with the bottle neck 2, the quantitative medicine taking assembly is arranged in a space surrounded by the bottle body 1 and comprises a batcher and a spacer 22, the batcher comprises a cylinder 8 and a handle 17, the cylinder 8 is vertically arranged at the middle lower part of the space surrounded by the bottle body 1, the spacer 22 is filled around the cylinder 8 and is fixedly connected with the inner surface of the side wall and the inner surface of the bottom surface of the bottle body 1, the spacer 22 is in sliding connection with the cylinder 8, the spacer 22 is solid, the top surface and the bottom surface of the cylinder 8 are rotatably connected with the spacer 22 through a shaft, the cylinder 8 is fixedly connected with the shaft, and the shaft at the bottom surface of the cylinder 8 penetrates through the bottom surface of the bottle body 1 to extend downwards, And is fixedly connected with a handle 17, the handle 17 is rotated to enable the cylinder 8 to rotate around the axis, the upper surface of the partition 22 is divided into an inclined surface 19 and a V-shaped inclined surface 21, the inclined surface 19 is arranged above the top surface of the cylinder 8 and extends obliquely upwards, the inclined surface 19 is intersected with the inner surface of the side wall of the bottle body 1 and is fixedly connected with the inner surface of the side wall, the V-shaped inclined surface 21 is positioned at the opposite side of the inclined surface 19, the V-shaped inclined surface 21 forms a valley-shaped chute, a medicine feeding chute 7 is arranged at the bottom of the chute, the medicine feeding chute 7 extends along the straight line and obliquely downwards, penetrates through the partition 22 layer outside the side wall of the cylinder 8, then penetrates through the cylinder 8 and forms a through hole on the cylinder 8, the space surrounded by the through hole forms a quantitative medicine bin 9, the capacity of the medicine feeding chute 7 in unit length is the same, the tablets or pills can slide into the quantitative medicine bin 9 along the medicine feeding chute 7 in the medicine feeding, the V-shaped inclined plane 21 is crossed and fixedly connected with the inner surface of the side wall of the bottle body 1, the end part below the V-shaped inclined plane 21 is positioned in a vertical plane, the end part below the V-shaped inclined plane 21 is crossed with the vertical plane to form 2 intersecting lines A25, the vertical plane extends upwards to be crossed with the inclined plane 19 to form an intersecting line B26, the top point of the 2 intersecting lines A25 is respectively superposed with 2 end points of the intersecting line B26, the 2 intersecting lines A25, the intersecting line B26 and the end part below the inclined plane of the medicine inlet chute 7 are enclosed to form a vertical plane, the V-shaped inclined plane 21 is connected with the inclined plane 19 through the vertical plane, a medicine outlet chute 15 is further arranged in the isolator 22, the medicine outlet chute 15 extends along a straight inclined line and is crossed with the side wall of the bottle body 1 to form a medicine outlet 14, the height of the medicine inlet 13 of the medicine outlet chute 15 is the same as the height of the outlet 10 below the quantitative medicine bin 9, the sizes of the medicine inlet 13 and the medicine outlet 10 are the same, when the inlet 11 of the quantitative medicine bin 9 is overlapped with the lower opening 12 of the medicine inlet chute 7, the medicine outlet 10 is staggered with the medicine inlet 13, the handle 17 is rotated to ensure that the outlet 10 is overlapped with the medicine inlet 13, the inlet 11 is staggered with the lower opening 12, tablets or pills can slide out of the medicine bottle through the medicine outlet 14 along the medicine outlet chute 15, the gasket 4 is arranged on the outer surface of the bottom surface of the bottle body 1, and the handle 17 is accommodated in a space formed by the gasket 4 and the outer surface of the bottom surface of the bottle body 1;

the outer surface of the side wall of the cylinder 8 is provided with an elastic body 23, a groove 24 matched with the elastic body 23 is arranged on a spacer 22 in sliding connection with the outer surface of the side wall of the cylinder 8, and when the lower opening 12 is superposed with the inlet 11, the elastic body 23 is clamped in the groove 24; the outer surface of the side wall of the cylinder 8 is provided with an elastic body 23, a groove 24 matched with the elastic body 23 is arranged on a partition 22 in sliding connection with the outer surface of the side wall of the cylinder 8, and when the outlet 10 is coincided with the medicine inlet 13, the elastic body 23 is clamped in the groove 24;

the separator 22 is in snap fit connection with the inner surface of the side wall of the bottle body 1 or the inner surface of the bottom surface of the bottle body 1;

a desiccant chamber 18 for containing a desiccant is further arranged in the partition 22, and an air hole 20 is formed in the top of the desiccant chamber 18;

a medicine receiving device 16 is also arranged at the outer edge of the medicine outlet 14;

one end of the medicine receiving device 16 is hinged to the lower edge of the medicine outlet through a horizontal shaft, the other end of the medicine receiving device 16 is connected with the outer surface of the side wall of the bottle body 1 in a buckling mode, the buckle is opened, the medicine receiving device 16 is placed flatly, and tablets or pills sliding out from the medicine outlet can slide into the medicine receiving device 16;

the outer surface of the top of the bottle cap 3 is provided with an identification area 27 for identifying the medicine taking time;

a rotating shaft 5 in the vertical direction is arranged in the center of the outer surface of the top of the bottle cap 3, the rotating shaft 5 is rotatably connected with the top of the bottle cap 3, a pointer 6 is hinged to the upper end of the rotating shaft 5, and the pointer 6 can be lifted up or put down around a hinged shaft;

a clamping groove 28 is arranged in the identification area 27, a protruding part 29 is arranged on the lower edge of the pointer 6, and the clamping groove 28 is matched with the protruding part 29;

the spacers 22 are made of PE.

The tablets (pills) are contained in a space enclosed by the inclined plane 19, the V-shaped inclined plane 21, the vertical plane 30 and the inner surface of the side wall of the bottle body 1, the tablets (pills) at the bottom layer, which are consistent with the direction of the medicine feeding chute 7, can slide into the medicine feeding chute 7, and can slide downwards in the medicine feeding chute 7 under the action of gravity, in practical application, if the pills are the pills, the depth and the width of the medicine feeding chute 7 can be designed according to the diameter of the pills, so that the depth and the width are matched with the diameter of the pills (namely the depth and the width are the same as the diameter of the pills or the depth and the width are slightly larger than the diameter of the pills, the pills can slide downwards freely under the action of gravity, and adjacent pills can be kept in an end-to-end connection (but not staggered) degree, so that the pills enter the medicine feeding chute 7 in a single-pill and single-layer (namely not overlapped) mode, and the pills; in the case of a tablet having an oblate shape, the width of the feed chute 7 needs to be designed according to the thickness of the tablet (the thickness of the thickest part), the depth of the medicine inlet chute 7 is set according to the diameter of the tablets, so that the depth of the medicine inlet chute is matched with the diameter of the tablets (namely, the depth is the same as the diameter of the tablets or is slightly larger than the diameter of the tablets, the tablets can freely slide down due to gravity, and the adjacent tablets can be kept in end-to-end connection (but not staggered) as a degree), the width of the medicine inlet chute is matched with the thickness of the tablets (namely, the width is the same as the maximum thickness of the tablets or is slightly larger than the maximum thickness of the tablets, the tablets can freely slide down due to gravity, and the adjacent tablets can be kept in end-to-end connection (but not staggered) as, thus, the tablets enter the medicine inlet chute 7 in a single-piece and single-layer (i.e. non-overlapped) form, and are abutted end to end under the action of gravity and slide into the quantitative medicine bin 9; if the tablets are oval long tablets, the width of the medicine inlet chute 7 is designed according to the thickness of the tablets (the thickness of the thickest part), the depth of the medicine inlet chute 7 is set according to the width of the tablets (the width of the thickest part), the depth of the medicine inlet chute is matched with the width of the tablets (namely the depth is the same as the width of the tablets or slightly larger than the width of the tablets, the tablets can freely slide down due to gravity, and the adjacent tablets can be kept in end-to-end connection (but not staggered), the width of the medicine inlet chute is matched with the thickness of the tablets (namely the width is the same as the thickness of the tablets or slightly larger than the thickness of the tablets, the tablets can freely slide down due to gravity, and the adjacent tablets can be kept in end-to-end connection (but not staggered)) so that the tablets enter the medicine inlet chute 7 in a single-piece and single-layer (i.e. not overlapped) mode, and the tablets are abutted end-to, slide into the dosing bin 9.

As shown in fig. 1 or fig. 2, the tablet chute 7 is inclined downward, that is, when the tablet (pill) in the tablet chute 7 bears the pressure of the tablet (pill) above the tablet chute, the downward sliding power is increased, so that the tablet (pill) has sufficient power to slide downward along the tablet chute 7 due to the dual functions of the gravity of the tablet (pill) and the pressure of the upper tablet (pill), and the tablet (pill) sliding into the quantitative medicine bin 9 stops sliding against the partition at the outlet 10. When in use, the medicine bottle can be shaken in a slight horizontal direction, so that the tablets (pills) in the medicine bottle are uniformly arranged, and the tablets (pills) can slide down more easily.

The medicine feeding chute 7 designed by the invention is uniform in shape, namely, the medicine feeding chute 7 in unit length can contain equal amount of tablets (pills), and the quantitative medicine bin 9 is formed by extending the medicine feeding chute 7, so that the unit length of the quantitative medicine bin 9 is the same as the amount of the tablets (pills) contained in the medicine feeding chute 7 in unit length. Thus, it is ensured that the dosing chute 7 can dose a metered dose uniformly to the dosing bin 9 each time.

In practical applications, if the dosing chamber 9 is designed to contain 1 tablet (pill) at a time, the dosing chamber 9 should be designed to contain only 1 tablet (pill) at a time, if the dosing chamber 9 is designed to contain 2 tablets (pill) at a time, and so on.

As shown in fig. 1, the tablet (pill) at the inlet 11 in the quantitative medicine bin 9 is abutted against the tablet (pill) at the lower opening 12 end to end, a dividing point is formed at the abutting position, when the handle 17 is rotated, the outer surface of the side wall of the cylinder 8 is cut into the dividing point to divide the tablet (pill) in the quantitative medicine bin 9, and meanwhile, the tablet (pill) at the lower opening 12 is retained in the medicine inlet chute 7, so that the abrasion of the medicine during quantitative medicine taking is avoided. When the handle 17 is rotated until the outlet 10 coincides with the inlet 13 of the dispensing chute 15, as shown in fig. 2, the tablets (pills) in the dosing chamber 9 slide out of the vial along the dispensing chute 15. The handle 17 is rotated until the inlet 11 is coincident with the lower opening 12 (see fig. 1), and the medicine can be taken out continuously.

Example 2:

the spacer 22 is made of PET.

The V-shaped inclined plane of the invention forms a valley-shaped chute, so that tablets sliding down from the slopes at two sides of the V-shaped inclined plane are naturally arranged longitudinally (namely along the chute direction) at the bottom of the chute under the action of gravity, thus ensuring that the tablets (pills) can easily enter the medicine inlet chute 7, as shown in figure 6, the medicine inlet chute 7 can also be designed into an inclined shape, and the inner surface of one side wall of the medicine inlet chute and one side surface of the V-shaped inclined plane are on the same plane, thus ensuring that the tablets can slide into the medicine inlet chute more easily.

As the amount of the medicine in the medicine bottle is reduced, the tablets (pills) on the inclined plane 19 continuously slide into the V-shaped inclined plane to supplement the medicine.

Example 3:

the spacers 22 are made of PP.

As shown in fig. 1 and 2, in order to achieve precise positioning, an elastic body 23 is provided on the outer surface of the sidewall of the cylinder 8, and a groove 24 matching with the elastic body 23 is provided on a spacer 22 slidably connected to the outer surface of the sidewall of the cylinder 8, so that when taking medicine, the position of taking or discharging medicine can be easily sensed by rotating the handle 17, and when the elastic body 23 is engaged with the groove 24, the taking or discharging medicine is completed.

Example 4:

the spacer 22 is made of PET.

The desiccant in the prior art is often mixed with the tablets, and the desiccant is isolated from the tablets, so that the problem of mutual abrasion caused by mixing the tablets and the desiccant in the prior art is solved.

Example 5:

one end of the medicine receiving device 16 is hinged to the lower edge of the medicine outlet through a horizontal shaft, the other end of the medicine receiving device 16 is connected with the outer surface of the side wall of the bottle body 1 in a buckling mode, the buckle is opened, the medicine receiving device 16 is placed flatly, and tablets or pills sliding out of the medicine outlet can slide into the medicine receiving device 16.

Example 6:

a clamping groove 28 is arranged in the identification area 27, a protruding part 29 is arranged on the lower edge of the pointer 6, and the clamping groove 28 is matched with the protruding part 29.

The old people can easily forget the time for taking the medicine, so that the old people do not take the medicine or take the medicine more, the invention solves the problems, and the old people can record whether the medicine is taken or not and the time for taking the medicine only by clamping the pointer 6 into the corresponding clamping groove 28 of the identification area 27, thereby avoiding the problem that the old people take the medicine more or less due to the memory decline. Wherein the identification of the identification area 27 may be set to early, medium, late, or specific time.

Claims

1. A quantitative dispensing vial characterized by: the quantitative medicine taking bottle comprises a bottle body, a bottle cap (3) and a quantitative medicine taking assembly, wherein the bottle body comprises a bottle body (1) and a bottle neck (2), the bottle cap (3) is in threaded connection with the bottle neck (2), the quantitative medicine taking assembly is arranged in a space surrounded by the bottle body (1), the quantitative medicine taking assembly comprises a batcher and a spacer (22), the batcher comprises a cylinder (8) and a handle (17), the cylinder (8) is vertically arranged at the middle lower part in the space surrounded by the bottle body (1), the spacer (22) is filled around the cylinder (8) and is fixedly connected with the inner surface of the side wall and the inner surface of the bottom surface of the bottle body (1), the spacer (22) is in sliding connection with the cylinder (8), the spacer (22) is solid, and the top surface and the bottom surface of the cylinder (8) are rotatably connected with the spacer (22) through a shaft, cylinder (8) and axle fixed connection, the axle of cylinder (8) bottom surface pass the bottom surface downwardly extending of body (1) and with handle (17) fixed connection, turning handle (17) can make cylinder (8) axis rotation, the upper surface of separator (22) divide into inclined plane (19) and V type inclined plane (21), inclined plane (19) set up in the top surface top of cylinder (8) and extend to oblique top, inclined plane (19) intersect and fixed connection with the lateral wall internal surface of body (1), V type inclined plane (21) be located the offside of inclined plane (19), V type inclined plane (21) constitute valley type chute, be equipped with into medicine spout (7) in chute bottom portion, into medicine spout (7) extend along the straight line to oblique below and pass the outer separator (22) layer of cylinder (8) lateral wall, the medicine is taken into, Then the medicine bottle penetrates through the cylinder (8) and forms a through hole on the cylinder (8), a quantitative medicine bin (9) is formed in a space surrounded by the through hole, the capacity of the medicine feeding chute (7) in unit length is the same, tablets or pills can slide into the quantitative medicine bin (9) along the medicine feeding chute (7) in the medicine feeding chute (7), the V-shaped inclined surface (21) is intersected with the inner surface of the side wall of the bottle body (1) and fixedly connected with the inner surface of the side wall of the bottle body, the end part below the V-shaped inclined surface (21) is positioned in a vertical plane, the end part below the V-shaped inclined surface (21) is intersected with the vertical plane to form 2 intersecting lines A (25), the vertical plane extends upwards to be intersected with the inclined surface (19) to form intersecting lines B (26), the vertexes of the 2 intersecting lines A (25) are respectively superposed with 2 end points of the intersecting lines B (26), and the 2 intersecting lines A (25) are respectively superposed with the intersecting lines B (26) and the lower end points of the medicine feeding chute (7) The square end part is enclosed to form a vertical surface, the V-shaped inclined surface (21) is connected with the inclined surface (19) through the vertical surface, a medicine outlet chute (15) is further arranged in the partition (22), the medicine outlet chute (15) extends along a straight line to the inclined lower side and is intersected with the side wall of the bottle body (1) to form a medicine outlet (14), the height of a medicine inlet (13) of the medicine outlet chute (15) is the same as that of an outlet (10) of the quantitative medicine bin (9), the sizes of the medicine inlet (13) and the medicine outlet (10) are the same, when an inlet (11) of the quantitative medicine bin (9) is overlapped with a lower opening (12) of the medicine inlet chute (7), the medicine outlet (10) is staggered with the medicine inlet (13), when the medicine outlet (10) is overlapped with the medicine inlet (13) by rotating the handle (17), the inlet (11) is staggered with the lower opening (12), tablets or pills can slide out from the medicine outlet (14) through the medicine outlet (14), the outer surface of the bottom surface of the bottle body (1) is provided with a gasket (4), the handle (17) is accommodated in a space formed by the gasket (4) and the outer surface of the bottom surface of the bottle body (1), the outer surface of the side wall of the cylinder (8) is provided with an elastic body (23), a spacer (22) in sliding connection with the outer surface of the side wall of the cylinder (8) is provided with a groove (24) matched with the elastic body (23), and when the lower opening (12) is overlapped with the inlet (11), the elastic body (23) is clamped in the groove (24); the outer surface of the side wall of the cylinder (8) is provided with an elastic body (23), a groove (24) matched with the elastic body (23) is arranged on a partition (22) in sliding connection with the outer surface of the side wall of the cylinder (8), and when the outlet (10) is superposed with the medicine inlet (13), the elastic body (23) is clamped in the groove (24); the size of the medicine feeding chute (7) restricts pills or tablets to be contained in the medicine feeding chute (7) in a single-layer and head-to-tail abutting mode, the pills or tablets can slide towards the direction of the quantitative medicine bin (9) due to gravity, and the length of the quantitative medicine bin (9) is integral multiple of the length of the pills or tablets along the direction of the medicine feeding chute.

2. A metered dose vial as recited in claim 1, wherein: the separator (22) is connected with the inner surface of the side wall of the bottle body (1) or the inner surface of the bottom surface of the bottle body (1) in a buckling way.

3. A metered dose vial as recited in claim 1, wherein: a desiccant chamber (18) for containing a desiccant is further arranged in the partition (22), and an air hole (20) is formed in the top of the desiccant chamber (18).

4. A metered dose vial as recited in claim 3, wherein: the outer edge of the medicine outlet (14) is also provided with a medicine receiving device (16).

5. A metered dose vial as recited in claim 4, wherein: one end of the medicine receiving device (16) is hinged to the lower edge of the medicine outlet (14) through a horizontal shaft, the other end of the medicine receiving device (16) is connected with the outer surface of the side wall of the bottle body (1) in a buckling mode, the buckle is opened, the medicine receiving device (16) is laid flat, and tablets or pills sliding out of the medicine outlet can slide into the medicine receiving device (16).

6. A quantitative dispensing bottle as defined in claim 1 or 5, wherein: the outer surface of the top of the bottle cap (3) is provided with an identification area (27) for identifying the medicine taking time.

7. A metered dose vial as recited in claim 6, wherein: the bottle cap is characterized in that a rotating shaft (5) in the vertical direction is arranged in the center of the outer surface of the top of the bottle cap (3), the rotating shaft (5) is rotatably connected with the top of the bottle cap (3), a pointer (6) is hinged to the upper end of the rotating shaft (5), and the pointer (6) can be lifted or put down around a hinged shaft.

8. A metered dose vial as recited in claim 7, wherein: a clamping groove (28) is arranged in the identification area (27), a protruding part (29) is arranged on the lower edge of the pointer (6), and the clamping groove (28) is matched with the protruding part (29).

9. A quantitative dispensing bottle as defined in claim 1, 5 or 8, wherein: the separator (22) is made of PE or PP or PET.